ABSTRACT

The knowledge of the geographical distribution of fungi is essential to promote the understanding of global and national fungal diversity patterns. In this study, we provide a literature-based checklist of Aspergillus, Penicillium, and Talaromyces species recorded in the biomes of the Brazilian Atlantic Forest and the Brazilian Pampa. Only Penicillium digitatum was reported for the Pampa biome. For the Atlantic Forest, a total of 169 species (68 Aspergillus, 79 Penicillium, and 22 Talaromyces) are reported, of which 20 are typified with specimens from this biome, including the novel species Penicillium nordestinense (section Lanata-Divaricata) that is described in this study. Penicillium nordestinense is phylogenetically related to the invalidly described species Penicillium setosum, and this species is validated here. Soil was the most common substrate from where species were reported. Several reported species are well known in biotechnological processes. Penicilliopsis zonata and Sclerocleista ornata, species previously treated in Aspergillus, are recorded. This checklist reflects the limited knowledge of fungal species in tropical environments, such as the Brazilian Atlantic Forest and Pampa biomes. This information is a good framework for understanding the Brazilian diversity of Aspergillus, Penicillium, and Talaromyces and provides data for future fungal biogeographical studies in tropical environments.

Keywords:
ascomycetes; Aspergillaceae; biodiversity; conservation hotspot; Trichocomaceae

Introduction

The Atlantic Forest is the second largest tropical forest in South America, and one of the most diverse on the planet, containing over 2,960 tree species (Zwiener et al. 2020Zwiener VP, Lima RAF, Sánchez-Tapia A, et al. 2020. Tree diversity in the Brazilian Atlantic Forest: biases and general patterns using different sources of information. In: Marques MCM, Grelle CEV. (eds) The Atlantic Forest: history, biodiversity, threats and opportunities of the megadiverse forest. Switzerland, Springer International Publishing.), 2,645 tetrapoda species (Figueiredo et al. 2020Figueiredo MSL, Weber MM, Brasileiro CA, et al. 2020. Tetrapod diversity in the Atlantic Forest: maps and gaps. In: Marques MCM, Grelle CEV. (eds) The Atlantic Forest: history, biodiversity, threats and opportunities of the megadiverse forest. Springer International Publishing, Switzerland. p. 185-204. ), and 1,401 species of social insects (Feitosa et al. 2020Feitosa RM, Morini MS, Martins AC, et al. 2020. Social Insects of the Atlantic Forest. In: Marques MCM, Grelle CEV. (eds) The Atlantic Forest: history, biodiversity, threats and opportunities of the megadiverse forest. Springer International Publishing, Switzerland. ). This rainforest harbors a high level of endemic species of the global fauna and flora (Myers et al. 2000Myers N, Mittermeier RA, Mittermeier CG, Fonseca Gab, Kent J. 2000. Biodiversity hotspots for conservation priorities. Nature 403: 854-858.; Grelle et al. 2021Grelle CEV, Rajão H, Marques MCM. 2021. The Future of the Brazilian Atlantic Forest. In: Marques MCM, Grelle CEV. (eds) The Atlantic Forest. Cham, Springer. pp. 487-503. ). The Atlantic Forest is a biome that, which currently covers approximately 15 % of the Brazilian territory, and is a place for approximately 72 % of the Brazilian population (SOS Mata Atlântica 2017SOS MATA ATLÂNTICA. 2017. Relatório Anual de atividades 2017. https://www.sosma.org.br/wp-content/uploads/2018/10/AF_RA_SOSMA_2017_web.pdf.
https://www.sosma.org.br/wp-content/uplo... ). The Atlantic Forest is considered a global conservation hotspot because of its highincidence of endemic species, and high rate of habitat loss because of anthropogenic pressure (solely 12.4 % of the forest that originally existed still subsists) (CIB 2000CIB - Conservation International do Brasil. 2000. Avaliação e ações prioritárias para a conservação da biodiversidade da Mata Atlântica e Campos Sulinos. Brasília, Ministério do Meio Ambiente/SBF. pp. 40.; Myers et al. 2000Myers N, Mittermeier RA, Mittermeier CG, Fonseca Gab, Kent J. 2000. Biodiversity hotspots for conservation priorities. Nature 403: 854-858.; SOS Mata Atlântica 2021SOS MATA ATLÂNTICA. 2021. https://www.sosma.org.br/causas/mata-atlantica/. 05 dec. 2021.
https://www.sosma.org.br/causas/mata-atl... ).

The degradation of the Atlantic Forest is one of the most alarming conservation challenges in the world. The forest destruction for agriculture and biofuels, charcoal market, deforestation for cattle ranching, and wild animal hunting has resulted in the elimination of several species and has potentially contributed to the erosion of the genetic diversity of species (Brown & Brown 1992Brown KSJ, Brown GG. 1992. Habitat alteration and species loss in Brazilian forests. In: Whitmore TT, Sayer JA (eds.). Tropical deforestation and species extinction. England, London, Chapman and Hall. pp. 119-142.; Ferrer-Paris et al. 2019Ferrer-Paris JR, Zager I, Keith DA, et al. 2019. An ecosystem risk assessment of temperate and tropical forests of the Americas with an outlook on future conservation strategies. Conservation Letters 12: 1-10. ; Wilson et al. 2021Wilson OJ, Mayle FE, Walters RJ, Lingner DV, Vibrans AC. 2021. Floristic change in Brazil's Southern Atlantic forest biodiversity hotspot: From the last glacial maximum to the late 21st century. Quaternary Science Reviews 264: 107005. doi: 10.1016/j.quascirev.2021.107005.
https://doi.org/10.1016/j.quascirev.2021... ). It is logical to suppose that several species have already been extinct before their discovery and several others will be extinct soon (Morellato & Haddad 2000Morellato LPC, Haddad CFB. 2000. Introduction: The Brazilian Atlantic Forest. Biotropica 32: 786-792.). Owing to its high level of endemism and diversity in numerous groups of organisms, the Atlantic Forest has been recognized as a top priority for conservation in South America (Klumpp et al. 1996Klumpp A, Domingos M, Klumpp G. 1996. Assessment of the vegetation risk by fluoride emissions from fertiliser industries at Cubatão, Brazil. Science of the Total Environment 192: 219-228.; Myers et al. 2000Myers N, Mittermeier RA, Mittermeier CG, Fonseca Gab, Kent J. 2000. Biodiversity hotspots for conservation priorities. Nature 403: 854-858.; Marques et al. 2020Marques MCM, Trindade W, Bohn A, Grelle CEV. 2020. The Atlantic Forest: an introduction to the megadiverse forest of Southern America. In: Marques MCM, Grelle CEV. (eds) The Atlantic Forest: history, biodiversity, threats and opportunities of the megadiverse forest. Switzerland, Springer International Publishing. p. 3-23. ).

The Pampa biome covers an area of approximately 700,000 km², extending across the territories of Argentina, Brazil, Uruguay, and Paraguay (IBGE 2004IBGE. 2004. Mapa de biomas do Brasil: primeira aproximação. Escala 1:5 000 000. Projeção policônica. https://www.ibge.gov.br/geociencias/cartas-e-mapas/informacoes-ambientais/15842-biomas.html?=&t=acesso-ao-produto. 19 jan. 2021.
https://www.ibge.gov.br/geociencias/cart... ). The Brazilian Pampa is the second smallest biome in the country, occupying an area of 176,496 km² (2.10 % of the national territory), present solely in the state of Rio Grande do Sul. The Pampas are in the southern temperate zone, with well-defined seasons (Roesch et al. 2009Roesch LFW, Vieira FCB, Pereira VA, et al. 2009. The Brazilian Pampa: A Fragile Biome. Diversity 1: 182-198.), having a subtropical predominantly rainy climate, with no systematic dry period and negative temperatures in winter (IBGE 2019IBGE. 2019. Biomas e sistema costeiro-marinho do Brasil: compatível com a escala 1:250 000. Rio de Janeiro, IBGE. pp. 168. https://biblioteca.ibge.gov.br/index.php/biblioteca-catalogo?view=detalhes&id=2101676. 19 jan. 2021.
https://biblioteca.ibge.gov.br/index.php... ). The dense forest in this biome is not very expressive, and predominantly consists of herbaceous and shrub type vegetation (Roesch et al. 2009Roesch LFW, Vieira FCB, Pereira VA, et al. 2009. The Brazilian Pampa: A Fragile Biome. Diversity 1: 182-198.). In the Brazilian Pampa, 23 % of its territory is composed of pastures (BRASIL 2010 BRASIL. 2010. Quarto Relatório Nacional à Convenção sobre Diversidade Biológica Brasil. Escritório do Programa Nacional de Conservação da Biodiversidade - DCBio. Ministério do Meio Ambiente, Brasília.), facilitating the implementation of agricultural activities. Compared to other Brazilian biomes, the Pampa has a high percentage of agricultural land use and it has a small number of conservation units (Ferreira et al. 2012Ferreira J, Pardini R, Metzger JP, et al. 2012. Towards environmentally sustainable agriculture in Brazil: challenges and opportunities for applied ecological research. Journal of Applied Ecology 49: 535-541.). Human activities like cultivation of exotic crops for commercial purposes and changes in the ecosystem for agricultural activities have aggravated the deforestation of Brazilian Pampa (Sulzbacher et al. 2018Sulzbacher MA, Grebenc T, Bevilacqua CB, et al. 2018. Co-invasion of ectomycorrhizal fungi in the Brazilian Pampa biome. Applied Soil Ecology 130: 194-201.). It is estimated that approximately 48.70 % of this biome has already been modified by human activity, leaving approximately 5 % of native forest (BRASIL 2010 BRASIL. 2010. Quarto Relatório Nacional à Convenção sobre Diversidade Biológica Brasil. Escritório do Programa Nacional de Conservação da Biodiversidade - DCBio. Ministério do Meio Ambiente, Brasília.).

Fungi are crucial in ecosystems, acting as decomposers of organic material, sometimes pathogens, and mutualistic partners of approximately all terrestrial multicellular organisms (Heilmann-Clausen et al. 2015Heilmann‐Clausen J, Barron ES, Boddy L, et al. 2015. A fungal perspective on conservation biology. Conservation Biology 29: 61-68.). For example, lichenized fungi mediate most primary production and nitrogen fixation in desert and polar ecosystems (Honegger 2012Honegger R. 2012. 15 The symbiotic phenotype of lichen-forming Ascomycetes and their endo- and epibionts. In: Hock B. (eds) Fungal Associations. The Mycota (A comprehensive treatise on fungi as experimental systems for basic and applied research). Berlin, Heidelberg, Springer. pp. 287-339.); mycorrhizal fungi are important for nutrient cycling, for mineral weathering and carbon storage in forest ecosystems (Courty et al. 2010Courty PE, Buee M, Diedhiou AG, et al. 2010. The role of ectomycorrhizal communities in forest ecosystem processes: new perspectives and emerging concepts. Soil Biology & Biochemistry 42: 679-698.); fungal endophytes are mutualistic and prevent damage against biotic and abiotic factors (Bamisile et al. 2018Bamisile BS, Dash CK, Akutse KS, Keppanan R, Wang L. 2018. Fungal endophytes: Beyond herbivore management. Frontiers in Microbiology 9: 544. doi: 10.3389/fmicb.2018.00544.
https://doi.org/10.3389/fmicb.2018.00544... ). Despite these, the importance of fungi in the maintenance and quality of life on the planet is rarely considered in the conservation actions (Heilmann-Clausen et al. 2015Heilmann‐Clausen J, Barron ES, Boddy L, et al. 2015. A fungal perspective on conservation biology. Conservation Biology 29: 61-68.). In Brazil, the knowledge of the fungal biodiversity has been a way to strengthen the importance of the protection and conservation of biomes (Sette et al. 2013Sette LD, Pagnocca FC, Rodrigues A. 2013. Microbial culture collections as pillars for promoting fungal diversity, conservation and exploitation. Fungal Genetics and Biology 60: 2-8.). Biodiversity checklists are an important step in providing relevant information for the conservation planning and service of the environment (Piepenbring et al. 2020Piepenbring M, Maciá-Vicente JG, Codjia JEI, et al. 2020. Mapping mycological ignorance-checklists and diversity patterns of fungi known for West Africa. IMA fungus 11: 1-22.). A checklist of fungal species in tropical forests is particularly important for the comparison of regions, enabling identification of threatened species and their habitats, and providing data for ecological/biogeographical predictive modeling of species in local and global conservation strategies (Barbosa et al. 2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.).

In 2015, the Brazilian fungal diversity was estimated to have approximately 5,719 species, distributed over 1,246 genera of the 102 orders, with the Atlantic Forest having the largest number of records (approximately 3,017 species) and Pampa with 84 species (Maia et al. 2015Maia TF, Simões-Araújo JL, Inácio CA, Fraga ME. 2015. Characterization of Aspergillus section Nigri isolates from leaf litter and soil in the Atlantic Forest of Brazil. African Journal of Microbiology Research 9: 301-306.). However, this estimation was mainly based on the data made available by mycologists in the database of the Flora do Brasil - Algas, Fungos e Plantas project (http://floradobrasil.jbrj.gov.br/), making the Brazilian fungal diversity still underestimated. For example, endophytic and bee-related fungi were not considered by Maia et al. (2015)Maia TF, Simões-Araújo JL, Inácio CA, Fraga ME. 2015. Characterization of Aspergillus section Nigri isolates from leaf litter and soil in the Atlantic Forest of Brazil. African Journal of Microbiology Research 9: 301-306.. A few other lists of fungi from Brazil have been recently published, revealing a remarkable fungal diversity, which is still found in the country (e.g., Bezerra et al. 2019Bezerra JDP, Silva LF, Souza-Motta CM. 2019. The Explosion of Brazilian Endophytic Fungal Diversity: Taxonomy and Biotechnological Potentials. In: Satyanarayana T, Deshmukh S, Deshpande M. (eds). Advancing Frontiers in Mycology & Mycotechnology. Singapore, Springer. pp 405-433.; Barbosa et al. 2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.; Chikowski et al. 2020Chikowski RS, Lira CRS, Larsson K-H, Gibertoni TB. 2020. A checklist of corticioid fungi (Agaricomycetes, Basidiomycota) from Brazil. Mycotaxon 135: 467-467. ).

Aspergillus, Penicillium, and Talaromyces (Eurotiales, Eurotiomycetes) are considered among the most common genera of filamentous ascomycetes, with species often associated with specific foods, soil, vegetation, dung, as well as indoor and extreme environments (e.g., Visagie et al. 2014Visagie CM, Varga J, Houbraken J, et al. 2014. Ochratoxin production and taxonomy of the yellow aspergilli (Aspergillus section Circumdati). Studies in Mycology 78: 1-61. ; Yilmaz et al. 2014Yilmaz N, Visagie CM, Houbraken J. 2014. Polyphasic taxonomy of the genus Talaromyces. Studies in Mycology 78: 175-342. ; Barbosa et al. 2017Barbosa PDPM, Speranza P, Ohara A, Silva EB, Angelis DA, Macedo GA. 2017. Fungi from Brazilian Savannah and Atlantic rainforest show high antibacterial and antifungal activity. Biocatalysis and Agricultural Biotechnology 10: 1-8., 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912., 2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.; Chen et al. 2016 Chen AJ, Sun BD, Houbraken J. 2016. New Talaromyces species from indoor environments in China. Studies in Mycology 84: 119-144.; Barros-Correia et al. 2020Barros-Correia ACR, Barbosa RN, Frisvad JC, Houbraken J, Souza-Motta CM. 2020. The polyphasic re-identification of a Brazilian Aspergillus section Terrei collection led to the discovery of two new species. Mycological Progress 19: 885-903.; Freire et al. 2020Freire KTLS, Araújo-Magalhães GR, Nascimento SS, et al. 2020. First report of Penicillium brasilianum Bat., P. cluniae Quintan., and P. echinulonalgiovense S. Abe ex Houbraken & R.N. Barbosa (Eurotiales, Aspergillaceae) as endophytes from a bromeliad in the Caatinga dry forest in Brazil. Check List 16: 1055-1061.). A few of the most recent attempts to present a natural classification for these groups were presented by Houbraken & Samson (2011Houbraken J, Samson RA. 2011. Phylogeny of Penicillium and the segregation of Trichocomaceae into three families. Studies in Mycology 70: 1-51.), Samson et al. (2011)Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183., Visagie et al. (2014)Visagie CM, Varga J, Houbraken J, et al. 2014. Ochratoxin production and taxonomy of the yellow aspergilli (Aspergillus section Circumdati). Studies in Mycology 78: 1-61. , and Yilmaz et al. (2014)Yilmaz N, Visagie CM, Houbraken J. 2014. Polyphasic taxonomy of the genus Talaromyces. Studies in Mycology 78: 175-342. . The number of species described in these genera increased rapidly, from 339 Aspergillus, 354 Penicillium, and 88 Talaromyces species accepted in 2014, to 446 Aspergillus, 483 Penicillium, and 171 Talaromyces species accepted in 2020 (Houbraken et al. 2020Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. ). Nonetheless, several environments remain understudied and can harbor a large number of species to be discovered, especially in tropical regions (Hawksworth & Lücking 2017Hawksworth DL, Lücking R. 2017. Fungal Diversity Revisited: 2.2 to 3.8 Million Species. Microbiology Spectrum 5: 5-4. ).

Following the extensive overview of Aspergillus, Penicillium and Talaromyces species in the Caatinga forest published by Barbosa et al. (2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.), this study aimed to summarize the records of Aspergillus, Penicillium, and Talaromyces species/names in the Atlantic Forest and Pampas biome by presenting a current list of valid species names, their substrate and distribution. In addition, we present the description of Penicillium nordestinense sp. nov. from pollen samples stored inside nests of Melipona scutellaris.

Materials and methods

Study area

This list was formed by recording data from the cities included in the Brazilian Atlantic Forest (Atlantic Forest) and Pampa biomes. The Atlantic Forest comprises 16 Brazilian states (Fig. 1): Alagoas, Bahia, Ceará, Espírito Santo, Goiás, Mato Grosso do Sul, Minas Gerais, Paraíba, Pernambuco, Paraná, Piauí, Rio de Janeiro, Rio Grande do Norte, Rio Grande do Sul, Santa Catarina, and São Paulo (IBGE 2019IBGE. 2019. Biomas e sistema costeiro-marinho do Brasil: compatível com a escala 1:250 000. Rio de Janeiro, IBGE. pp. 168. https://biblioteca.ibge.gov.br/index.php/biblioteca-catalogo?view=detalhes&id=2101676. 19 jan. 2021.
https://biblioteca.ibge.gov.br/index.php... ). The Pampa biome is solely located in the Rio Grande do Sul.

Data collection

An extensive literature review was conducted. Data gathered from published papers and books up to December 2020, issued in English, Portuguese, and Spanish were included. We located papers using the similar strategies of search and rules adopted in Barbosa et al. (2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.): Thomson Reuters’ ISI Web of Science, Google Scholar, and a website with works of Augusto Chaves Batista and his collaborators (http://batista.fungibrasil.net/), as well as by scanning bibliographies and reading books. Master’s/PhD dissertations and information from websites were not considered, with the exception of the online version of the List of Species of the Brazilian Flora e Funga (Flora e Funga do Brasil 2020Flora e Funga do Brasil 2020 (em construção). 2020. Jardim Botânico do Rio de Janeiro. http://floradobrasil.jbrj.gov.br/. 02 Jul. 2020.
http://floradobrasil.jbrj.gov.br/... - http://floradobrasil.jbrj.gov.br/). Unidentified taxa were not included (e.g., Aspergillus sp.) because they cannot be placed in a correct section or species in a genus, and in some cases, they can be representing the same species already listed. The used sections and species names are based on the most recent lists of accepted species in Houbraken et al. (2020)Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. , and subsequently published names were verified in the Index Fungorum and MycoBank databases.

Species description

The novel species described here was obtained from pollen samples stored inside the nests of M. scutellaris in 2019. The pollen samples were collected and analysed as described by Barbosa et al. (2017Barbosa PDPM, Speranza P, Ohara A, Silva EB, Angelis DA, Macedo GA. 2017. Fungi from Brazilian Savannah and Atlantic rainforest show high antibacterial and antifungal activity. Biocatalysis and Agricultural Biotechnology 10: 1-8.).

Morphological description of the strains were performed under standardized growth conditions. Culture media used for characterization included: Czapek yeast autolysate agar (CYA), malt extract agar (MEA), yeast extract sucrose (YES) agar, dichloran 18 % glycerol (DG18) agar, CYA supplemented with 5 % NaCl (CYAS), oatmeal agar (OA), and creatine sucrose agar (CREA). Media preparation, inoculation, incubation, and microscope preparations were conducted as described by Samson et al. (2010)Samson RA, Houbraken J, Thrane U. 2010. CBS KNAW Biodiversity Center. Utrecht, Food and indoor fungi.. Additional CYA and MEA plates were incubated at 15, 30, and 37 °C. Colony diameters were measured after 7 days of incubation, and colony characteristics were recorded. Microscopic observations were made from colonies grown on MEA, and the presence of a sexual stage was investigated in cultures incubated on CYA, MEA, and OA, and the cultures were incubated for at least 40 days at 25 °C. Lactic acid (60 %) was used as a mounting fluid, and 96 % ethanol was used to remove excess conidia. Color names and alphanumeric codes used in descriptions refer to Rayner (1970)Rayner RW. 1970. A mycological colour chart. London, Commonwealth Mycological Institute.. Features of the novel species were compared to their closest relatives based on notes provided in previous studies.

Genomic DNA extractions were made from 7-day-old colonies grown on MEA using the Promega DNA isolation kit (Wizard Genomic DNA Purification Kit). A polymerase chain reaction (PCR) amplification of the ITS barcode (ITS1, 5.8S rDNA, and ITS2), tubulin (BenA), calmodulin (CaM), and RNA polymerase II, the second largest subunit (RPB2) genes, was performed using the methods described by Visagie et al. (2014Visagie CM, Varga J, Houbraken J, et al. 2014. Ochratoxin production and taxonomy of the yellow aspergilli (Aspergillus section Circumdati). Studies in Mycology 78: 1-61. ). PCR products were purified using the Exonuclease/Alkaline Phosphatase mix (Cellco Biotec.), and sequenced on the sequencing platform at UFPE (Recife, Brazil) using the same primer pairs. For phylogenetic analysis, sequence datasets were generated by combining the newly generated sequences with reference (ex-type) sequences from previous studies deposited in the nucleotide database at NCBI (GenBank). The sequences were aligned using MAFFT v.7 (Katoh & Standley 2013Katoh KL, Standley DM. 2013. MAFFT multiple sequence alignment software version 7: improvements in performance and usability. Molecular Biology and Evolution 30: 772-780.), and manually optimized using MEGA v. 6.06 (Tamura et al. 2013Tamura K, Stecher G, Peterson D, Filipski A, Kumar S. 2013. MEGA6: molecular evolutionary genetics analysis version 6.0. Molecular Biology and Evolution 30: 2725-2729.). Initially, the positioning of the new species in section Lanata-Divaricata was analyzed using a concatenated dataset with BenA and CaM sequences. After this initial analysis, more comprehensive ITS, BenA, CaM, and RPB2 sequence datasets for series Janthinella were generated and analyzed. The combined datasets for section Lanata-Divaricata and series Janthinella were made by concatenating the individual alignments using Mesquite v. 3.04 (Maddison & Maddison 2016Maddison WP, Maddison DR. 2016. Mesquite: A modular system for evolutionary analysis. Version 3.61. http://mesquiteproject.org.
http://mesquiteproject.org... ). Phylogenetic trees were constructed by maximum likelihood analyses (ML) using RAxML-HPC v. 8.2.8 (Stamatakis 2014Stamatakis A. 2014. RAxML Version 8: A tool for Phylogenetic Analysis and Post-Analysis of Large Phylogenies. Bioinformatics 30: 1312- 1313.) BlackBox with 1,000 rapid bootstrap inferences via the CIPRES science gateway (http://www.phylo.org/) (Miller et al. 2012Miller MA, Pfeiffer W, Schwartz T. 2012. The CIPRES science gateway: enabling high-impact science for phylogenetics researchers with limited resources. In: Stewart C. (ed.) Proceedings of the 1st Conference of the Extreme Science and Engineering Discovery Environment: Bridging from the extreme to the campus and beyond. USA, Association for Computing Machinery. p. 1-8.), adopting default parameters. Bayesian inference (BI) analysis was performed in MrBayes 3.2.2 (Ronquist et al. 2012Ronquist F, Teslenko M, Mark P, et al. 2012. MrBayes 3.2: efficient bayesian phylogenetic inference and model choice across a large model space. Systematic Biology 61: 539-542.). In the Bayesian analyses, every 1,000 generations were sampled, and the first 25 % of the samples were discarded. The most suitable substitution model was determined separately for each gene region using jModelTest v. 2.1.7 (Posada 2008Posada D. 2008. jModelTest: Phylogenetic model averaging. Molecular Biology and Evolution 25: 1253-1256.). Trees were visualized in FigTree v. 1.1.2 (Rambaut 2016Rambaut A. 2016. FigTree, version 1.4.3. Edinburgh, Institute of Evolutionary Biology, University of Edinburgh.), and edited in Adobe Illustrator v. 5.1. BI posterior probabilities (pp) and bootstrap (bs) values were labelled at the nodes. Branches with full support in BI and ML analyses were thickened. Values below 0.95 pp and 70 % bs support were not shown, or they were indicated with a hyphen.

Results

According to the conducted literature survey, 84 papers (Atlantic Forest: 78, Pampa: 6) published between 1955 and 2020 reported members of Eurotiales, and were included in this checklist. In total, 169 species (68 Aspergillus, 79 Penicillium, and 22 Talaromyces) have been recorded in the Atlantic Forest. Penicillium digitatum was the only reported species for the Pampa biome. In Aspergillus, the reported species are distributed over 17 sections, with section Nidulantes and Nigri species being the most common. In Penicillium, species classified in 16 sections are listed, they mainly belong to sections Lanata-Divaricata and Sclerotiorum. Regarding the genus Talaromyces, four sections have been recorded, with Talaromyces being the most common. According to our survey, 19 species were typified in previous studies with material from the Atlantic Forest biome: A. barbosae, A. bezerrae, A. brasiliensis, A. labruscus, A. recifensis, P. apimei, P. barbosae, P. brasilianum, P. fernandes, P. guaibinense, P. limae, P. meliponae, P. mellis, P. reconvexovelosoi, P. restingae, T. brasiliensis, T. mycothecae, T. Pernambucoensis, and T. pigmentosus. In addition, Penicillium nordestinense is described here as a new species, see “Taxonomy” section.

Regarding the distribution of records by Brazilian states, Pernambuco has the highest number of records (43 Aspergillus spp., 67 Penicillium spp., 20 Talaromyces spp.), followed by São Paulo (27 Aspergillus spp., 29 Penicillium spp., 11 Talaromyces spp.), and Rio de Janeiro (22 Aspergillus spp., 27 Penicillium spp., 7 Talaromyces spp.). The most common substrates are soil (291 records), water (97), and leaf litter (39).

Taxonomy

The new species P. nordestinense is described below and the phylogenetically closely related species P. setosum is validated.

Penicillium nordestinense J.E.F. Santos & R.N. Barbosa sp. nov. Fig. 2.

MycoBank MB 842080

Etymology: “nordestinense”, referring to the region Northeast of Brazil (Nordeste, in Portuguese). In this region is the state of Pernambuco, where the type species was isolated.

Type: Brazil: Pernambuco: Paulista, ex pollen samples inside nests of M. scutellaris, 7°55'46.9"S 34°53'12.0"W, September 2019, collected and isolated by R.N. Barbosa. Holotype URM 83558, (slide preparation) deposited in the URM fungarium (Recife, Brazil); ex-type strain URM 8423, deposited in the URM culture collection (Recife, Brazil).

ITS barcode: OV265270. Alternative markers: BenA = OV265324; CaM = OV265272; RPB2 = OM927721

Diagnosis: Growing more slowly on MEA (36-38 mm), YES (35-38 mm) and CYAS (11-13 mm) incubated at 25 °C than phylogenetically related species.

Colony diam, 7 d (mm): CYA 25 °C 37-38; MEA 25 °C 36-38; YES 25 °C 35-38; DG18 25 °C 10-11; OA 25 °C 27-29; CYAS 25 °C 11-13; CREA 25 °C 16-18; CYA 15 °C 5-6; 30 °C 40-43; 37 °C 35-39; MEA 15 °C 5; 30 °C 30-35; 37 °C 32-36.

Colony characters: CYA, 25 °C, 7 days: colonies radially sulcate, umbonate; margins entire, low, narrow; mycelium white; colony texture velvety; sporulation moderate; conidial color en masse indeterminate; exudate absent; soluble pigment absent; reverse straw (46). MEA, 25 °C, 7 days: colonies plane; margins entire, low, narrow; mycelium white; colony texture velvety; sporulation moderate; conidial color en masse pale olivaceous gray (120); exudate absent; soluble pigment absent, reverse saffron (10). YES, 25 °C, 7 days: colonies radially sulcate, raised at center; margins entire, low, narrow; mycelium white; colony texture velvety; sporulation weak; conidial color en masse indeterminate; exudate absent; soluble pigment absent; reverse pale luteous (11). DG18, 25 °C, 7 days: moderately elevated, slightly raised at center; margins low, entire; mycelium- white; colony texture slightly floccose; sporulation weak; conidial color en masse indeterminate; exudate absent; soluble pigment absent; reverse pale luteous (11). OA, 25 °C, 7 days: colonies plane; margins regular; mycelium white; colony texture velvety; sporulation sparse; conidial color en masse pale olivaceous gray (120); exudate absent; soluble pigment absent; reverse inconspicuous, sexual morph observed in CBS 564.85, buff (45) when young, dull yellow to umber (9) in the age. CYAS, 25 °C, 7 days: colonies umbonate, margins regular; margins entire, mycelium smoke gray (105); texture velvety; exudate absent; soluble pigment absent; reverse honey (64). CREA, 25 °C, 7 days: moderate growth, acid production absent.

Micromorphology: Conidiophores monoverticillate, sometimes also biverticillate and divaricate. Stipes smooth-walled, (20-)40-75(-125) × 2-3 μm; non-vesiculate. Phialides 3-5 per stipe, sometimes solitary, ampulliform, 7-13 × 2-3 μm. Conidia smooth-walled, globose to subglobose, 2-3 μm. Ascomata not observed in URM 8423^T and 8424, present in CBS 564.85, sclerotioid, maturing in 2-3 weeks, globose to subglobose (140-)170-320(-400) µm. Asci 8-spored, ellipsoidal to ovoid, 6.5-8.5 × (6.5-)8.5-12(-13.5) µm. Ascospores yellowish, lenticular with inconspicuous furrow, valves spinulose, 2.5-3.5 × 3-4 µm.

Additional material examined: URM 8424 (ITS: OV265271, BenA: OV265337, CaM: OV265273, RPB2: OM927721), Brazil: Pernambuco: Paulista, from pollen samples inside nests of Melipona scutellaris, 7°55'46.9"S 34°53'12.0"W, September 2019, collected and isolated by R.N. Barbosa. CBS 564.85 (ITS: OV312015, BenA: MH846596, CaM: MH846609, RPB2: MH846584), Canada: Toronto, culture contaminant of CBS 497.85.

Notes: Phylogenetic analyses (Figs. 3, 4) shows that the novel species is most closely related to P. setosum and P. javanicum, and that the type URM 8423^T and URM 8424 clusters with CBS 564.85. The phylogenetic position of this strain was previously unresolved and was suggested to represent a new species (Tijith et al. 2019Tijith KG, Houbraken J, Mathew J, Jisha MS. 2019. Penicillium setosum, a new species from Withaniasomnifera (L.) Dunal. Mycology 10: 49-60. ). The taxonomy of section Lanata-Divaricata is challenging due to the morphological similarities among members of this section (Visagie et al. 2015Visagie CM, Houbraken J, Seifert KA, et al. 2015. Four new Penicillium species isolated from the fynbos biome in South Africa, including a multigene phylogeny of section Lanata-Divaricata. Mycol Progress 14: 1-23.). However, a few morphological differences are observed (Fig. 1). Penicillium setosum predominantly produces divarcate conidiophores and occasionally solitary phialides, in contrast to P. nordestinense that predominantly produces monoverticillate conidiophores. Furthermore, P. javanicum has rough-walled stipes, in contrast to the smooth-walled stipes of P. nordestinense and P. setosum. Penicillium nordestinense, P. setosum and P. javanicum also differ in their growth rates on CYA 25 °C (37-38 vs. 50-52 vs 33-41 mm), MEA 25 °C (36-38 vs. 52-55 vs. 40-50 mm), YES 25 °C (35-38 vs. 48-53 vs. 45-52 mm) and CYAS 25 °C (11-13 vs. 50-53 vs. 20-30 mm) (Visagie et al. 2015Visagie CM, Houbraken J, Seifert KA, et al. 2015. Four new Penicillium species isolated from the fynbos biome in South Africa, including a multigene phylogeny of section Lanata-Divaricata. Mycol Progress 14: 1-23., Tijith et al. 2019Tijith KG, Houbraken J, Mathew J, Jisha MS. 2019. Penicillium setosum, a new species from Withaniasomnifera (L.) Dunal. Mycology 10: 49-60. ). Interestingly, the recently isolated Brazilian P. nordestinense strains do not produce ascomata, while the older strain preserved in CBS does. The production of ascomata is shared with P. setosum and P. javanicum. The ascospores of these three species lack flanges. The valves of the ascospores of P. javanicum are finely roughened, while those of P. setosum and P. nordestinense are ornamented with spines (Visagie et al. 2015Visagie CM, Houbraken J, Seifert KA, et al. 2015. Four new Penicillium species isolated from the fynbos biome in South Africa, including a multigene phylogeny of section Lanata-Divaricata. Mycol Progress 14: 1-23.; Tijith et al. 2019Tijith KG, Houbraken J, Mathew J, Jisha MS. 2019. Penicillium setosum, a new species from Withaniasomnifera (L.) Dunal. Mycology 10: 49-60. ).

Penicillium setosum T.K. George, Houbraken, L. Mathew & M.S. Jisha, sp. nov.

MycoBank MB 842377

Synonym: Penicillium setosum T.K. George, Houbraken, L. Mathew & M.S. Jisha, Mycology 10: 55. 2018, nom. inval. Art. 40.8 (Shenzhen).

Diagnosis and description: See Mycology 10: 55-57 (Tijith et al. 2019Tijith KG, Houbraken J, Mathew J, Jisha MS. 2019. Penicillium setosum, a new species from Withaniasomnifera (L.) Dunal. Mycology 10: 49-60. ).

Type: India, Kerala, Kottayam, Withania somnifera (L) Dunal, T.K. George (holotype specimen CBS H-24872, culture ex-type CBS 144865 = DTO 455-G4 = WSR 62 = MCC 1370 = NCFT NO 8222.16 = AMH-9974).

Notes: Penicillium setosum is herewith validated, as the original description did not state that the holotype was preserved as a metabolically inactive culture.

Check list of Aspergillus, Penicillium and Talaromyces from the Brazilian Atlantic Forest and Pampa biomes

ASPERGILLUS P. Micheli ex Haller, Hist. stirp. Helv. 3: 113. 1768.

Section Aspergillus Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 548676).

Aspergillus chevalieri (L. Mangin) Thom & Church, Aspergilli: 111. 1926. (MB 292839).

Records: As Aspergillus allocotus as contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.c); reported as Eurotium chevalieri in sand and beach water (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Note: Aspergillus allocotus and Eurotium chevalieri were considered synonyms of A. chevalieri (Hubka et al. 2013Hubka V, Kolařík M, Kubátová A. 2013. Taxonomical revision of Eurotium and transfer of species to Aspergillus. Mycologia 105: 912-937.).

Aspergillus glaucus (L.) Link, Mag. Ges. Naturf. Freunde Berlin 3: 16. 1809. (MB 161735).

Records: Soil and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.).

Aspergillus proliferans G. Sm, Trans. Brit. Mycol. Soc. 26: 26. 1943. (MB 284312).

Record: As contaminant in laboratory (Bahia-BA, Batista & Maia 1955Batista AC, Maia HS. 1955b. Alguns Aspergillales de contaminação in Instituto de Micologia, Universidade do Recife 18. Anais da Sociedade de Biologia de Pernambuco 13: 91-100.b).

Aspergillus pseudoglaucus Blochwitz, Ann. Mycol. 27: 207. 1929. (MB 275429).

Records: As Eurotium glabrum growing on public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); reported as Eurotium repens in soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); in waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Note: Aspergillus repens (de Bary) Fischer is a later homonym of Aspergillus repens (Corda) Sacc. 1882 pertaining to a different species, and A. pseudoglaucus is considered the correct name for Eurotium repens (Hubka et al. 2013Hubka V, Kolařík M, Kubátová A. 2013. Taxonomical revision of Eurotium and transfer of species to Aspergillus. Mycologia 105: 912-937.).

Section Candidi Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832512).

Aspergillus candidus Link, Mag. Ges. Naturf. Freunde Berlin 3: 16. 1809. (MB 204868).

Records: As contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.c); soil (Pernambuco-PE, Shome 1963Shome SK. 1963. Human pathogenic fungi from soil in Instituto de Micologia, Universidade do Recife 335, Revista da Faculdade de Medicina da Universidade do Ceará 3: 79-83.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); air samples (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

SectionCervini Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832497).

Aspergillus cervinus Massee, Bull. Misc. Inform. Kew 1914: 158. 1914. (MB 211549).

Records: Leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Aspergillus nutans McLennan & Ducker, Austral. J. Bot. 2: 355. 1954. (MB 292850).

Record: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Section Circumdati Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832508).

Aspergillus auricomus (Guég.) Saito, J. Ferment. Technol. 17: 3. 1939. (MB 119950).

Record: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Aspergillus fresenii Subram, Hyphomycetes: 552. 1971. (MB 309222).

Records: As Aspergillus sulphureus in beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.).

Note: For the taxonomic clarification see Visagie et al. (2014Visagie CM, Varga J, Houbraken J, et al. 2014. Ochratoxin production and taxonomy of the yellow aspergilli (Aspergillus section Circumdati). Studies in Mycology 78: 1-61. ).

Aspergillus melleus Yukawa, J. Coll. Agric. Imp. Univ. Tokyo 1: 358. 1911. (MB 164593).

Records: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Aspergillus ochraceus K. Wilh., Beitr. Kenntn. Aspergillus: 66. 1877. (MB 190223).

Records: Soil (Rio Grande do Sul-RS, Prade et al. 2007Prade CA, Matsumura AT, Ott AP, Porto ML. 2007. Diversidade de fungos do solo em sistemas agroflorestais de Citrus com diferentes tipos de manejo no município de Roca Sales, Rio Grande do Sul. Biociências 15: 73-81.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); sand and beach water (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); endophytic from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.). Also reported as Aspergillus alutaceus in water and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil and leaf litter (Rio de Janeiro-RJ, Maia & Fraga 2017Maia TF, Fraga ME. 2017. Bioprospecting Aspergillus section Nigri in Atlantic Forest soil and plant litter. Arquivos do Instituto Biológico 84: 1-7.).

Note: Aspergillus alutaceus is considered a synonym of Aspergillus ochraceus (see Houbraken et al. 2020Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. ).

Aspergillus sclerotiorum G.A. Huber, Phytopathology 23: 306. 1933. (MB 277707).

Records: Beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Section Clavati Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832500).

Aspergillus clavatus Desm, Ann. Sci. Nat., Bot., ser. 2, 2: 71. 1834. (MB 211530).

Records: Water, soil and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Pernambuco-PE, Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.); soil (Minas Gerais-MG, Ribeiro et al. 2014Ribeiro LFC, Ribeiro LF, Jorge JA, Polizeli MLTM. 2014. Screening of filamentous fungi for xylanases and cellulases not inhibited by xylose and glucose. British Biotechnology Journal 4: 30-39.); soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.).

Aspergillus giganteus Wehmer, Mem. Soc. Phys. Genève 33: 85. 1901. (MB 206765).

Records: Soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.). Also reported as Aspergillus clavatus v. gigantea in soil (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.).

SectionCremei Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832513).

Aspergillus brunneouniseriatus Suj. Singh & B. K. Bakshi, Trans. Brit. Mycol. Soc. 44: 160. 1961. (MB 326616).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); air samples (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.).

Aspergillus stromatoides Raper & Fennell, Gen. Aspergillus: 421. 1965. (MB 326660).

Records: Waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Aspergillus wentii Wehmer, Centralbl. Bakteriol. Parasitenk., 2. Abth., 2: 149. 1896. (MB 172623).

Records: Soil (São Paulo-SP, Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); sand and beach water (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Section Flavi Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832510).

Aspergillus alliaceus Thom & Church, Aspergilli: 163. 1926. (MB 256402).

Records: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Aspergillus flavus Link, Mag. Ges. Naturf. Freunde Berlin 3: 16. 1809. (MB 209842).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.; Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.); soil (Rio Grande do Sul-RS, Prade et al. 2007Prade CA, Matsumura AT, Ott AP, Porto ML. 2007. Diversidade de fungos do solo em sistemas agroflorestais de Citrus com diferentes tipos de manejo no município de Roca Sales, Rio Grande do Sul. Biociências 15: 73-81.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); soil (Pernambuco-PE, Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); air samples (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.); beehives (beebread samples) (Rio de Janeiro-RJ, Keller et al. 2014Keller KM, Deveza MV, Koshiyama AS, et al. 2014. Fungi infection in honeybee hives in regions affected by Brazilian sac brood. Arquivo Brasileiro de Medicina Veterinária e Zootecnia 66: 1471-1478.); related to Atta cephalotes (Bahia-BA, Reis et al. 2015Reis SBM, Silva A, Alvarez MR, Oliveira TB, Rodrigues A. 2015. Fungal communities in gardens of the leafcutter ant Atta cephalotes in forest and cabruca agrosystems of southern Bahia state (Brazil). Fungal Biology 119: 1170-1178.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); potato baits inside PET bottles (São Paulo-SP, Pasin et al. 2019Pasin TM, Dos Anjos Moreira E, de Lucas RC, et al. 2019. Novel amylase-producing fungus hydrolyzing wheat and brewing residues, Aspergillus carbonarius, discovered in tropical forest remnant. Folia Microbiol (Praha) 65: 173-184. ); root (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ); phytotelmata of the Aechmea alba (Bahia-BA, Oliveira & Fortuna 2020Oliveira HVV, Fortuna JL. 2020. Microfungos em fitotelmata de bromélias de um fragmento de Mata Atlântica do Extremo Sul da Bahia. Unisanta BioScience 9: 338-355.). Also reported as Aspergillus fasciculatus as contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957a. Alguns Aspergillus contaminantes de culturas in Instituto de Micologia, Universidade do Recife 13. Anais da Sociedade de Biologia de Pernambuco 15: 181-237.a).

Note: Multilocus sequence data indicated that several species in section Flavi, including A. fasciculatus, are synonyms of A. flavus (Varga et al. 2011Varga J, Frisvad JC, Samson RA. 2011. Two new aflatoxin producing species, and an overview ofAspergillussectionFlavi. Studies in Mycology 69: 57-80.).

Aspergillus oryzae (Ahlb.) Cohn, Jahresber. Schles. Ges. Vaterl. Cult. 61: 226. 1884. (MB 184394).Records: Air (Bahia-BA, Batista & Maia 1955Batista AC, Maia HS. 1955a. Uma nova espécie de Penicillium e outros Aspergillales in Instituto de Micologia, Universidade do Recife 24. Anais da Sociedade de Biologia de Pernambuco 13: 11-28.a); beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); soil (Rio de Janeiro-RJ, Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Aspergillus parasiticus Speare, Bull. Hawaiian Sugar Planters Assoc. Exp. Sta. Pathol. Physiol. Ser. 12: 38. 1912. (MB 191085).

Records: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Aspergillus sojae Sakag. & K. Yamada ex Murak., Rep. Res. Inst. Brewing: 8. 1971. (MB 292860).Record: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Aspergillus tamarii Kita, Centralbl. Bakteriol. 2. Abth. 37: 433. 1913. (MB 191425).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.); soil agroforestry (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ). Also reported as Aspergillus effusus var. furcatus and Aspergillus flavofurcatus as contaminant in laboratory by Batista & Maia (1955Batista AC, Maia HS. 1955a. Uma nova espécie de Penicillium e outros Aspergillales in Instituto de Micologia, Universidade do Recife 24. Anais da Sociedade de Biologia de Pernambuco 13: 11-28.a); reported as Aspergillus terricola in soil agroforestry (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Note: Aspergillus terricola together with A. flavofurcatis and A. tamarii were placed into an “A. tamarii species group” by Kozakiewicz (1989)Kozakiewicz Z. 1989.Aspergillusspecies on stored products. Mycological Papers 161: 1-188.. The name A. terricola competes with A. tamarii. The former species has priority based on publication date. Sequence data indicate that these isolates belong to the same species. For more details about section Flavi see Varga et al. (2011)Varga J, Frisvad JC, Samson RA. 2011. Two new aflatoxin producing species, and an overview ofAspergillussectionFlavi. Studies in Mycology 69: 57-80. and Frisvad et al. (2019)Frisvad JC, Hubka V, Ezekiel CN, et al. 2019. Taxonomy of Aspergillus section Flavi and their production of aflatoxins, ochratoxins and other mycotoxins. Studies in Mycology 93: 1-63..

Section Flavipedes Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832506).

Aspergillus flavipes (Bainier & Sartory) Thom & Church, Aspergilli: 155. 1926. (MB 265045).Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Section Fumigati Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832496).

Aspergillus bezerrae J.P. Andrade et al., Persoonia 42: 379. 2019. (MB 830186).

Record: Soil sandbank (Bahia-BA, Crous et al. 2019aCrous PW, Carnegie AJ, Wingfield MJ, et al. 2019a. Fungal Planet description sheets: 868-950. Persoonia 42: 291-473.).

Aspergillus brevipes G. Sm, Trans. Brit. Mycol. Soc. 35: 241. 1952. (MB 292837).

Record: Sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.).

Aspergillus duricaulis Raper & Fennell, Gen. Aspergillus: 249. 1965. (MB 326627).

Records: Beach oil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Aspergillus fischeri Wehmer, Zentralbl. Bakteriol. Parasitenk, Abt. 2, 18: 390. 1907. (MB 202877).Records: Soil (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.c).

Aspergillus fumigatus Fresen., Beitr. Mykol. 3: 81. 1863. (MB 211776).

Records: Soil (Pernambuco-PE, Shome 1963Shome SK. 1963. Human pathogenic fungi from soil in Instituto de Micologia, Universidade do Recife 335, Revista da Faculdade de Medicina da Universidade do Ceará 3: 79-83.); soil (São Paulo-SP, Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); water (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.); water and sediment of mangove (São Paulo-SP, Doi et al. 2018Doi SA, Pinto AB, Canali MC, Polezel DR, Chinellato RAM, Oliveira AJFC. 2018. Density and diversity of filamentous fungi in the water and sediment of Araçá bay in São Sebastião, São Paulo, Brazil. Biota Neotropica 18: 2-9.); dog head state park (Paraná-PR, Vieira et al. 2019Vieira FGN, Christ D, Graciano L, et al. 2019. Experimental design for optimization of β-xylosidase production by A. fumigatus isolated from the Atlantic Forest (Brazil). Journal of Advances in Biology & Biotechnology 21: 1-16.); soil and leaf litter (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ).

Aspergillus viridinutans Ducker & Thrower, Austral. J. Bot. 2: 355. 1954. (MB 292864).

Records: sunflower rhizosphere (misspelled as Aspergillus viride-nutans) (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.).

Section Janorum ( as “Jani”) Hubka et al., Mycologia 107: 197. 2015. (MB 832532).

Aspergillus janus Raper & Thom, Mycologia 36: 556. 1944. (MB 284303).

Records: Beach soil and beach water (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.).

Aspergillus trisporus S.C. Souza et al., Curr. Res. Environ. & Appl. Mycol. 9: 179. 2019. (MB 822378).

Record: Soil (Minas Gerais-MG, Souza et al. 2019Souza SC, Pereira VM, Moreira SI, et al. 2019. Aspergillus trisporus: A new Jani section species from Brazilian soil. Current Research in Environmental & Applied Mycology 9: 175-186.).

Section Nidulantes Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832502).

Aspergillus caespitosus Raper & Thom, Mycologia 36: 563. 1944. (MB 284298).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Aspergillus foveolatus Y. Horie, Trans. Mycol. Soc. Japan 19: 313. 1978. (MB 309221).

Records: As Emericella foveolata in dung of armadillo (São Paulo-SP, Horie et al. 1996Horie Y, Miyaji M, Nishimura K, et al. 1996. New and interesting species of Emericella from Brazilian soil. Mycoscience 37: 137-144.).

Note: Emericella foveolata is considered a synonym of A. foveolatus (Samson et al. 2014Samson RA, Visagie CM, Houbraken J. 2014. Phylogeny, identification and nomenclature of the genus Aspergillus. Studies in Mycology 78: 141-174.).

Aspergillus nidulans (Eidam) G. Winter, Rabenh. Krypt.-Fl., ed. 2, 1: 62. 1884. (MB 182069).Records: Contaminant in laboratory (Pernambuco-PE, Batista & Maia 1955Batista AC, Maia HS. 1955b. Alguns Aspergillales de contaminação in Instituto de Micologia, Universidade do Recife 18. Anais da Sociedade de Biologia de Pernambuco 13: 91-100.b); soil (Pernambuco-PE, Shome 1963Shome SK. 1963. Human pathogenic fungi from soil in Instituto de Micologia, Universidade do Recife 335, Revista da Faculdade de Medicina da Universidade do Ceará 3: 79-83.); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.). Also reported as Emericella nidulans in sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.).

Note: Emericella nidulans is considered a synonym of A. nidulans (Samson et al. 2014Samson RA, Visagie CM, Houbraken J. 2014. Phylogeny, identification and nomenclature of the genus Aspergillus. Studies in Mycology 78: 141-174.).

Aspergillus protuberus Munt-Cvetk, Mikrobiologia 5: 119. 1968. (MB 326650).

Record: Water and sediment of mangrove (São Paulo-SP, Doi et al. 2018Doi SA, Pinto AB, Canali MC, Polezel DR, Chinellato RAM, Oliveira AJFC. 2018. Density and diversity of filamentous fungi in the water and sediment of Araçá bay in São Sebastião, São Paulo, Brazil. Biota Neotropica 18: 2-9.).

Aspergillus quadrilineatus Thom & Raper, Mycologia 31: 660. 1939. (MB 275888).

Records: As Emericela nidulans var. acristatus in waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Note: Emericela nidulans var. acristatus is considered a synonym of A. quadrilineatus (Hubka et al. 2016Hubka V, Nováková A, Peterson SW. 2016. A reappraisal of Aspergillus section Nidulantes with descriptions of two new sterigmatocystin-producing species. Plant Systematics and Evolution 302: 1267-1299.).

Aspergillus rugulosus Thom & Raper, Mycologia 31: 660. 1939. MycoBank (MB 277104).

Records: As Emericella rugulosa var. lazuline in soil in a sugar cane plantation (São Paulo-SP, Horie et al. 1996Horie Y, Miyaji M, Nishimura K, et al. 1996. New and interesting species of Emericella from Brazilian soil. Mycoscience 37: 137-144.).

Note: Emericella rugulosa var. lazuline is considered a synonym of A. rugulosus (Hubka et al. 2016Hubka V, Nováková A, Peterson SW. 2016. A reappraisal of Aspergillus section Nidulantes with descriptions of two new sterigmatocystin-producing species. Plant Systematics and Evolution 302: 1267-1299.).

Aspergillus stellatus Curzi, Atti Reale Accad. Naz. Lincei, Rendiconti Cl. Sci. Fis.19: 428. 1934. (MB 254841).

Records: As Emericela variecolor and also Aspergillus variecolor in waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Note: Emericela variecolor and A. variecolor are synonyms of A. stellatus (Hubka et al. 2016Hubka V, Nováková A, Peterson SW. 2016. A reappraisal of Aspergillus section Nidulantes with descriptions of two new sterigmatocystin-producing species. Plant Systematics and Evolution 302: 1267-1299.).

Aspergillus sublatus Y. Horie, Trans. Mycol. Soc. Japan 20: 481. 1979. (MB 118407).

Records: As Emericella montenegroi in roadside soil (São Paulo-SP, Horie et al. 1996Horie Y, Miyaji M, Nishimura K, et al. 1996. New and interesting species of Emericella from Brazilian soil. Mycoscience 37: 137-144.).

Note: Emericela montenegroi is synonyms of A. sublatus (Hubka et al. 2016Hubka V, Nováková A, Peterson SW. 2016. A reappraisal of Aspergillus section Nidulantes with descriptions of two new sterigmatocystin-producing species. Plant Systematics and Evolution 302: 1267-1299.).

Aspergillus sydowii (Bainier & Sartory) Thom & Church, Aspergilli: 147. 1926. (MB 279636).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.; Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Aspergillus unguis (Émile-Weill & L. Gaudin) C.W. Dodge, Med. Mycol.: 637. 1935. (MB 255264).

Records: Soil (Pernambuco-PE, Shome 1963Shome SK. 1963. Human pathogenic fungi from soil in Instituto de Micologia, Universidade do Recife 335, Revista da Faculdade de Medicina da Universidade do Ceará 3: 79-83., Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); Beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Aspergillus versicolor (Vuill.) Tirab., Ann. Bot. (Roma) 7: 9. 1908 (MB 172159).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); air samples (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); soil (São Paulo-SP, Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); beehives (beebread samples) (Rio de Janeiro-RJ, Keller et al. 2014Keller KM, Deveza MV, Koshiyama AS, et al. 2014. Fungi infection in honeybee hives in regions affected by Brazilian sac brood. Arquivo Brasileiro de Medicina Veterinária e Zootecnia 66: 1471-1478.); decaying plants (Paraná-PR, Dapper et al. 2016Dapper TB, Arfelli VC, Henn C, et al. 2016. β-Fructofuranosidase production by Aspergillus versicolor isolated from Atlantic forest and grown on apple pomace. African Journal of Microbiology Research 10: 938-948.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Section Nigri Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832511).

Aspergillus aculeatinus Noonim et al., Int. J. Syst. Evol. Microbiol. 58: 1733. 2008. (MB 505075).

Records: Soil and leaf litter (Minas Gerais-MG, Maia et al. 2015Maia TF, Simões-Araújo JL, Inácio CA, Fraga ME. 2015. Characterization of Aspergillus section Nigri isolates from leaf litter and soil in the Atlantic Forest of Brazil. African Journal of Microbiology Research 9: 301-306.; Maia & Fraga 2017Maia TF, Fraga ME. 2017. Bioprospecting Aspergillus section Nigri in Atlantic Forest soil and plant litter. Arquivos do Instituto Biológico 84: 1-7.).

Aspergillus aculeatus Iizuka, J. Agric. Chem. Soc. Japan 27: 806. 1953. (MB 292831).

Records: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); leaf litter and soil (Minas Gerais-MG, Maia et al. 2015Maia TF, Simões-Araújo JL, Inácio CA, Fraga ME. 2015. Characterization of Aspergillus section Nigri isolates from leaf litter and soil in the Atlantic Forest of Brazil. African Journal of Microbiology Research 9: 301-306.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); potato baits in PET bottles (São Paulo-SP, Pasin et al. 2019Pasin TM, Dos Anjos Moreira E, de Lucas RC, et al. 2019. Novel amylase-producing fungus hydrolyzing wheat and brewing residues, Aspergillus carbonarius, discovered in tropical forest remnant. Folia Microbiol (Praha) 65: 173-184. ); leaf litter (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ).

Aspergillus brasiliensis Varga et al. , Int. J. Syst. Evol. Microbiol. 57: 57. 2007. (MB 510581).

Records: Soil (São Paulo-SP, Varga et al. 2007Varga J, Kocsubé S, Tóth B, et al. 2007. Aspergillus brasiliensis sp. nov., a biseriate black Aspergillus species with world-wide distribution. International Journal of Systematic and Evolutionary Microbiology 57: 1925-1932.); organic material in decomposition (São Paulo-SP, Almeida et al. 2017Almeida PZ, Pereira MG, Carvalho CC, et al. 2017. Bioprospection and characterization of the amylolytic activity by filamentous fungi from Brazilian Atlantic Forest. Biota Neotropica 17: 2-9. ).

Aspergillus carbonarius (Bainier) Thom, J. Agric. Res. 7: 12. 1916. (MB 100545).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); potato baits in PET bottles (São Paulo-SP, Pasin et al. 2019Pasin TM, Dos Anjos Moreira E, de Lucas RC, et al. 2019. Novel amylase-producing fungus hydrolyzing wheat and brewing residues, Aspergillus carbonarius, discovered in tropical forest remnant. Folia Microbiol (Praha) 65: 173-184. ).

Aspergillus japonicus Saito, Bot. Mag. (Tokyo) 20: 61. 1906. (MB 160656).

Records: As contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.c); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); phytotelmata of the Vriesea procera (Bahia-BA, Oliveira & Fortuna 2020Oliveira HVV, Fortuna JL. 2020. Microfungos em fitotelmata de bromélias de um fragmento de Mata Atlântica do Extremo Sul da Bahia. Unisanta BioScience 9: 338-355.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Aspergillus labruscus Fungaro et al., Sci. Rep. 7: 6203, 4. 2017. (MB 815746).

Record: Surface of grape berries (Vitis labrusca) (Rio Grande do Sul-RS, Fungaro et al. 2017Fungaro MHP, Ferranti LS, Massi FP, et al. 2017. Aspergillus labruscus sp. nov., a new species of Aspergillus section Nigri discovered in Brazil. Scientific Reports 7: 1-9. ).

Aspergillus niger Tiegh., Ann. Sci. Nat., Bot., ser. 5, 8: 240. 1867.; nom. cons. (Kozakiewicz et al. 1992Kozakiewicz Z, Frisvad JC, Hawksworth DL, et al. 1992. Proposals for nomina specifica conservanda and rejicienda in Aspergillus and Penicillium (Fungi). Taxon 41: 109-113.). (MB 284309).

Records: Soil (Pernambuco-PE, Shome 1963Shome SK. 1963. Human pathogenic fungi from soil in Instituto de Micologia, Universidade do Recife 335, Revista da Faculdade de Medicina da Universidade do Ceará 3: 79-83., Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Rio Grande do Sul-RS, Prade et al. 2007Prade CA, Matsumura AT, Ott AP, Porto ML. 2007. Diversidade de fungos do solo em sistemas agroflorestais de Citrus com diferentes tipos de manejo no município de Roca Sales, Rio Grande do Sul. Biociências 15: 73-81.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); water, soil and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); leaf leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); air samples (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); endophytic from Heliconia spp. (Bahia-BA, Cerqueira et al. 2013Cerqueira KS, Luz EDM, Magalhães DMA, Bezerra JL. 2013. Fungos endófitos em plantas ornamentais tropicais na Bahia. Agrotrópica (Brasil) 25: 223-232.); endophytic from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.); decaying root (Paraná-PR, Oriente et al. 2015Oriente A, Tramontina R, de Andrades D, et al. 2015. Characterization of a novel Aspergillus niger beta-glucosidase tolerant to saccharification of lignocellulosic biomass products and fermentation inhibitors. Chemical Papers 69: 1050-1057.); endophyte from Begonia fischeri (São Paulo-SP, Correia et al. 2017Correia AML, Lira SP, Assis MA, Rodrigues A. 2017. Fungal endophyte communities in Begonia species from the Brazilian Atlantic rainforest. Current Microbiology 75: 441-449.); soil and leaf litter (Minas Gerais-MG, Maia & Fraga 2017Maia TF, Fraga ME. 2017. Bioprospecting Aspergillus section Nigri in Atlantic Forest soil and plant litter. Arquivos do Instituto Biológico 84: 1-7.); Bromeliaceae (Bahia-BA, Palha et al. 2018Palha PMG, Silva JS, Silva JS, et al. 2018. Parâmetros ecológicos de fungos em Bromeliaceae em ecossistemas naturais e cultivadas na Bahia. Rodriguésia 69: 2025-2033.; Santos et al. 2018Santos CD, Silva RO, Candeias EL, Vitória NS, Luz EDM, Bezerra J. 2018. Diversidade de fungos em espécies nativas e cultivadas de orquídeas no sul da Bahia. Agrotrópica 30: 101-108.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); potato baits in PET bottles (São Paulo-SP, Pasin et al. 2019Pasin TM, Dos Anjos Moreira E, de Lucas RC, et al. 2019. Novel amylase-producing fungus hydrolyzing wheat and brewing residues, Aspergillus carbonarius, discovered in tropical forest remnant. Folia Microbiol (Praha) 65: 173-184. ); roots (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ). Also reported as Aspergillus foetidus in Bromeliaceae (Bahia-BA, Palha et al. 2018Palha PMG, Silva JS, Silva JS, et al. 2018. Parâmetros ecológicos de fungos em Bromeliaceae em ecossistemas naturais e cultivadas na Bahia. Rodriguésia 69: 2025-2033.).

Note: Aspergillus foetidus is considered synonyms of A. niger (Varga et al. 2011Varga J, Frisvad JC, Samson RA. 2011. Two new aflatoxin producing species, and an overview ofAspergillussectionFlavi. Studies in Mycology 69: 57-80.).

Aspergillus welwitschiae (Bres.) Henn, in Wehmer, Centralbl. Bakteriol. Parasitenk., 2. Abth. 18: 394. 1907. (MB 490584).

Records: As Aspergillus awamori in beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Note: Aspergillus awamori is a synonym of A. welwitschiae (Perrone et al. 2011Perrone G, Stea G, Epifani F, et al. 2011. Aspergillus niger contains the cryptic phylogenetic species A. awamori. Fungal Biology 115: 1138-1150.).

Section Ochraceorosei Frisvad & Samson, Syst. Appl. Microbiol. 28: 451. 2005. (MB 500165).

Aspergillus funiculosus G. Sm, Trans. Brit. Mycol. Soc. 39: 111. 1956. (MB 292845).

Record: Soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

SectionRestricti Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832494).

Aspergillus gracilis Bainier, Bull. Soc. Mycol. France 23: 90. 1907. (MB 167554).

Record: Contaminant in laboratory (Pernambuco-PE, Batista et al. 1957Batista AC, Lima IH, Vital AF. 1957. Aspergillus gracilis Bainier var. Sartoryi (Biourge) Batista, Lima e Vital n.var. - sua importância filogenética. in Instituto de Micologia, Universidade do Recife 4. Mycopathologia et Mycologia Applicata 8: 89-102.).

Aspergillus penicillioides Speg., Revista Fac. Agron. Univ. Nac. La Plata 2: 246. 1896. (MB 309234).

Record: Soil (Rio de Janeiro-RJ, Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.).

Aspergillus restrictus G. Sm., J. Textile Inst. 22: 115. 1931. (MB 276290).

Records: Beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); air samples (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.).

Section Sparsi W. Gams, M. Chr., Onions, Pitt & Samson, Adv. Pen. Asp. Syst.: 61. 1986 (1985). (MB 832514).

Aspergillus panamensis Raper & Thom, Mycologia 36: 568. 1944. (MB 284311).

Record: Soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Aspergillus sparsus Raper & Thom, Mycologia 36: 572. 1944. (MB 284314).

Record: Soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Section Terrei Gams et al. Advances in Penicillium and Aspergillus systematics. 1985.(MB 832505).

Aspergillus aureoterreus Samson et al. Stud. Mycol. 69: 45. 2011. (MB 560392).

Record: As Aspergillus terreus var. aureus in waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Note: Samson et al. (2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.) raised this variety to species level.

Aspergillus barbosae A.C.R. Barros-Correia et al., Mycological Progress 19: 892. 2020. (MB 830077).

Record: Indoor environment (Pernambuco-PE, Barros Correia et al. 2020Barros-Correia ACR, Barbosa RN, Frisvad JC, Houbraken J, Souza-Motta CM. 2020. The polyphasic re-identification of a Brazilian Aspergillus section Terrei collection led to the discovery of two new species. Mycological Progress 19: 885-903.).

Aspergillus carneus Blochwitz, Ann. Mycol. 31: 81. 1933. (MB 259903).

Records: Contaminant in laboratory (Pernambuco-PE, Batista & Maia 1955Batista AC, Maia HS. 1955b. Alguns Aspergillales de contaminação in Instituto de Micologia, Universidade do Recife 18. Anais da Sociedade de Biologia de Pernambuco 13: 91-100.b); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Aspergillus niveus Blochwitz, Ann. Mycol. 27: 205. 1929. (MB 272402).

Records: Sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Aspergillus neoniveus Samson et al. Stud. Mycol. 69: 53. 2011. (MB 560395).

Record: As Emericella nivea in sand and beach water (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.).

Note: Emericella nivea is a synonym of Aspergillus neoniveus (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Aspergillus recifensis A.C.R. Barros-Correia et al. Mycological Progress 19:895.2020Barros-Correia ACR, Barbosa RN, Frisvad JC, Houbraken J, Souza-Motta CM. 2020. The polyphasic re-identification of a Brazilian Aspergillus section Terrei collection led to the discovery of two new species. Mycological Progress 19: 885-903.. (MB 830081).

Record: Soil (Pernambuco-PE, Barros Correia et al. 2020Barros-Correia ACR, Barbosa RN, Frisvad JC, Houbraken J, Souza-Motta CM. 2020. The polyphasic re-identification of a Brazilian Aspergillus section Terrei collection led to the discovery of two new species. Mycological Progress 19: 885-903.).

Aspergillus terreus Thom, Amer. J. Bot. 5: 85. 1918. (MB 191719).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Raminelli et al. 2007Raminelli C, Kagohara E, Pellizari VH, Comasseto JV, Andrade LH, Porto AL. 2007. Biotransformations of Mannich bases and propiophenones by Brazilian microorganisms and enzymatic resolution of phenylpropanols by lipase from Candida antarctica (Novozym 435). Enzyme and Microbial Technology 40: 362-369.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); unknown substrate in forest (Paraná-PR, Marcolla et al. 2020Marcolla AC, Rasbold L, Silva GC, et al. 2020. Screening of filamentous fungi from the Atlantic Forest biome producing enzymes of the pectinolytic complex. Brazilian Journal of Development 6: 57580-57585.).

SectionUsti Gams et al. Advances in Penicillium and Aspergillus systematics. 1985. (MB 832504).

Aspergillus deflectus Fennell & Raper, Mycologia 47: 83. 1955. (MB 292841).

Record: Soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Aspergillus puniceus Kwon-Chung & Fennell, Gen. Aspergillus: 547. 1965. (MB 326652).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Aspergillus ustus (Bainier) Thom & Church, Aspergilli: 152. 1926. (MB 281216).

Records: Soil (Pernambuco-PE, Shome 1963Shome SK. 1963. Human pathogenic fungi from soil in Instituto de Micologia, Universidade do Recife 335, Revista da Faculdade de Medicina da Universidade do Ceará 3: 79-83., Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (São Paulo-SP, Milanez et al. 2002Milanez TV, Schoenlein-Crusius IH, Okino LK. 2002. Evaluation of Brazilian terrestrial Aspergillus strains for mycotoxin production. Revista Instituto Adolfo Lutz 61: 7-11.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011)Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.; aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Aspergillus calidoustus Varga et al. Eukaryot. Cell 7: 636. 2008. (MB 504846).

Record: Phytotelmata of the Vriesea procera (Bahia-BA, Oliveira & Fortuna 2020Oliveira HVV, Fortuna JL. 2020. Microfungos em fitotelmata de bromélias de um fragmento de Mata Atlântica do Extremo Sul da Bahia. Unisanta BioScience 9: 338-355.).

PENICILLIUM Link: Fries, Systema Mycologicum 3: 406. 1832.

Section Aspergilloides Dierckx, Annls. Soc. Scient. Brux. 25: 85. 1901. (MB 832951).

Penicillium frequentans Westling, Ark. Bot. 11: 133. 1911. (MB 152118).

Record: Public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.).

Penicillium glabrum (Wehmer) Westling, Ark. Bot. 11: 131. 1911. (MB 120545).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); endophyte from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.). Also reported as Penicillium aurantiobrunneum in leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.).

Note: Penicillium aurantiobrunneum is considered synonym of P. glabrum (Houbraken et al. 2014Houbraken J, Visagie CM, Meijer M, et al. 2014. A taxonomic and phylogenetic revision of Penicillium section Aspergilloides. Studies in Mycology 78: 373-451.).

Penicillium lividum Westling, Ark. Bot. 11: 134. 1911. (MB 178817).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.).

Penicillium montanense M. Chr. & Backus, Mycologia 54: 574. 1962. (MB 335752).

Record: Soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.)

Penicillium purpurescens (as “purpurascens”) (Sopp) Biourge, La Cellule 33: 105. 1923. (MB 335761).

Records: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Penicillium spinulosum Thom, U.S.D.A. Bur. Animal Industr. Bull. 118: 76. 1910. (MB 215401).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Penicillium thomii Maire, Bull. Soc. Hist. Nat. Afrique N. 8: 189. 1917. (MB 202819).

Records: Soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janaeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); endophytic from Begonia fischeri (São Paulo-SP, Correia et al. 2017Correia AML, Lira SP, Assis MA, Rodrigues A. 2017. Fungal endophyte communities in Begonia species from the Brazilian Atlantic rainforest. Current Microbiology 75: 441-449.).

Section Brevicompacta Thom, The Penicillia: 289. 1930. (MB 834006).

Penicillium brevicompactum Dierckx, Ann. Soc. Sci. Bruxelles 25: 88. 1901. (MB 149773).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); water and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556., Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ; Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); leaf litter of Clusia nemorosa (Bahia-BA, Costa & Gusmão 2015Costa LA, Gusmão LFP. 2015. Characterization saprobic fungi on leaf litter of two species of trees in the Atlantic Forest, Brazil. Brazilian Journal of Microbiology 46: 1027-1035.).

Penicillium olsonii Bainier & Sartory, Ann. Mycol. 10: 398. 1912. (MB 121021).

Record: Soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.).

Section Canescentia Houbraken & Samson, Studies in Mycology 70. 2011.(MB 563135).

Penicillium canescens Sopp, Skr. Vidensk.-Selsk. Christiana Math.-Nat. Kl. 11: 181. 1912. (MB 153765).

Records: Air (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.).

Penicillium janczewskii K.W. Zaleski, Bull. Int. Acad. Polon. Sci., Sér. B., Sci. Nat. 1927: 488. 1927. (MB 120703).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ).

Penicillium jensenii K.W. Zaleski, Bull. Int. Acad. Polon. Sci., Sér. B., Sci. Nat. 1927: 494. 1927. (MB 120708).

Record: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.).

Penicillium nigricans Bainier ex Thom, Penicillia: 351. 1930. (MB 119303).

Record: Soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.)

Section Charlesia Houbraken & Samson, Studies in Mycology 70. 2011.(MB 563125).

Penicillium chermesinum Biourge, Cellule 33: 284. 1923. (MB 260472).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium fellutanum Biourge, Cellule 33: 262. 1923. (MB 264748).

Records: Water (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Tauk-Tornisielo et al. 2009Tauk-Tornisielo SM, Vallejo MC, Govone JS. 2009. Biomasses and xylanase production by strains of Penicillium isolated from Brazilian Atlantic forest. Arquivos do Instituto Biológico 76: 359-364.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); air (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Section Chrysogena Frisvad & Samson, Stud. Mycol. 49: 17. 2004. (MB 700796).

Penicillium chrysogenum Thom, U.S.D.A. Bur. Animal Industr. Bull. 118: 58. 1910. (MB 165757).Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); water (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); soil (Rio de Janeiro-RJ, Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); soil (Pernambuco-PE, Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); water and mangove sediment (São Paulo-SP, Doi et al. 2018Doi SA, Pinto AB, Canali MC, Polezel DR, Chinellato RAM, Oliveira AJFC. 2018. Density and diversity of filamentous fungi in the water and sediment of Araçá bay in São Sebastião, São Paulo, Brazil. Biota Neotropica 18: 2-9.); leaf and root (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ); phytotelmata of the Aechmea alba (Bahia-BA, Oliveira & Fortuna 2020Oliveira HVV, Fortuna JL. 2020. Microfungos em fitotelmata de bromélias de um fragmento de Mata Atlântica do Extremo Sul da Bahia. Unisanta BioScience 9: 338-355.).

Penicillium dipodomyus (as “dipodomyis”) (Frisvad et al. ) Banke et al. Int. Mod. Meth. Pen. Asp. Clas.: 271. 2000. (MB 459815).

Record: As P. dipodomyis in aquatic reservoirs (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Penicillium rubens Biourge, Cellule 33: 265. 1923. (MB 276884).

Records: Inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.); sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.).

Section Citrina Houbraken & Samson, Studies in Mycology 70. 2011.(MB 563132).

Penicillium citrinum Thom, U.S.D.A. Bur. Animal Industr. Bull. 118: 61. 1910. (MB 165293).

Records: Contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.b); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82., Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.; Tauk-Tornisielo et al. 2009Tauk-Tornisielo SM, Vallejo MC, Govone JS. 2009. Biomasses and xylanase production by strains of Penicillium isolated from Brazilian Atlantic forest. Arquivos do Instituto Biológico 76: 359-364.); soil (Rio Grande do Sul-RS, Prade et al. 2007Prade CA, Matsumura AT, Ott AP, Porto ML. 2007. Diversidade de fungos do solo em sistemas agroflorestais de Citrus com diferentes tipos de manejo no município de Roca Sales, Rio Grande do Sul. Biociências 15: 73-81.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); beehives (beebread samples) (Rio de Janeiro-RJ, Keller et al. 2014Keller KM, Deveza MV, Koshiyama AS, et al. 2014. Fungi infection in honeybee hives in regions affected by Brazilian sac brood. Arquivo Brasileiro de Medicina Veterinária e Zootecnia 66: 1471-1478.); sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.); honey, pollen and nests of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.); phytotelmata of the Aechmea alba (Bahia-BA, Oliveira & Fortuna 2020Oliveira HVV, Fortuna JL. 2020. Microfungos em fitotelmata de bromélias de um fragmento de Mata Atlântica do Extremo Sul da Bahia. Unisanta BioScience 9: 338-355.). Also reported as Penicillium implicatum in beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); endophytic from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.); water and mangove sediment (São Paulo-SP, Doi et al. 2018Doi SA, Pinto AB, Canali MC, Polezel DR, Chinellato RAM, Oliveira AJFC. 2018. Density and diversity of filamentous fungi in the water and sediment of Araçá bay in São Sebastião, São Paulo, Brazil. Biota Neotropica 18: 2-9.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.). Also reported as Penicillium botryosum as contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.b).

Note: Penicillium implicatum and P. botryosum are synonyms of P. citrinum (see Pitt 1979Pitt JI. 1979. The genus Penicillium and its teleomorphic states. London, Academic Press. and Houbraken et al. 2010Houbraken J, Frisvad JC, Samson RA. 2010. Sex in Penicillium series Roqueforti. IMA Fungus 1: 171-180.).

Penicillium miczynskii K.W. Zaleski, Bull. Int. Acad. Polon. Sci., Sér. B., Sci. Nat. 1927: 482. 1927. (MB 271171).

Records: Soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211., Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ).

Penicillium paxilli Bainier, Bull. Soc. Mycol. France 23: 95. 1907. (MB 203838).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.); inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium shearii Stolk & D.B. Scott, Persoonia 4: 396. 1967. (MB 335765).

Record: Inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium steckii K.W. Zaleski, Bull. Int. Acad. Polon. Sci., Sér. B., Sci. Nat. 1927: 469. 1927. (MB 278769).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium sumatraense (as “sumatrense”) Szilvinyi, Archiv. Hydrobiol.14 Suppl. 6: 535. 1936. (MB 319297).

Record: Inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.)

Penicillium waksmanii K.W. Zaleski, Bull. Int. Acad. Polon. Sci., Sér. B., Sci. Nat.: 468. 1927. (MB 121677).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.); water and soil (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (Pernamuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Section Exilicaulis Pitt, The Genus Penicillium: 205. 1980.(MB 832954).

Penicillium citreonigrum Dierckx, Ann. Soc. Sci. Bruxelles 25: 86. 1901. (MB 165197).

Records: Soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.; Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); sand and water of beach (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (Pernambuco-PE, Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.). Reported as “Penicillium citreoviride” in beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.).

Note: Penicillium citreoviride is considered a synonym of P. citreonigrum (Visagie et al. 2016Visagie CM, Renaud JB, Burgess KMN, et al. 2016. Fifteen new species of Penicillium. Persoonia 36: 247-280.).

Penicillium citreosulfuratum Biourge, Cellule 33: 285, 1923. (MB 260947).

Record: Bee pollen of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium corylophilum Dierckx, Ann. Soc. Sci. Bruxelles 25: 86. 1901. (MB 178294).

Records: Beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); endophyte from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.). Reported as Penicillium humuli in soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Note: Penicillium humuli is considered a synonym of P. corylophilum (Visagie et al. 2016Visagie CM, Renaud JB, Burgess KMN, et al. 2016. Fifteen new species of Penicillium. Persoonia 36: 247-280.).

Penicillium decumbens Thom, U.S.D.A. Bur. Animal Industr. Bull. 118: 71. 1910. (MB 156582).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110., Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Tauk-Tornisielo et al. 2009Tauk-Tornisielo SM, Vallejo MC, Govone JS. 2009. Biomasses and xylanase production by strains of Penicillium isolated from Brazilian Atlantic forest. Arquivos do Instituto Biológico 76: 359-364.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil and beach water (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Penicillium melinii Thom, Penicillia: 273. 1930. (MB 270876).

Record: Soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Penicillium parvum Raper & Fennell, Mycologia 40: 508. 1948. (MB 289101).

Record: Soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Penicillium restrictum J.C. Gilman & E.V. Abbott, Iowa St. Coll. J. Sci. 1: 297. 1927. (MB 276289).

Records: Beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Rio de Janeiro-RJ, Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); leaf litte (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Penicillium vinaceum J.C. Gilman & E.V. Abbott, Iowa St. Coll. J. Sci. 1: 299. 1927. (MB 281754).

Records: Beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Section Fasciculata Thom, The Penicillia: 374. 1930. (MB 834008).

Penicillium aurantiogriseum Dierckx, Ann. Soc. Sci. Bruxelles 25: 88. 1901. (MB 247956).

Records: Air (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); endophyte from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.); leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Penicillium commune Thom, U.S.D.A. Bur. Animal Industr. Bull. 118: 56. 1910. (MB 164241).

Records: Beach soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); soil (Pernambuco-PE Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); endophyte from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.); water, leaf and root (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ).

Penicillium crustosum Thom, The Penicillia: 399. 1930. (MB 262401).

Records: Corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); soil (Paraná-PR, Silva et al. 2016Silva NFS, Simões MR, Knob A, et al. 2016. Improvement in the bleaching of kraft pulp with xylanase from Penicillium crustosum FP 11 isolated from the Atlantic forest. Biocatalysis and Biotransformation 34: 119-127. ; Bittencourt et al. 2020Bittencourt KWF, Arfelli VC, Lunkes JC, et al. 2020. Biochemical Characteristics of Penicillium crustosum FP 11 Xylanase II and an assessment of the properties of xylanases produced by the genus Penicillium. Annual Research & Review in Biology 35: 64-75.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); leaf litter (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ).

Penicillium echinulatum Raper & Thom ex Fassat., Acta Univ. Carol., Biol. 1974: 326. 1977. (MB 319269).

Records: Soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); decomposing leaves (São Paulo-SP, Wellbaum et al. 1999Wellbaum C, Schoenlein-Crusius IH, Santos VB. 1999. Fungos filamentosos em folhas do ambiente terrestre e aquático da Ilha dos Eucaliptos, Represa do Guarapiranga, São Paulo, SP. Brazilian Journal of Botany 22: 69-74.); air (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.).

Penicillium gladioli L. McCulloch & Thom, Science 67: 217. 1928. (MB 266048).

Record: Soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.).

Penicillium hirsutum Dierckx, Ann. Soc. Sci. Bruxelles 25: 89. 1901. (MB 152720).

Records: Water, soil and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.).

Penicillium solitum Westling, Ark. Bot. 11: 65. 1911. (MB 206172).

Records: Corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Penicillium verrucosum Dierckx, Ann. Soc. Sci. Bruxelles 25: 88. 1901. (MB 212252).

Records: Soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.).

Penicillium viridicatum Westling, Ark. Bot. 11: 88. 1911. (MB 163349).

Records: Leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janeiro-RJ, Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.).

Section Gracilenta Houbraken & Samson. Stud. Mycol. 70: 40. 2011. (MB 563131).

Penicillium apimei R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1891. 2018. (MB 822208).Record: Honey of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Section Lanata-Divaricata Thom, The Penicillia: 328. 1930. (MB 834002).

Penicillium alagoense L.O. Ferro et al., Persoonia 42: 447. 2019. (MB 830760).

Record: As endophyte from leaves of Miconia sp. (Melastomataceae) (Alagoas-AL, Crous et al. 2019Crous PW, Carnegie AJ, Wingfield MJ, et al. 2019a. Fungal Planet description sheets: 868-950. Persoonia 42: 291-473.a).

Penicillium brasilianum Bat, Anais Soc. Biol. Pernambuco 15: 162. 1957. (MB 302381).

Record: As contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957c. Estudo taxonômico de um novo Aspergillaceae. in Instituto de Micologia, Universidade do Recife 5. Mycopathologia et Mycologia Applicata 8: 103-120.b).

Penicillium brefeldianum B.O. Dodge, Mycologia 25: 92. 1933. (MB 258851).

Records: Soil (Paraná-PR, Corrêa et al. 2019Corrêa JM, Moraes SS, Henn C, et al. 2019. Bioprospecting and enzymatic potential of filamentous fungi from the Bela Vista Biological Refuge in Itaipu, Brazil. Genetics and Molecular Research 18: 1-12. ). Also reported as Eupenicillium brefeldianum in sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (Pernamuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.).

Note: For taxonomic clarification see Houbraken & Samson (2011Houbraken J, Samson RA. 2011. Phylogeny of Penicillium and the segregation of Trichocomaceae into three families. Studies in Mycology 70: 1-51.).

Penicillium echinulonalgiovense S. Abe ex Houbraken & R.N. Barbosa, Antonie van Leeuwenhoek 111: 1895. 2018. (MB 822213).

Record: Bee pollen and nests of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium guaibinense J.P. Andrade et al., Persoonia 41: 389. 2018. (MB 827182).

Record: Sandbank soil (Bahia-BA, Crous et al. 2018Crous PW, Luangsa-ard JJ, Wingfield MJ, et al. 2018. Fungal Planet description sheets: 785-867. Persoonia 41: 238-417.).

Penicillium janthinellum Biourge, Cellule 33: 258. 1923. (MB 119134).

Records: Contaminant of Polyporus spathulatum (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); air (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Silva et al. 2011Silva DCV, Tiago PV, Mattos JLS, Paiva LM, Souza-Motta CM. 2011. Isolamento e seleção de fungos filamentosos do solo de sistemas agroflorestais do Município de Bom Jardim (PE) com base na capacidade de produção de enzimas hidrolíticas. Brazilian Journal of Botany 34: 607-610.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); waste of castor (Ceará-CE, Herculano et al. 2011Herculano PN, Lima DMM, Fernandes MJS, et al. 2011. Isolation of cellulolytic fungi from waste of castor (Ricinus communis L.). Current Microbiology 62: 1416-1422.).

Penicillium javanicum J.F.H. Beyma, Verh. Kon. Ned. Akad. Wetensch., Afd. Natuurk. 26: 17. 1929. (MB 268394).

Records: Soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Penicillium laevigatum L. Cai et al., Cladistics 35: 537. 2018 (2019). (MB 818154).

Record: Bee pollen of Melipona scutellaris (Pernambuco-PE, Diao et al. 2018Diao YZ, Chen Q, Jiang XZ, et al. 2018. Penicillium section Lanata-divaricata from acidic soil. Cladistics 35: 514-549.).

Penicillium limosum S. Ueda, Mycoscience 36: 451. 1995. (MB 415136).

Record: Sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.).

Penicillium nordestinense J.E.F. Santos & R.N. Barbosa sp. nov. MycoBank (MB 842080)

Record: Pollen samples inside nests of Melipona scutellaris (this study).

Penicillium oxalicum Currie & Thom, J. Biol. Chem. 22: 289. 1915. (MB 121033).

Records: As a contaminant of Stilbum sp. (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); water and leaves of Alchornea triplinervia (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Penicillium rolfsii Thom, Penicillia: 489. 1930. (MB 276674).

Record: Soil, misspelled as “P. rolfssi" (Pernambuco-PE, Cruz et al. 2017Cruz R, Fonseca JC, Maciel MHC, et al. 2017. Extraction of tannase by the new strain of Penicillium. Current Biotechnology 6: 308-317.).

Penicillium simplicissimum (Oudem.) Thom, Penicillia: 335. 1930. (MB 278201).

Record: As contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); related to Atta cephalotes (Bahia-BA, Reis et al. 2015Reis SBM, Silva A, Alvarez MR, Oliveira TB, Rodrigues A. 2015. Fungal communities in gardens of the leafcutter ant Atta cephalotes in forest and cabruca agrosystems of southern Bahia state (Brazil). Fungal Biology 119: 1170-1178.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); phytotelmata of the Aechmea alba (Bahia-BA, Oliveira & Fortuna 2020Oliveira HVV, Fortuna JL. 2020. Microfungos em fitotelmata de bromélias de um fragmento de Mata Atlântica do Extremo Sul da Bahia. Unisanta BioScience 9: 338-355.).

Penicillium singorense Visagie et al., Stud. Mycol. 78: 119. 2014. (MB 809182).

Record: Bee pollen of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium wotroi Houbraken et al., Int. J. Syst. Evol. Microbiol. 61: 1474. 2011. (MB 518026).

Records: Honey and inside nests of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.); sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.).

Section Penicillium Link, Mag. Ges. Naturf. Freunde Berlin 3: 16. 1809. (MB 549140).

Penicillium digitatum (Pers.) Sacc., Fung. Ital. Autogr. Delin.: tab. 894. 1881. (MB 169502).

Records: Soil (Pernambuco-PE, Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.); soil (Rio de Janeiro-RJ: Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Rio Grande do Sul-RS, Prade et al. 2007Prade CA, Matsumura AT, Ott AP, Porto ML. 2007. Diversidade de fungos do solo em sistemas agroflorestais de Citrus com diferentes tipos de manejo no município de Roca Sales, Rio Grande do Sul. Biociências 15: 73-81.).

Penicillium expansum Link, Mag. Ges. Naturf. Freunde Berlin 3: 16. 1809. (MB 159382).

Records: Soil (Rio de Janeiro-RJ, Fragra et al. 2010); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.).

Section Ramigena Thom, The Penicillia: 225. 1930. (MB 834004).

Penicillium cyaneum (Bainier & Sartory) Biourge, Cellule 33: 102. 1923. (MB 251712).

Records: As Penicillium dierckxii in agroforestry soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Note: Penicillium dierckxii is a synonym of P. cyaneum (Houbraken et al. 2020Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. ).

Section Ramosum (as “Ramosum”) Stolk & Samson, Adv. Pen. Asp. Syst.: 179. 1985.(MB 832722).

Penicillium lanosum Westling, Ark. Bot. 11: 97. 1911. (MB 178497).

Record: Mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.)

Penicillium raistrickii G. Sm., Trans. Brit. Mycol. Soc. 18: 90. 1933. (MB 276069).

Record: Soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.).

Section Robsamsonia Houbraken & Frisvad, Persoonia 36: 309. 2016.(MB 815870).

Penicillium glandicola (Oudem.) Seifert & Samson, Adv. Pen. Asp. Syst.: 147. 1986(1985). (MB 114761).

Record: Misspelled as “Penicillium grandicola” in sediment from mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.).

Penicillium griseofulvum Dierckx, Ann. Soc. Sci. Bruxelles 25: 88. 1901. (MB 120566).

Records: Corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Minas Gerais-MG, Ribeiro et al. 2014Ribeiro LFC, Ribeiro LF, Jorge JA, Polizeli MLTM. 2014. Screening of filamentous fungi for xylanases and cellulases not inhibited by xylose and glucose. British Biotechnology Journal 4: 30-39.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.).

Penicillium vulpinum (Cooke & Massee) Seifert & Samson, Adv. Pen. Asp. Syst.: 144. 1986 (1985). (MB 114763).

Records: Soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Section Sclerotiorum [as “Sclerotiora” ] Houbraken & Samson, Stud. Mycol. 70: 32. 2011. MycoBank (MB 585167).

Penicillium adametzii K.W. Zaleski, Bull. Int. Acad. Polon. Sci., Sér. B., Sci. Nat., 1927: 507. 1927. (MB 119777).

Record: Aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.).

Penicillium bilaiae Chalab, Bot. Mater. Otd. Sporov. Rast. 6: 165. 1950. (MB 302379).

Record: Soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Penicillium barbosae S. Ramos et al., Mycological Progress 20: 828. 2021. (MB 837908).

Record: Soil (Pernambuco-PE, Ramos et al. 2021Ramos SMS, Cruz R, Barbosa RN, et al. 2021. Two new Penicillium section Sclerotiorum species from sugarcane soil in Brazil. Mycological Progress 20: 823-835.).

Penicillium brocae S.W. Peterson et al., Mycologia 95: 143. 2003. (MB 373658).

Record: Honey and inside nests of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium fernandesiae R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1895. 2018. (MB 822209).

Record: Inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium herquei Bainier & Sartory, Bull. Soc. Mycol. France 28: 121. 1912. (MB 536431).

Records: Corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.).

Penicillium limae S. Ramos et al., Mycological Progress 20: 832. 2021. (MB 837909).

Record: Soil (Pernambuco-PE, Ramos et al. 2021Ramos SMS, Cruz R, Barbosa RN, et al. 2021. Two new Penicillium section Sclerotiorum species from sugarcane soil in Brazil. Mycological Progress 20: 823-835.).

Penicillium mallochii K.G. Rivera et al., Mycotaxon 119: 322. 2012. (MB 563043).

Record: Honey of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium meliponae R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1897. 2018. (MB 822210).

Record: Honey of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium mellis R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1900. 2018. (MB 822211).Record: Honey of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Penicillium restingae J.P. Andrade et al., Persoonia 32: 293. 2014. (MB 807051).

Record: Sandbank (Bahia-BA, Crous et al. 2014Crous PW, Shivas RG, Quaedvlieget W, et al. 2014. Fungal Planet description sheets: 214-280. Persoonia 32: 184-306.).

Penicillium reconvexovelosoi J.P. Andrade et al., Persoonia 43: 383, 2019. (MB 832747).

Record: Soil of sandbank (Bahia-BA, Crous et al. 2019Crous PW, Wingfield MJ, Lombard L, et al. 2019b. Fungal Planet description sheets: 951-1041. Persoonia 43, 2019: 223-425. doi: 10.3767/persoonia.2019.43.06
https://doi.org/10.3767/persoonia.2019.4... b).

Penicillium sanshaense X.C. Wang & W.Y. Zhuang, Sci. Rep. 7: 8233, 9. 2017. (MB 570337).

Record: Sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.).

Penicillium sclerotiorum J.F.H. Beyma, Zentralbl. Bakteriol. Parasitenk., Abt. 2 96: 418. 1937. (MB 277708).

Records: As contaminant in laboratory (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Cruz et al. 2013Cruz R, Santos C, Lima JS, Moreira KA, Souza-Motta CM. 2013. Diversity of Penicillium in soil of Caatinga and Atlantic Forest areas of Pernambuco, Brazil: an ecological approach. Nova Hedwigia 97: 543-556.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); honey, pollen and nests of Melipona scutelaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Section Turbata Houbraken & Samson, Studies in Mycology 70. 2011. (MB 563133).

Penicillium turbatum Westling, Ark. Bot. 11: 128. 1911. (MB 202895).

Records: Sediment mangrove (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

TALAROMYCES C.R. Benj., Mycologia 47: 681. 1955.

Section Helici Samson, N. Yilmaz & Frisvad, Stud. Mycol. 78: 2014. (MB 809558).

Talaromyces pigmentosus R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1905. 2018 (MB 822216).

Record: Inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Talaromyces varians (G. Sm.) Samson et al., Stud. Mycol. 71: 177. 2011. (MB 560677).

Records: As contaminant in laboratory (reported as Penicillium varians) (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Note: Penicillium varians does not belong to Penicillium and it was tranfered to Talaromyces as T. varians (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Section Islandici (Pitt) Yilmaz, Frisvad & Samson, Stud. Mycol. 78: 2014. (MB 809565).

Talaromyces islandicus (Sopp) Samson et al., Stud. Mycol. 71: 176. 2011. (MB 560654).

Records: As contaminant of Phytophthora sp. (reported as Penicillium islandicum) (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.; Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Note: Penicillium islandicum does not belong to Penicillium and currently it is treated as T. islandicum (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces rugulosus (Thom) Samson et al., Stud. Mycol. 71: 177. 2011. (MB 560672).

Records: As contaminant of exsiccate (reported as Penicillium tardum) (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b). Reported as Penicillium rugulosum in soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Tauk-Tornisielo et al. 2009Tauk-Tornisielo SM, Vallejo MC, Govone JS. 2009. Biomasses and xylanase production by strains of Penicillium isolated from Brazilian Atlantic forest. Arquivos do Instituto Biológico 76: 359-364.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); water (São Paulo-SP, Takahashi et al. 2012Takahashi JP, Schoenlein-Crusius IH, Gruppi VT, Moreira CG. 2012. Geofungos no Córrego do Sapateiro, Parque Municipal do Ibirapuera, São Paulo, SP, Brasil. Hoehnea 39: 287-295.).

Note: Penicillium tardum is a synonym of T. rugulosus (Yilmaz et al. 2014Yilmaz N, Visagie CM, Houbraken J. 2014. Polyphasic taxonomy of the genus Talaromyces. Studies in Mycology 78: 175-342. ).

Talaromyces scorteus (Nakazawa et al.) S.W. Peterson & Jurjević, PLoS ONE 8: e78084, 8. 2013. (MB 804734).

Record: Honey and inside nests of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Talaromyces wortmannii (Klöcker) C.R. Benj. Mycologia 47: 683. 1955. (MB 344294).

Records: Beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); inside nest of Melipona scutellaris (Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.). Also reported as Talaromyces variabilis in aquatic reservoirs (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.). Also reported as Penicillium variabile as contaminant of exsiccate (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); water and soil (Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.).

Note: Talaromyces variabilis is a synonym of T. wortmanni (Yilmaz et al. 2014Yilmaz N, Visagie CM, Houbraken J. 2014. Polyphasic taxonomy of the genus Talaromyces. Studies in Mycology 78: 175-342. ).

Section Talaromyces Stolk & Samson Stud. Mycol. 2: 56. 1972. (MB 549314).

Talaromyces aculeatus (Raper & Fennell) Samson et al., Stud. Mycol. 71: 174. 2011. (MB 560639).

Records: Reported as P. aculeatum in soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Talaromyces calidicanius (J.L. Chen) Samson et al., Stud. Mycol. 71: 175. 2011. (MB 560645).

Record: Pollen of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Talaromyces duclauxii (Delacr.) Samson et al., Stud. Mycol. 71: 175. 2011. (MB 560650).

Records: As Penicillium duclauxii in corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Note: Penicillium duclauxii is currently treated as Talaromyces duclauxii (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces flavus (Klöcker) Stolk & Samson, Stud. Mycol. 2: 10. 1972. (MB 324416).

Records: Mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.); water and sediment of mangrove (São Paulo-SP, Doi et al. 2018Doi SA, Pinto AB, Canali MC, Polezel DR, Chinellato RAM, Oliveira AJFC. 2018. Density and diversity of filamentous fungi in the water and sediment of Araçá bay in São Sebastião, São Paulo, Brazil. Biota Neotropica 18: 2-9.).

Talaromyces funiculosus (Thom) Samson et al., Stud. Mycol. 71: 176. 2011. (MB 560653).

Records: Endophyte from Bauhinia forficata (Pernambuco-PE, Bezerra et al. 2015Bezerra JD, Nascimento CC, Barbosa RDN, et al. 2015. Endophytic fungi from medicinal plant Bauhinia forficata: Diversity and biotechnological potential. Brazilian Journal of Microbiology 46: 49-57.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.). Also reported as Penicillium funiculosum in corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Rio de Janeiro-RJ, Fraga et al. 2011Fraga ME, Zonta E, Balieiro FC. 2011. Isolation and selection of filamentous fungi from petroleum contaminated soil. Bioresearch Bulletin 4: 227-235.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.).

Note: Penicillium funiculosumdoes not belong to Penicillium and it was transferred toTalaromyces (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces macrosporus (Stolk & Samson) Frisvad et al., Antonie van Leeuwenhoek 57: 186. 1990. (MB 126704).

Record: Soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Talaromyces muroii Yaguchi et al., Mycoscience 35: 252. 1994. (MB 362930).

Record: Sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.).

Talaromyces mycothecae R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1902. 2018 (MB 822215).

Record: Inside nest of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Talaromyces pinophilus (Hedgc.) Samson et al., Stud. Mycol. 71: 176. 2011. (MB 560662).

Records: As Penicillium pinophilum in soil (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); mangrove sediment (Pernambuco-PE, Gomes et al. 2011Gomes DNF, Cavalcanti MA, Passavante JZO. 2011. Fungos filamentosos isolados de sedimento do manguezal barra das Jangadas, Jaboatão dos Guararapes, Pernambuco, Brasil. Tropical Oceanography 39: 69-78.).

Note: Penicillium pinophilum was transferred toTalaromyces (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces purpureogenus (as “purpurogenus”) (Stoll) Samson et al. , Stud. Mycol. 71: 177. 2011. (MB 585068).

Records: As contaminant in laboratory (reported as Penicilium purpurogenum) (Pernambuco-PE, Batista & Maia 1957Batista AC, Maia HS. 1957b. Alguns Penicillia de contaminação in Instituto de Micologia, Universidade do Recife 12. Anais da Sociedade de Biologia de Pernambuco 15: 149-180.b); beach water and soil (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.; Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); soil (São Paulo-SP, Santos et al. 1998Santos VBD, Wellbaum C, Schoenlein-Crusius IH. 1998. Filamentous fungi from the soil of the "Ilha dos Eucaliptos" in the "Represa do Guarapiranga" in São Paulo State, SP. Acta Botanica Brasilica 12: 101-110.; Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.; Tauk-Tornisielo et al. 2009Tauk-Tornisielo SM, Vallejo MC, Govone JS. 2009. Biomasses and xylanase production by strains of Penicillium isolated from Brazilian Atlantic forest. Arquivos do Instituto Biológico 76: 359-364.); soil (Rio de Janeiro-RJ, Fraga et al. 2010Fraga ME, Pereira MG, Barbosa DJ, Melo MP. 2010. Diversidade de Trichocomaceae isoladas de solo em dois ecossistemas florestais. Ciência Florestal 20: 167-175.); soil (Pernambuco-PE, Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); corn derived products (Pernambuco-PE, Ribeiro et al. 2003Ribeiro SAL, Cavalcanti MAQ, Fernandes MJS, Lima DMM. 2003. Fungos filamentosos isolados de produtos derivados do milho comercializados em Recife, Pernambuco. Brazilian Journal of Botany 26: 223-229.); soil and leaf litter (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.); public telephones (Pernambuco-PE, Coutinho et al. 2007Coutinho FP, Cavalcanti MS, Cordeiro Neto F. 2007. Isolation of filamentous fungi from public telephones of the Metropolitan region of the city of Recife, PE, Brazil. Brazilian Journal of Microbiology 38: 324-329.); beach soil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.); phylloplane from Caesalpinia echinata (Pernambuco-PE, Lima & Cavalcanti 2014Lima TEF, Cavalcanti MS. 2014. Fungos endófitos e do filoplano de Caesalpinia echinata Lam da Estação Ecológica de Tapacurá, PE. Agrotrópica 26: 43-50.).

Note: Penicilium purpurogenum is currently treated inTalaromyces (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces verruculosus (Peyronel) Samson, N. Yilmaz, Frisvad & Seifert, Studies in Mycology 70: 177.2011. (MB 560678).

Records: Sugarcane soil (Pernambuco-PE, Ramos et al. 2018Ramos SMS, Cruz R, Barbosa RN, et al. 2018. Penicillium and Talaromyces communities of sugarcane soils (Saccharum officinarum L.): Ecological and phylogenetic aspects. Journal of Agricultural Science 10: 335-350.); aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.). Reported as Penicillium verruculosum in beach water (Pernambuco-PE, Pinto et al. 1992Pinto IMDA, Cavalcanti MAQ, Oliveira-Passavante JZ. 1992. Hongos filamentosos aislados desde el suelo y el agua en la playa de Boa Viagem (Recife, Brasil). Boletín Micológico 7: 39-45.); sunflower rhizosphere (Pernambuco-PE, Souza-Motta et al. 2003Souza-Motta CM, Cavalcanti MAQ, Fernandes MJS, et al. 2003. Identification and characterization of filamentous fungi isolated from the sunflower (Helianthus annus L.) rhizosphere according to their capacity to hydrolyse inulin. Brazilian Journal of Microbiology 34: 273-280.); soil (São Paulo-SP, Ruegger & Tauk-Tornisielo 2004Ruegger MJS, Tauk-Tornisielo SM. 2004. Atividade da celulase de fungos isolados do solo da Estação Ecológica de Juréia-Itatins, São Paulo, Brasil. Brazilian Journal of Botany 27: 205-211.; Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108.; Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); soil and leaf litter (Rio de Janeiro-RJ, Fraga & Pereira 2012Fraga ME, Pereira MG. 2012. Diversidade de Trichocomaceae isolada de solo e serrapilheira de Floresta Atlântica. Floresta e Ambiente 19: 405-413. ); related to Atta cephalotes (Bahia-BA, Reis et al. 2015Reis SBM, Silva A, Alvarez MR, Oliveira TB, Rodrigues A. 2015. Fungal communities in gardens of the leafcutter ant Atta cephalotes in forest and cabruca agrosystems of southern Bahia state (Brazil). Fungal Biology 119: 1170-1178.).

Note: Penicillium verruculosum was transferred to Talaromyces (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Section Trachyspermi Yaguchi & Udagawa. Mycoscience 37. 1996. (MB 701485).

Talaromyces brasiliensis R.N. Barbosa et al., Antonie van Leeuwenhoek 111: 1902. 2018 (MB 822214).

Record: Honey and inside nests of Melipona scutellaris (Pernambuco-PE, Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.).

Talaromyces diversus (Raper & Fennell) Samson et al., Stud. Mycol. 71: 175. 2011. (MB 560649).

Record: As Penicillium diversum in beachsoil (Pernambuco-PE, Oliveira et al. 2011Oliveira LG, Cavalcanti MAQ, Passavante JZO, Fernandes MJS, Lima DMM. 2011. Filamentous fungi isolated from Candeias Beach, Pernambuco, Brazil. Hoehnea 38: 215-220.).

Note: Penicillium diversum is currently treated in Talaromyces (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces minioluteus (Dierckx) Samson, N. Yilmaz, Frisvad & Seifert, Studies in Mycology 70: 176. 2011. (MB 560657).

Records: Aquatic reservoir (Pernambuco-PE, Magalhães et al. 2019Magalhães KM, Lima MCSD, Santos EM, Correia JMDS, Silva ACBL. 2019. Biodiversity of aquatic environments in a peri-urban Atlantic Forest protected remnant: a checklist. Biota Neotropica 19: 2-6.). Reported as Penicillium minioluteum in water (Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.); soil (Pernambuco-PE, Maia et al. 2006Maia LC, Cavalcanti MAQ, Gibertoni TB, et al. 2006. Fungos. In: Porto KC, Almeida-Cortez JS, Tabarelli M (eds). Diversidade Biológica e Conservação da Floresta Atlântica ao Norte do Rio São Francisco, 1st nd. Brasília, Ministério do Meio Ambiente. pp. 75-108., Costa et al. 2017Costa FMO, Araújo MAG, Santos PJP, et al. 2017. Richness and abundance of filamentous fungi in complex agroforestry multistrata system soil. Revista Brasileira de Agroecologia 12: 1980-9735.); beach water and soil (Pernambuco-PE, Gomes et al. 2008Gomes DNF, Cavalcanti MAQ, Fernandes MJS, Lima DMM, Passavante JZO. 2008. Filamentous fungi isolated from sand and water of" Bairro Novo" and" Casa Caiada" beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology 68: 577-582.); leaf litter of Vismia guianensis (Ceará-CE, Bahia-BA, Paraíba-PB, Costa & Gusmão 2015Costa LA, Gusmão LFP. 2015. Characterization saprobic fungi on leaf litter of two species of trees in the Atlantic Forest, Brazil. Brazilian Journal of Microbiology 46: 1027-1035.); leaf litter of Clusia nemorosa (Bahia-BA, Costa & Gusmão 2015Costa LA, Gusmão LFP. 2015. Characterization saprobic fungi on leaf litter of two species of trees in the Atlantic Forest, Brazil. Brazilian Journal of Microbiology 46: 1027-1035.).

Note: Penicillium minioluteum does not belong to Penicillium and it is currently treated in Talaromyces (Samson et al. 2011Samson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.).

Talaromyces pernambucoensis R. Cruz et al., Persoonia 42: 467. 2019. (MB 830189).

Record: Soil (Pernambuco-PE, Crous et al. 2019Crous PW, Carnegie AJ, Wingfield MJ, et al. 2019a. Fungal Planet description sheets: 868-950. Persoonia 42: 291-473.a).

Talaromyces trachyspermus (Shear) Stolk & Samson, Stud. Mycol. 2: 32. 1972. (MB 324421). Record: Soil (São Paulo-SP, Tauk-Tornisielo et al. 2005Tauk‐Tornisielo SM, Garlipp A, Ruegger M, Attili DS, Malagutti E. 2005. Soilborne filamentous fungi in Brazil. Journal of Basic Microbiology: An International Journal on Biochemistry, Physiology, Genetics, Morphology, and Ecology of Microorganisms 45: 72-82.).

Species previously treated in Aspergillus

Penicilliopsis Solms, Ann. Jard. Bot. Buitenzorg 6: 53. 1887. (MB 3806).

Penicilliopsis zonata (Kwon-Chung & Fennell) Samson et al., Stud. Mycol. 85: 211. 2016. (MB 819185).

Records: Reported as Aspergillus zonatus from air (São Paulo-SP, Schoenlein-Crusius et al. 2001Schoenlein-Crusius IH, Trufem SF, Grandi RA, Milanez AI, Pires-Zottarelli CL. 2001. Airborne fungi in the region of Cubatão, São Paulo state, Brazil. Brazilian Journal of Microbiology 32: 61-65.) and soil (São Paulo-SP, Schoenlein-Crusius et al. 2006Schoenlein-Crusius IH, Milanez AI, Trufem SFB, et al. 2006. Microscopic fungi in the Atlantic Rainforest in Cubatão, São Paulo, Brazil. Brazilian Journal of Microbiology 37: 267-275.).

Note: For taxonomic clarification see Houbraken et al. (2020)Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. .

Sclerocleista Subram., Curr. Sci. 41: 757. 1972. (MB 4928)

Sclerocleista ornata (Raper et al.) Subram., Curr. Sci. 41: 757. 1972. (MB 323241).

Record: As Aspergillus ornatus in soil (São Paulo-SP, Schoenlein-Crusius & Milanez 1998Schoenlein-Crusius IH, Milanez AI. 1998. Fungos microscópicos da Mata Atlântica de Paranapiacaba, São Paulo, Brasil. Brazilian Journal of Botany 21: 73-79.).

Note: The genus Sclerocleista was introduced to accommodate the sexual morph of Aspergillus ornatus (Subramanian 1972). For more details, see Houbraken et al. (2020)Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. .

Discussion

Tropical regions are typically the most diverse in plants and animals species (Brown 2014Brown JH. 2014. Why are there so many species in the tropics? Journal of Biogeography 41: 8-22.; Raven et al. 2020Raven PH, Gereau RE, Phillipson PB, Chatelain C, Jenkins CN, Ulloa C. 2020. The distribution of biodiversity richness in the tropics. Science Advances 6: 1-5. ), as well as a broad variety of interactions between them (Brown 2014Brown JH. 2014. Why are there so many species in the tropics? Journal of Biogeography 41: 8-22.). However, regarding fungi, there is a deficit of data in the literature that estimate the diversity of fungi in the tropics (Hawksworth 2001Hawksworth DL. 2001. The magnitude of fungal diversity: the 1.5 million species estimate revisited. Mycological Research 105: 1422-1432. ; Hawksworth & Lücking 2017Hawksworth DL, Lücking R. 2017. Fungal Diversity Revisited: 2.2 to 3.8 Million Species. Microbiology Spectrum 5: 5-4. ). Our knowledge about fungal diversity and their roles in tropical ecosystems is still incomplete (Aime & Brearley 2012Aime MC, Brearley FQ. 2012. Tropical fungal diversity: closing the gap between species estimates and species discovery. Biodiversity and Conservation 21: 2177-2180.). Species checklists are essential tools to provide information for ecological studies, biodiversity assessments, conservation reports, and public politics related to biodiversity conservation. A few initiatives are helpful aids for compiling lists of fungal species, such as the MycoBank (https://www.mycobank.org/), Index Fungorum (http://www.indexfungorum.org/), Faces of Fungi (https://www.facesoffungi.org/), The Global Fungal Red List Initiative of the IUCN Red List (https://www.iucnredlist.org/), and mainly on Brazilian fungal diversity, Fungos do Brasil (http://www.cybertruffle.org.uk/brazfung/por/index.htm), Flora e Funga do Brasil 2020 - Algas, Fungos e Plantas (http://floradobrasil.jbrj.gov.br/), and SpeciesLink (https://splink.cria.org.br/).

The soil is the most frequently reported source of Aspergillus, Penicillium, and Talaromyces in the Atlantic Forest, which was also reported by Barbosa et al. (2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.) in a recent checklist of fungi in the Caatinga forest in Brazil. Other substrates with significant occurrence of species were water and leaf litter. Fungi are present and prominent in all soils, and their fungal communities may have an extreme species richness (Taylor & Sinsabaugh 2015Taylor DL, Sinsabaugh RL. 2015. The soil fungi: Occurrence, phylogeny, and ecology. In: Paul EA. Soil microbiology, ecology and biochemistry. (4th edn). Cambridge, Massachusetts, Academic Press. pp. 77-109.). Those fungi are dispersed through mycelial growth and more rapidly over larger distances via spores, which are dispersed principally by wind (Taylor & Sinsabaugh 2015Taylor DL, Sinsabaugh RL. 2015. The soil fungi: Occurrence, phylogeny, and ecology. In: Paul EA. Soil microbiology, ecology and biochemistry. (4th edn). Cambridge, Massachusetts, Academic Press. pp. 77-109.), but also through insects and other animals (Magyar et al. 2016Magyar D, Vass M, Li DW. 2016. Dispersal Strategies of Microfungi. In: Li DW. (eds) Biology of Microfungi. Fungal Biology. Springer, Cham. pp. 315-371. ). Owing to their ability to produce a wide variety of extracellular enzymes, fungi are able to break down all types of organic matter and decompose soil components, thereby regulating the balance of carbon and nutrients (Žifčáková et al. 2016Žifčáková L, Vetrovský T, Howe A, Baldrian P. 2016. Microbial activity in forest soil reflects the changes in ecosystem properties between summer and winter. Environmental Microbiology 18: 288-301.). The fungal diversity can be affected by soil and plant properties, providing evidence for strong links among soil fungal diversity and plant and soil properties (Yang et al. 2017Yang Y, Dou Y, Huang Y, An S. 2017. Links between soil fungal diversity and plant and soil properties on the loess plateau. Frontiers in Microbiology 8: 2198.). Most fungi consume living or dead plant materials as their primary nutrients source, and a large number of fungi display some degree of specialization toward their living or dead plant substrates. Thus, plant community composition plays a dominant role in determining the fungal community in an environment (Taylor & Sinsabaugh 2015Taylor DL, Sinsabaugh RL. 2015. The soil fungi: Occurrence, phylogeny, and ecology. In: Paul EA. Soil microbiology, ecology and biochemistry. (4th edn). Cambridge, Massachusetts, Academic Press. pp. 77-109.).

In Brazil, the state of Pernambuco has been historically highlighted in mycological studies because of the existence of the former Institute of Mycology, of the University of Recife (currently the Departamento de Micologia at the Universidade Federal de Pernambuco), which was founded by Augusto Chaves Batista (Bezerra et al. 2017Bezerra JD, Maciel MHC, Bezerra JL, Correia OM, Souza-Motta CM. 2017. The contribution of Augusto Chaves Batista (1916-1967) to Mycology in Brazil. Gaia Scientia 11: 250-273.). The mycological effort in this region explains the reason for the highest number of fungal records because since 1954, several fungal surveys were developed, and their focus was mainly on the soil (Barbosa et al. 2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.).

Aspergillus had the highest species richness in the Atlantic Forest. Species of Aspergillus are found across the world and might be more dominant in regions with tropical and subtropical climates (Klich 2002Klich MA. 2002. Identification of common Aspergillus species. Utrecht, Centraalbureau voor Schimmelcultures. ). A few species, owing to the production of important metabolites such antibiotics, mycotoxins, enzymes, organic acids, and phenolic compounds, are used in several biotechnological processes (Dagenais & Keller 2009Dagenais TRT, Keller NP. 2009. Pathogenesis of Aspergillus fumigatus in invasive aspergillosis. Clinical Microbiology Reviews 22: 447-465.). Aspergillus species belonging to sections Nidulantes and Nigri were the most frequently reported. Aspergillus nidulans is the most common section Nidulantes species reported in the Atlantic Forest, and produces, like other section Nidulantes species, typical biseriate conidiophores with pale brown pigmented stipes, and when present, the ascomata embedded in masses of Hülle cells (Chen et al. 2016 Chen AJ, Sun BD, Houbraken J. 2016. New Talaromyces species from indoor environments in China. Studies in Mycology 84: 119-144.). A total of 11 species in this section are reported in our checklist. Members of Aspergillus section Nidulantes are widely distributed in nature and may play significant roles in decomposition processes (Raper & Fennell 1965Raper KB, Fennell DI. 1965. The genus Aspergillus. Baltimore, The Williams and Wilkins Company.). The section Nigri comprises several species important to agricultural and food production, human and other animal health, and occur frequently throughout the world. The taxonomy of section Nigri is confusing and complex because of subtle differences between the species. A few species, such as A. carbonarius, A. japonicus, and A. aculeatus, can be easily recognized using morphologic criteria; however, species related to the A. niger (series Nigri) are difficult to distinguish using morphologic criteria (Samson et al. 2004Samson RA, Houbraken J, Kuijpers AFA, Frank MJ, Frisvad JC. 2004. New ochratoxin A or sclerotium producing species in Aspergillus section Nigri. Studies in Mycology 50: 45-56. ). Thus, the polyphasic taxonomy has been necessary for accurate identification, as well as description of novel species, for Aspergillus, as well as Penicillium and Talaromyces.

Penicillium is one of the most common and diverse fungal genera, and according to the last list of accepted species, includes 483 species (Houbraken et al. 2020Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. ). Several Penicillium species are economically important as sources of antibiotics, organic acids, enzymes, pharmaceuticals, and several other metabolites; however, a few of them cause food spoilage, produce mycotoxins, and cause human and other animal diseases (Pitt 1994Pitt JI. 1994. The current role of Aspergillus and Penicillium in human and animal health. Journal of Medical and Veterinary Mycology 32: 17-32.; Frisvad et al. 2004Frisvad JC, Smedsgaard J, Larsen TO, et al. 2004. Mycotoxins, drugs and other extrolites produced by species inPenicilliumsubgenusPenicillium. Studies in Mycology 49: 201-241.). Members of the Penicillium section, Lanata-Divaricata and Sclerotiorum are abundant in the Brazilian Atlantic Forest. Penicillium section Sclerotiorum was introduced by Houbraken & Samson (2011Houbraken J, Samson RA. 2011. Phylogeny of Penicillium and the segregation of Trichocomaceae into three families. Studies in Mycology 70: 1-51.), and most of the species in this group share the production of yellow to orange mycelia and have a reverse orange or reddish colony and bright-colored sclerotia (Visagie et al. 2013Visagie CM, Houbraken J, Rodriques C, et al. 2013. Five new Penicillium species in section Sclerotiora: a tribute to the Dutch Royal family. Persoonia 31: 42-62.). Recently, P. barbosae and P. limae isolated from sugarcane cultivation soils in Atlantic Forest in northeastern Brazil were described as new in the section Sclerotiorum, series Adametziorum (Ramos et al. 2021Ramos SMS, Cruz R, Barbosa RN, et al. 2021. Two new Penicillium section Sclerotiorum species from sugarcane soil in Brazil. Mycological Progress 20: 823-835.). The novel species, P. nordestinense, described in this study belongs to section Lanata‐Divaricata, series Janthinella. Species of this section are common in soil (Diao et al. 2018Diao YZ, Chen Q, Jiang XZ, et al. 2018. Penicillium section Lanata-divaricata from acidic soil. Cladistics 35: 514-549.) and frequently found on rotting leaf litter (Houbraken et al. 2011Houbraken J, López-Quintero CA, Frisvad JC, et al. 2011. Penicillium araracuarense sp. nov., Penicillium elleniae sp. nov., Penicillium penarojense sp. nov., Penicillium vanderhammenii sp. nov. and Penicillium wotroi sp. nov., isolated from leaf litter. International Journal of Systematic and Evolutionary Microbiology 61: 1462-1475.). Species identification in this section is difficult, and a DNA-based approach using BenA sequencing, if needed supplemented with a CaM sequence, is suggested for reliable results (Visagie et al. 2015Visagie CM, Houbraken J, Seifert KA, et al. 2015. Four new Penicillium species isolated from the fynbos biome in South Africa, including a multigene phylogeny of section Lanata-Divaricata. Mycol Progress 14: 1-23.). Previous studies reported the occurrence of section Lanata-Divaricata species as endophytes (P. alagoense, Crous et al. 2019Crous PW, Carnegie AJ, Wingfield MJ, et al. 2019a. Fungal Planet description sheets: 868-950. Persoonia 42: 291-473.a; P. brasilianum, P. cluniae and P. echinulonalgiovense, Freire et al. 2020Freire KTLS, Araújo-Magalhães GR, Nascimento SS, et al. 2020. First report of Penicillium brasilianum Bat., P. cluniae Quintan., and P. echinulonalgiovense S. Abe ex Houbraken & R.N. Barbosa (Eurotiales, Aspergillaceae) as endophytes from a bromeliad in the Caatinga dry forest in Brazil. Check List 16: 1055-1061.) and in honey, bee pollen, and nests of M. scutellaris (Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.); however, the ecological significance remains unknown.

The genus Talaromyces was introduced by Benjamin (1955) Benjamin CR. 1955. Ascocarps of Aspergillus and Penicillium. Mycologia 47: 669-687. to accommodate a group of sexually reproducing Penicillium species. In 2011, Samson et alSamson RA, Yilmaz N, Houbraken J, et al. 2011. Phylogeny and nomenclature of the genus Talaromyces and taxa accommodated in Penicillium subgenus Biverticillium. Studies in Mycology 70: 159-183.. re-evaluated the genus and transferred most species of Penicillium belonging to the subgenus Biverticillium to Talaromyces. In the monographic treatment of the genus by Yilmaz et al. (2014)Yilmaz N, Visagie CM, Houbraken J. 2014. Polyphasic taxonomy of the genus Talaromyces. Studies in Mycology 78: 175-342. , 88 species were accepted and these were classified in seven sections: Bacillispori, Helici, Islandici, Purpurei, Subinflati, Talaromyces, and Trachyspermi. Six years later, a new section named Tenues was proposed (Sun et al. 2020Sun BD, Chen AJ, Houbraken J, et al. 2020. New section and species in Talaromyces. MycoKeys 68: 75. doi: 10.3897/mycokeys.68.52092
https://doi.org/10.3897/mycokeys.68.5209... ). In our checklist, we found species belonging to sections Helici, Islandici, Talaromyces, and Trachyspermi. Species classified in section Talaromyces were commonly found occurring in the Atlantic Forest. This is the largest section of the genus Talaromyces, and it includes 72 species (Houbraken et al. 2020Houbraken J, Kocsube S, Visagie C. et al. 2020. Classification of Aspergillus, Penicillium, Talaromyces and related genera (Eurotiales): an overview of families, genera, subgenera, sections, series and species. Studies in Mycology 95: 5-169. ). Members of this section exhibit a great diversity in morphological characters and were isolated from a diverse range of substrates (e.g., Jiang et al. 2018Jiang XZ, Yu ZD, Ruan YM, Wang L. 2018. Three new species of Talaromyces sect. Talaromyces discovered from soil in China. Scientific Reports 8: 1-11.; Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.; Wei et al. 2021Wei S, Xu X, Wang L. 2021. Four new species of Talaromyces section Talaromyces discovered in China. Mycologia 113: 492-508.). Although few members of Talaromyces were reported as opportunistic human pathogens, such T. marneffei, most of them are producers of anticancer, antibacterial, antifungal, antiproliferative, and antioxidative compounds; several enzymes; and natural pigments (Narikawa et al. 2000Narikawa T, Shinoyama H, Fujii T. 2000. A β-rutinosidase from Penicillum rugulosum IFO 7242 that is a peculiar flavonoid glycosidase. Bioscience, Biotechnology and Biochemistry 64: 1317-1319.; Bladt et al. 2013Bladt TT, Frisvad JC, Knudsen PB, Larsen TO. 2013. Anticancer and antifungal compounds from Aspergillus, Penicillium and other filamentous fungi. Molecules 18: 11338-11376.; Frisvad et al. 2013Frisvad JC, Yilmaz N, Thrane U, Rasmussen KB, Houbraken J, Samson RA. 2013. Talaromyces atroroseus, a new species efficiently producing industrially relevant red pigments. PLoS ONE 8: e84102. doi: 10.1371/journal.pone.0084102
https://doi.org/10.1371/journal.pone.008... ; Maeda et al. 2013Maeda RN, Barcelos CA, Anna LMMS, Pereira N. 2013. Cellulase production by Penicillium funiculosum and its application in the hydrolysis of sugar cane bagasse for second generation ethanol production by fed batch operation. Journal of Biotechnology 163: 38-44.; Zhai et al. 2016Zhai MM, Li J, Jiang CX, et al. 2016. The bioactive secondary metabolites from Talaromyces species. Natural Products and Bioprospecting 6: 1-24.; Kumari et al. 2018Kumari M, Taritla S, Sharma A, Jayabaskaran C. 2018. Antiproliferative and antioxidative bioactive compounds in extracts of marine-derived endophytic fungus Talaromyces purpureogenus. Frontiers in Microbiol 9: e1777. doi: 10.3389/fmicb.2018.01777
https://doi.org/10.3389/fmicb.2018.01777... ; Lian et al. 2018Lian W, Wang W, Tan CP, Wang J, Wang Y. 2018. Immobilized Talaromyces thermophilus lipase as an efficient catalyst for the production of LML-type structured lipids. Bioprocess and Biosystems Engineering 42: 321-329.; Nicoletti et al. 2018Nicoletti R, Salvatore MM, Andolfi A. 2018. Secondary metabolites of mangrove-associated strains of Talaromyces. Marine Drugs 16: 1-12.; Xu et al. 2018Xu Y, Feng X, Jia J, et al. 2018. A novel β-glucuronidase from Talaromyces pinophilus Li-93 precisely hydrolyzes glycyrrhizin into glycyrrhetinic acid 3-O-mono-β-d-glucuronide. Applied and Environmental Microbiology 84: e00755-18. doi: 10.1128/AEM.00755-18
https://doi.org/10.1128/AEM.00755-18... ).

The correct identification and description of new species must follow standardized methodologies to make species identifications across laboratories more consistent (e.g., Samson et al. 2010Samson RA, Houbraken J, Thrane U. 2010. CBS KNAW Biodiversity Center. Utrecht, Food and indoor fungi.; Houbraken et al. 2011Houbraken J, López-Quintero CA, Frisvad JC, et al. 2011. Penicillium araracuarense sp. nov., Penicillium elleniae sp. nov., Penicillium penarojense sp. nov., Penicillium vanderhammenii sp. nov. and Penicillium wotroi sp. nov., isolated from leaf litter. International Journal of Systematic and Evolutionary Microbiology 61: 1462-1475.; Visagie et al. 2014Visagie CM, Varga J, Houbraken J, et al. 2014. Ochratoxin production and taxonomy of the yellow aspergilli (Aspergillus section Circumdati). Studies in Mycology 78: 1-61. ; Yilmaz et al. 2014Yilmaz N, Visagie CM, Houbraken J. 2014. Polyphasic taxonomy of the genus Talaromyces. Studies in Mycology 78: 175-342. ; Frisvad et al. 2019Frisvad JC, Hubka V, Ezekiel CN, et al. 2019. Taxonomy of Aspergillus section Flavi and their production of aflatoxins, ochratoxins and other mycotoxins. Studies in Mycology 93: 1-63.). All guidelines were based on polyphasic approaches, including morphology, multigene phylogenies, physiology, and extrolite data. Currently, few studies in Brazilian Atlantic Forest have adopted this approach for species identification (e.g., Fungaro et al. 2017Fungaro MHP, Ferranti LS, Massi FP, et al. 2017. Aspergillus labruscus sp. nov., a new species of Aspergillus section Nigri discovered in Brazil. Scientific Reports 7: 1-9. ; Barbosa et al. 2018Barbosa RN, Bezerra JDP, Souza-Motta CM, et al. 2018. New Penicillium and Talaromyces species from honey, pollen and nests of stingless bees. Antonie van Leeuwenhoek 111: 1883-1912.; Barros-Correia et al. 2020Barros-Correia ACR, Barbosa RN, Frisvad JC, Houbraken J, Souza-Motta CM. 2020. The polyphasic re-identification of a Brazilian Aspergillus section Terrei collection led to the discovery of two new species. Mycological Progress 19: 885-903.) and previous studies that did not use polyphasic methods could have misidentified species in very related and complex groups. We also reinforced the importance of preserving strains in a public reference fungal culture collection (e.g., URM culture collection in Brazil (Micoteca URM Profa. Maria Auxiliadora Cavalcanti - https://www.ufpe.br/micoteca) (Barbosa et al. 2020Barbosa RN, Bezerra JDP, Santos ACS, et al. 2020. Brazilian tropical dry forest (Caatinga) in the spotlight: an overview of species of Aspergillus, Penicillium and Talaromyces (Eurotiales) and the description of P. vascosobrinhous sp. nov. Acta Botanica Brasilica 34: 409-429.).

Although the Atlantic Forest is one of the world’s top biodiversity hotspots (Rezende et al. 2018Rezende CL, Scarano FR, Assad ED, et al. 2018. From hotspot to hopespot: An opportunity for the Brazilian Atlantic Forest. Perspectives in Ecology and Conservation 16: 208-214. ) with a diversified mosaic of habitats that harbors several species, there is a gap between species estimates and the number of species discovered. Only 19 names (5 Aspergillus, 10 Penicillium, and 4 Talaromyces) are described on and typified with specimens from the Atlantic Forest. Most of these were isolated from soil and substrates related to stingless bees. This fact is considerably insufficient, considering that we have investigated literature published over 65 years (1955 to 2020). The question “how many Aspergillus, Penicillium, and Talaromyces species there are in Brazil?” is indisputably important to mention here through the vast importance and applicability of these fungal species. Currently, only a few research groups focus on studying the diversity of these fungi in Brazil because of several technical limitations, e.g., several groups are still unable to apply modern identification techniques. In addition, there are very few taxonomy experts and enthusiasts studying Aspergillus, Penicillium, and Talaromyces taxonomy in Brazil (R.N. Barbosa - personal communication). This can be seen, for example, in the scarcity of studies in the Pampa biome. Among the six studies that were analyzed, only one isolate was identified at the species level.

Fungi are the second most species-rich organism group after insects (Purvis & Hector 2000Purvis A, Hector A. 2000. Getting the measure of biodiversity. Nature 405: 212-219.). In this way, it is challenging to conduct fungal inventory, as they are still scarce when compared to other organisms such as plants and animals. Although the fungal diversity has been extensively investigated, and the development of molecular phylogeny has revealed an unexpected fungal diversity with an increased number of novel taxa, it is still necessary to increase and incentivize the development of researches including collection and preservation of specimens in fungal herbaria and culture collections. In addition, the survey and correct use of fungal diversity is relevant to several industry segments (e.g., agriculture, pharmacology, food, and biotechnology).

Conclusions

This checklist indicates that the number of mycological studies for prospective Aspergillus, Penicillium, and Talaromyces diversity in Brazilian Atlantic Forest and Pampa biomes is still scarce and extremely necessary. The soil is the most cited substrate for these species, the conditions of the soil environment are optimal for their growth, mainly because of the abundance of leaf litter and other compounds. Despite the degraded state of the Atlantic Forest and Pampa, the biological potential of several of them still lacks a basic understanding, highlighting the importance of conducting inventories. To date, few species are described from these biomes, and this reflects the importance of increasing the number of mycologists, in particular, specialists in taxonomy. Our data provide a framework to study the biogeography of Aspergillus, Penicillium, and Talaromyces species in tropical environments, and contribute to a better understanding of Brazilian fungal diversity.

Acknowledgements

Renan N. Barbosa, José Ewerton Santos, Cristina M. Souza-Motta would like to thank the Fundação de Amparo à Ciência e Tecnologia de Pernambuco (FACEPE - Finance code APQ-0350-2.12/19), the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES - Finance code 001, CAPES-PRInt process number 88887.311891/2018-00), and the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq process number 310298/2018-0) for scholarships and financial support. We acknowledge the Associação Pernambucana de Apicultores e Meliponicultores (APIME) for support and for collecting the honey/pollen samples. The authors also wish to thank reviewers for the critical revision of the manuscript.

References

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