An overview on the mycoparasitic <i>Piptocephalis</i> (Zoopagomycota): taxonomic notes and geographic distribution with new occurrences for South America

Cruz, Mateus Oliveira da; Freitas, Leslie Waren Silva de; Santos, Francisca Robervânia Soares dos; Souza-Motta, Cristina Maria de; Santiago, André Luiz Cabral Monteiro de Azevedo

doi:10.1590/1677-941X-ABB-2022-0251

ABSTRACT

Piptocephalis includes mycoparasitic fungi, mainly targeting mucoralean species. Until now, there has been no compilation of data on the taxonomy and geographic distribution of Piptocephalis, which is a barrier to the proper identification of species of this genus by taxonomists. The present study provides an overview of Piptocephalis with taxonomic and occurrence data, in addition to reporting P. graefenhanii and P. xenophila for the first time in South America. Both species were observed parasitizing Mucor spp. The P. graefenhanii was observed growing on paca dung and P. xenophila was observed on guinea-pig dung in Recife, northeastern Brazil. Aspects of their morphology are discussed and a key for the genus is presented.

Keywords:
Ecology; Haustorial fungi; Mycoparasitic fungi; Taxonomy; Zoopagales

Introduction

Zoopagomycota comprises fungi parasitic of protozoa (e.g., amoebae), small animals (e.g., rotifers or nematodes) and other fungi, mostly of Mucorales (Mucoromycota) and Mortierellales (Mortierellomycota), rarely infecting species of Ascomycota (Tedersoo et al. 2018Tedersoo L, Sáncez-Ramírez S, Kõljalg U et al. 2018. High-level classification of the Fungi and a tool for evolutionary ecological analyses. Fungal Diversity 90: 135-159. doi: 10.1007/s13225-018-0401-0
https://doi.org/10.1007/s13225-018-0401-... ; Davis et al. 2019Davis WJ, Amses KR, Benny GL et al. 2019. Genome-scale phylogenetics reveals a monophyletic Zoopagales (Zoopagomycota, Fungi). Molecular Phylogenetics and Evolution 133: 152-163. doi: 10.1016/j.ympev.2019.01.006
https://doi.org/10.1016/j.ympev.2019.01.... ). This phylum includes the Zoopagales, with five families, among which Piptocephalidaceae is the best known (Reynolds et al. 2019Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis. Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
https://doi.org/10.1080/00275514.2018.15... ). Piptocephalidaceae comprises both Piptocephalis and Syncephalis (Wijayawardene et al. 2022Wijayawardene NN, Hyde KD, Dai DQ et al. 2022. Outline of Fungi and fungus-like taxa - 2021. Mycosphere 13: 53-453. doi: 10.5943/mycosphere/13/1/2
https://doi.org/10.5943/mycosphere/13/1/... ) that are merosporangipherous haustorial fungi that form merosporangia on terminal vesicles, with merospores remaining dry or released in a droplet of fluid at maturity. Zygospores are formed from the union of gametangia produced terminally by apposed or coiled progametangia (Benny et al. 2016Benny GL, Smith ME, Kirk PM, Tretter ED, White MM. 2016. Challenges and future perspectives in the systematics of Kickxellomycotina, Mortierellomycotina, Mucoromycotina and Zoopagomycotina. In: Li DW (ed.) Biology of Microfungi (Fungal Biology). Berlin, Springer. p. 65-126. doi: 10.1007/978-3-319-29137-6_5
https://doi.org/10.1007/978-3-319-29137-... ).

Piptocephalis species form slender vegetative hyphae, with small appressoria which penetrate the host wall, giving rise to restricted, delicate, and branched haustoria (Benjamin 1959Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
https://doi.org/10.5642/aliso.19590402.0... ). Merosporangiophores are erect, septate, smooth or longitudinally striate, dichotomously branched several times where the ultimate branch ends in a head cell supporting few to many merosporangia containing one or more merosporangiospores (Ho 2004Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... ). Although Piptocephalis has a worldwide distribution (Fig. 1), the majority of species of this genus cannot be confirmed as cosmopolitan due to a lack of inventories of these fungi (Reynolds et al. 2019Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis. Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
https://doi.org/10.1080/00275514.2018.15... ). For South America, records of Piptocephalis are restricted to Argentina, Brazil and Colombia (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ).

Although sequences of Piptocephalis species are available in the GenBank database, identification of this genus has been mainly based on morphological characters due to the obligate parasitic nature of these fungi (Ho 2004Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... ; 2006Ho HM. 2006. A new species of Piptocephalis from Taiwan. Botanical Studies 47: 453-456.). Although we recognize the importance of molecular biology to separate species of Piptocephalis, we believe that morphological identification is also a reliable tool for the identification of these species. Reynolds et al. (2019)Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis. Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
https://doi.org/10.1080/00275514.2018.15... , after a morphological and phylogenetic (28S and ITS rDNA regions) study of Piptocephalis observed that the Piptocephalis strains formed a monophyletic group with several distinct clades corresponding to morphologically identified species, which indicates that morphological features are sufficient to identify species of Piptocephalis. However, the last morphological key for identification of Piptocephalis was provided by Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., not including species described in the last 24 years (until March 2023).

The present study aims to provide an overview of Piptocephalis with taxonomic, ecological and occurrence notes of all species, as well as to illustrate P. xenophila and P. graefenhanii (new records for South America), therefore expanding knowledge on geographic distribution of this still poorly studied genus. In order to fill a gap in time since the last identification key of Piptocephalis was produced, we provide a morphological identification key for the species known until March 2023.

Material and methods

Occurrence and substrates data - GenBank, UNITE and GBIF databases were used to access distribution and substrates information of Piptocephalis spp.

Observation and identification of Piptocephalis spp. - Samples of Cuniculus paca Linnaeus (paca) and Cavia porcellus Linnaeus (guinea-pig) dung were collected in the Parque Estadual de Dois Irmãos, an Ecological Reserve located in the city of Recife, state of Pernambuco, Brazil (Fig. 1). Dung samples were collected with a spatula previously sterilized in 70% alcohol, placed in plastic bags and taken to the laboratory where they were incubated in Petri dishes containing two filter paper sheets moistened with sterile distilled water at room temperature (± 28 ℃) for seven days in alternate periods of light and dark. After four days, merosporangiophores of Piptocephalis were observed growing directly from hyphae of Mucor sp. Microscopic slides were prepared directly from samples using Amann’s Cotton Blue containing both Piptocephalis and its host and observed under a light microscope (Leica MD 500). The identification was based on microstructural characters according to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany. and Ho (2003Ho HM. 2003. The merosporangiferous fungi from Taiwan (III): Three new records of Piptocephalidaceae (Zoopagales, Zygomycetes). Taiwania 48: 53-59. doi: 10.6165/tai.2003.48(1).53
https://doi.org/10.6165/tai.2003.48(1).5... , 2006Ho HM. 2006. A new species of Piptocephalis from Taiwan. Botanical Studies 47: 453-456.). Since Piptocephalis spp. could not be successfully grown on corn meal agar (CM), malt extract agar (MEA 2%), malt extract-yeast agar (MEYE) and potato dextrose agar (PDA) media, permanent slides prepared directly from the moist chambers using 50% glycerol containing a small amount of Amann’s cotton blue (Benny 2008Benny GL. 2008. The methods used by Dr. R.K. Benjamin, and other mycologists to isolate Zygomycetes. Aliso 26: 37-61. doi: 10.5642/aliso.20082601.08
https://doi.org/10.5642/aliso.20082601.0... ) were deposited in the URM Herbarium of the Universidade Federal de Pernambuco.

Figure 1
Geographical distribution of Piptocephalis species.

Results

New records for South America

Piptocephalis graefenhanii H.M. Ho, Botanical Studies 47(4): 453 (2006) Fig. 2

Figure 2
Piptocephalis graefenhanii. A-D: Branched fertile region of merosporangiophore with merosporangia. E. Merospores and one globose head cell (arrow). Bars = 25 µm.

MycoBank number: 521964

Vegetative hyphae submerged, hyaline, thin, delicate. Rhizoids not observed. Merosporangiophores erect, hyaline, prostate and distantly septate with age, smooth-walled. Main stalks 1800-3600 µm long, 2-4 µm in diam. Merosporangiophores consisting of up to six successive dichotomies, not striate; primary branches 600-1800 × 2.5 µm, penultimate branches 7-27 × 1.5-2.5 µm, ultimate branches 6.5-15 × 1-2 µm. Head cells deciduous, hyaline, globose with conical projections, smooth-walled, 4.5-6 × 4-6 µm, supporting 4-14 merosporangia remaining dry at maturity. Merosporangia initially hyaline, ellipsoidal, erect, two-spored, while the apical merospore buds from the basal one, smooth-walled, 10-13 × 3-3.5 µm. Merospores hyaline, ellipsoidal, 5-6.5 × 2.5-3 um, smooth-walled. Zygospores not observed.

Material examined: Brazil, Pernambuco: Recife, Parque Estadual Dois Irmãos (8°00′54.0″S 34°56′40.2″W), isolated from Cuniculus paca (paca) dung parasitizing Mucor sp., 10 Nov. 2021, M.O. Cruz (URM 94643).

Habitat and geographic distribution: This species was previously reported from soil in the United Kingdom and Taiwan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; Ho 2006Ho HM. 2006. A new species of Piptocephalis from Taiwan. Botanical Studies 47: 453-456.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). It has also been reported in Afghanistan and Australia without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize Cokeromyces recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Notes: Piptocephalis graefenhanii is reported for the first time in South America from paca dung. Until now, P. graefenhanii had only been reported from soil. It is morphologically similar to P. lepidula. The main feature common to both species is the formation of apical merospores by budding from a basal merospore. However, unlike merosporangiophores of P. graefenhanii, which branch up to six times and are not striated, merosporangiophores of P. lepidula may branch up to eight times and exhibit striation. The primary branching of P. graefenhanii merosporangiophores is longer (from 1800 µm in length) than the primary branch of P. lepidula (up to 700 µm in length). Additionally, there are differences in the number and size of the merosporangia between both species. Piptocephalis graefenhanii head cells sustain 4-14 merosporangia, while head cells of P. lepidula sustain from 15-30 merosporangia.

Piptocephalis xenophila Dobbs & M.P. English, Transactions of the British Mycological Society 37 (4): 375 (1954)

Fig. 3

Figure 3
Piptocephalis xenophila.A-B. Branched merosporangiophore with merosporangia. C. Branched merosporangiophore after merospore release. D. Terminal branches of merosporangiophore after merospore release. E. Rhizoid. F. Merospores. Bars = 25

MycoBank number: 303660

Vegetative hyphae submerged, hyaline, thin, delicate. Rhizoids hyaline, poorly branched, up to 22 × 2.2 µm. Merosporangiophores hyaline, erect or ascending, prostate and distantly septate with age, longitudinally striate, smooth-walled. Main stalks 1250-3000 µm long, 3-4.5 µm in diam. Fertile branch system consisting of up to seven successive dichotomies; primary branches 300-1500 × 2.5 µm, penultimate branches 7-10 × 1.5-2 µm, ultimate branches 6.5-15 × 1-2 µm. Head cells deciduous, hyaline, heart-shaped, smooth-walled, 3-4 µm in diam., supporting 5-12 merosporangia remaining dry at maturity. Merosporangia hyaline, cylindrical, erect, with 3-10 merospores, 23-26 × 2-3 µm., smooth-walled. Merospores hyaline, cylindrical, 4-6 × 2.5-3 µm. Zygospores not observed.

Material examined: Brazil, Pernambuco: Recife, Parque Estadual Dois Irmãos (8°00’54.0"S 34°56′40.2″W), isolated from Cavia porcellus (guinea-pig) dung parasitizing Mucor sp., 10 Nov. 2021, M.O. Cruz (URM 94644).

Habitat and geographic distribution: This species was previously reported on animal dung from the United States of America; leaf litter from the United Kingdom; soil from Afghanistan, Canada, Estonia, Taiwan, the United Kingdom and the United States of America. It has also been reported in Afghanistan, Australia and Japan without substrate indication (Dobbs and English 1954Dobbs CG, English MP. 1954. Piptocephalis xenophila sp. nov. parasitic on non-mucorine hosts. Transactions of the British Mycological Society 70: 335-340. doi: 10.1016/S0007-1536(54)80021-0
https://doi.org/10.1016/S0007-1536(54)80... ; Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize Mucor sp. (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Notes: Piptocephalis xenophila is here reported for the first time to South America from guinea-pig dung. Until now, P. xenophila had only been reported from soil. Merosporangiophores of this species form heart-shaped head cells like ones of P. microcephala and P. indica. However, the merosporangiophores of P. xenophila form up to seven dichotomies, different from the ones of P. microcephala which form up to 11 and the ones of P. indica which form up to eight dichotomies. The head cells of P. xenophila sustain up to 12 merosporangia, while those of P. microcephala and P. indica support up to six merosporangia. Furthermore, unlike P. xenophila, merospores of P. microcephala remain in a drop of fluid at maturity. Additionally, P. xenophila forms cylindrical merospores, while merospores of P. microcephala and P. indica are doliform.

Taxonomic notes and geographic distribution of other Piptocephalis species

Piptocephalis arrhiza Tiegh. & G. Le Monn. Annls Sci. Nat. Bot. 5(17): 366 (1873)

MycoBank number: 202264

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by the formation of striate merosporangiophores with 5-7 successive dichotomies, head cell lobed, and merosporangia sustaining 2-5 cylindrical or doliform merospores, which are 3-11 × 3-5 µm; spore heads remain dry at maturity. According to Indoh (1962)Indoh H. 1962. Notes on Japonese Mucorales I. Transactions of the Mycological Society of Japan 3: 24-28., zygospores are 38-40 µm in diam. with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from Austria, Germany, Ireland, the United Kingdom and the United States of America. Piptocephalis arrhiza has also been reported in Belgium and Sweden without substrate indication (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis benjaminii (Embree) R.K. Benj., Aliso 5(3): 284 (1963)

MycoBank number: MB337041

Notes: According to Benjamin (1963)Benjamin RK. 1963. Addenda to “The merosporangiferous Mucorales” II. Aliso 5:273-288. doi: 10.5642/aliso.19630503.07
https://doi.org/10.5642/aliso.19630503.0... and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this species is characterized by formation of striate merosporangiophores with 8-13 successive dichotomies, lack of head cells, merosporangia unisporate and arising from ultimate branch; merospores are ovate or obovate, 4-11 × 3-4 µm; spore heads remain dry at maturity. Zygospores are orangish-brown to brown, 45-64 µm in diam. with a reticulate exospore wall.

Habitat and geographic distribution: This species was previously reported on animal dung from the United States of America, old basidiome from the United Kingdon. Piptocephalis benjaminii has also been reported in Spain without substrate indication (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis brijmohanii Mukerji, Mycologia 60(2): 326 (1968)

MycoBank number: 337042

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by formation of striate merosporangiophores with 4-6 successive dichotomies, subglobose head cells, and merosporangia sustaining 1-4 cylindrical to doliform merospores, which are 4-8 × 2.5-4 µm. Spore heads remain dry at maturity. Zygospores are yellowish-brown, 24-41 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from India and Pakistan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). Piptocephalis brijmohanii has also been reported in the Netherlands (from glass jar) and China without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis cruciata Tiegh., Annls Sci. Nat., Bot. 6(1): 149 (1875)

MycoBank number: 202411

Notes: According to Van Tieghem (1875)Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175. and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this species is characterized by formation of the striate merosporangiophores with 3-8 successive dichotomies, lobed head cells, and merosporangia sustaining 3-8 cylindrical or doliform merospores, which are 4-8 × 2.5-3 µm. Spore heads form a liquid droplet at maturity. Zygospores were not observed.

Habitat and geographic distribution: This species was previously reported from soil in Japan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ; UNITE 2022UNITE 2022. Unite community. https://unite.ut.ee/. 10 Jul. 2022.
https://unite.ut.ee/... ). Piptocephalis cruciata can parasitize Mycotypha microspora (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis cylindrospora Bainier, Étud. Mucor., (Thèse, Paris) (Paris): 92 (1882)

MycoBank number: 202030

Notes: According to Mangin (1899)Mangin L. 1899. Observations sur la membrane des Mucorinées. Journal de Botanique 13: 209-378. and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this species is characterized by the formation of striate merosporangiophores with up to 9 successive dichotomies, globose head-cells, merosporangia sustaining 2-7 cylindrical merospores, wich are 3.5-9 × 2-2.5 µm. Spore heads remain dry at maturity. Zygospore are yellow-orange to yellow-brown, 19-37 µm diam. with coarsely rugulose-reticulate exospore wall.

Habitat and geographic distribution - This species was previously reported on dung, material vegetable and soil from the United States of America, the United Kingdom and France (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis cylindrospora has also been reported in Argentina (from soil) and from Belgium, the Netherlands, South Africa and Switzerland without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize Absidia glauca, Lichtheimia ramosa, Mucor hiemalis and M. racemosus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ).

Piptocephalis curvata Baijal & B.S. Mehrotra, Zentbl. Bakt. ParasitKde, Abt. 2 (122): 181 (1968)

MycoBank number: 337043

Notes: According to Baijal & Mehrotra (1968)Baijal U, Mehrotra BS. 1968. An interesting species of Piptocephalis. Zentralblatt für Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene 122: 181-184., Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany. and Ho (2004)Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... , this species is characterized by the formation of non-striate merosporangiophores with 3-8 successive dichotomies, in which the ultimate branch is curved, head cells lobed, and merosporangia sustain two cylindrical or doliform merospores, which are 4-8 × 2.5-3 µm. Spore heads form a liquid droplet at maturity. According to Reynolds et al. (2019)Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis. Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
https://doi.org/10.1080/00275514.2018.15... , zygospores are hyaline, 20-30 µm diam., with a smooth-walled exospore.

Habitat and geographic distribution - This species was previously reported from soil in France, Japan, Malaysia (Baijal & Mehrotra 1968Baijal U, Mehrotra BS. 1968. An interesting species of Piptocephalis. Zentralblatt für Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene 122: 181-184.; Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ) and Taiwan (Ho 2004Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... ). Piptocephalis curvata can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.) and Backusella circina (Ho 2004Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... ).

Piptocephalis debaryana B.S. Mehrotra [as 'de-baryana'], Proc. Natl. Acad. Sci. India, Sect. B, Biol. Sci. 30: 371 (1960)

MycoBank number: 337044

Notes: According to Mehrotra (1960)Mehrotra BS. 1960. Studies on Mucorales III: Piptocephalis debaryana sp. nov. Proceedings of the National Academy of Sciences India Section B: Biological Sciences 30: 370-372. and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by the formation of the striate merosporangiophores with up to seven successive dichotomies, in which the ultimate branches have a slightly swollen apex. Head cells are lobed and merosporangia sustain 2-5 cylindrical merospores, which are 3-9 × 2.5-3 µm. Spore heads form a liquid droplet at maturity. Zygospores are hyaline, 17-34 µm in diam., with a faintly rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from India, Ireland, Taiwan, the United Kingdom and the United States of America (Ho 2006Ho HM. 2006. A new species of Piptocephalis from Taiwan. Botanical Studies 47: 453-456.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). This species can parasitize Cokeromyces recurvatus.

Piptocephalis fimbriata M.J. Richardson & Leadb., Trans. Br. mycol. Soc. 58(2): 206 (1972)

MycoBank number: 320532

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany. and Ho (2004)Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... , this homothallic species is characterized by the formation of striate merosporangiophores with up to 6 successive dichotomies, subglobose to lobed head cells falling at maturity leaving a truncate tip on the ultimate branch from merosporangiophores. Merosporangia sustain 2-6 cylindrical merospores, which are 4-7.5 × 2-3 µm. Spore heads form a liquid droplet at maturity. Zygospores are hyaline, 16-26 µm in diam., with a smooth-walled exospore.

Habitat and geographic distribution: This species was previously reported from soil, leaf litter and animal dung from the United Kingdom and Ireland; soil from Japan, Taiwan and the United States of America (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; Ho 2004Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... ; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). It has also been reported in Argentina, Australia, Austria, Belarus, Belgium, Bulgaria, China, Congo, Colombia, Czechia, Finland, Germany, Greenland, Iceland, Iran, Italy, Kenya, Kyrgyzstan, Mexico, Morocco, South Africa, Thailand, Russia, Sweden and Switzerland without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis fimbriata can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.) and Mucor sp. (Ho 2004Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
https://doi.org/10.6165/tai.2004.49(3).1... ).

Piptocephalis formosana H.M. Ho & P.M. Kirk, Bot. Studies (Taipei) 50(1): 69 (2009)

MycoBank number: 540746

Notes: According to Ho & Kirk (2009)Ho HM, Kirk PM. 2009. Piptocephalis formosana, a new spcies from Taiwan. Botanical Studies 50: 69-72., this species is characterized by the formation of striate merosporangiophores with up to four successive dichotomies, lobed head cells, and merosporangia sustaining 2-4 cylindrical merospores, which are 2.5-4 × 1-2 µm. Spore heads form a liquid droplet at maturity. Zygospores are light brown, 42-47 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported from soil in the United States of America and Taiwan (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Ho & Kirk 2009Ho HM, Kirk PM. 2009. Piptocephalis formosana, a new spcies from Taiwan. Botanical Studies 50: 69-72.). It has also been reported in Afghanistan without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). It can parasitize Mucor sp. (Ho & Kirk 2009Ho HM, Kirk PM. 2009. Piptocephalis formosana, a new spcies from Taiwan. Botanical Studies 50: 69-72.).

Piptocephalis freseniana de Bary, Abh. senckenb. naturforsch. Ges. 5: 356 (1865)

MycoBank number: 202311

Notes: According to Zycha et al. (1969)Zycha HR, Siepmann R, Linnemann G. 1969. Mucorales. Germany, Verlag von J. Cramer. and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by the formation of striate merosporangiophores with 4-9 successive dichotomies, lobed head cells, merosporangia in a feather-like arrangement, sustaining 3-7 cylindrical to doliform merospores, which are 4-9 × 2.5-4 µm. Spore heads form a liquid droplet at maturity. Zygospores are yellowish-brown to reddish-orange, 20-37 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from Brazil, the United Kingdom and the United States of America; soil from the United States of America (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). It has also been reported in Germany and Morocco without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis freseniana can parasitize C. recurvatus and Mucor sp. (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis fusispora Tiegh., Annls Sci. Nat., Bot. 6(1): 146 (1875)

MycoBank number: 199810

Notes: According to Van Tieghem (1875)Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175., this homothallic species is characterized by the formation of striate merosporangiophores with 4-8 successive dichotomies, globose head-cells, merosporangia sustaining 3-5 fusiform merospores, which are 2-4 × 2 µm. Zygospores are blackish-brown, 42-50 µm in diam., with an exospore wall sculptured with large papillae. Spore heads were not described.

Habitat and geographic distribution: It was found by Van Tieghem (1875)Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175. growing on Mucor sp. mycelium associated with Helvella crispa in France. According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., P. fusispora has been also reported in China, Italy, the Netherlands and Poland without substrate indication.

Piptocephalis indica B.S. Mehrotra & Baijal, Sydowia 17(1-6): 171 (1964)

MycoBank number: 337045

Notes: According to Mehrotra & Baijal (1964)Mehrotra BS, Baijal U. 1964. Piptocephalis indica sp. nov. and Piptocephalis sp. from India. Sydowia 17: 171-173., Zycha et al. (1969)Zycha HR, Siepmann R, Linnemann G. 1969. Mucorales. Germany, Verlag von J. Cramer., Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., and Ho (2003)Ho HM. 2003. The merosporangiferous fungi from Taiwan (III): Three new records of Piptocephalidaceae (Zoopagales, Zygomycetes). Taiwania 48: 53-59. doi: 10.6165/tai.2003.48(1).53
https://doi.org/10.6165/tai.2003.48(1).5... , this homothallic species is characterized by the formation of striate merosporangiophores in whorls with 2-4 primary branches and 3-8 successive dichotomies. Head cells are heart-shaped, and merosporangia sustain 4-8 cylindrical merospores with membranes derived from sporangial wall that remain on the surface of the merospores forming fringes at both ends. Merospores are 3-6 × 2-4 µm. Spore heads remain dry at maturity. Zygospores are orangish-brown, 11-14 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from India (Mehrotra & Baijal 1964Mehrotra BS, Baijal U. 1964. Piptocephalis indica sp. nov. and Piptocephalis sp. from India. Sydowia 17: 171-173.; Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.); soil from Malaysia, the United States of America and Taiwan (Ho 2003Ho HM. 2003. The merosporangiferous fungi from Taiwan (III): Three new records of Piptocephalidaceae (Zoopagales, Zygomycetes). Taiwania 48: 53-59. doi: 10.6165/tai.2003.48(1).53
https://doi.org/10.6165/tai.2003.48(1).5... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). It has also been reported in Afghanistan without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis indica can parasitize of C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.) and Cunninghamella sp. (Ho 2003Ho HM. 2003. The merosporangiferous fungi from Taiwan (III): Three new records of Piptocephalidaceae (Zoopagales, Zygomycetes). Taiwania 48: 53-59. doi: 10.6165/tai.2003.48(1).53
https://doi.org/10.6165/tai.2003.48(1).5... ).

Piptocephalis lemonnieriana Vuill., Bull. Séanc. Soc. Sci. Nancy, 3(3): 47 (1902)

MycoBank: 199706

Notes: According Vuillemin (1902)Vuillemin P. 1902. Les Céphalidẻes section physiologique de la famille des Mucorinẻes. Bulletin de la Société des Sciences de Nancy. France, Nabu Press., Zycha et al. (1969)Zycha HR, Siepmann R, Linnemann G. 1969. Mucorales. Germany, Verlag von J. Cramer. and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this species is characterized by forming striate merosporangiophores. Head cells are globose, and merosporangia sustain two ellipsoidal merospores, which are 5 × 2.5 µm. Spore heads form a liquid droplet at maturity. Zygospores were not observed, and the formation of successive dichotomies on merosporangiophores were not informed in the protolog.

Habitat and geographic distribution: Piptocephalis lemonnieriana has been reported in France as a parasite of Mucor fragilis Bainier, which was found growing on a birch stump (Vuillemin 1902Vuillemin P. 1902. Les Céphalidẻes section physiologique de la famille des Mucorinẻes. Bulletin de la Société des Sciences de Nancy. France, Nabu Press.). It has also been reported on animal dung from Brazil (Santiago et al. 2011Santiago ALCMA, Trufem SFB, Malosso E, Santos PJP, Cavalcanti MAQ. 2011. Zygomycetes from herbivore dung in the ecological reserve of Dois Irmãos, Northeast Brazil. Brazilian Journal of Microbiology 42: 89-95. doi: 10.1590/S1517-83822011000100012
https://doi.org/10.1590/S1517-8382201100... ).

Piptocephalis lepidula (Marchal) Sacc., Syll. fung. (Abellini) 12: 571 (1897)

MycoBank number: 199590

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by the formation of striate merosporangiophores with 4-8 successive dichotomies, globose head cells, and merosporangia sustaining 1-3 ellipsoidal merospores, which are 3-8 × 2-3.5 µm. Spore heads remain dry at maturity. Zygospores are yellowish-orange, 36-68 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from Belgium, Brazil, Germany, Japan, the Netherlands, New Zealand, Sweden and Taiwan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; Santiago et al. 2011Santiago ALCMA, Trufem SFB, Malosso E, Santos PJP, Cavalcanti MAQ. 2011. Zygomycetes from herbivore dung in the ecological reserve of Dois Irmãos, Northeast Brazil. Brazilian Journal of Microbiology 42: 89-95. doi: 10.1590/S1517-83822011000100012
https://doi.org/10.1590/S1517-8382201100... ; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ); tree bark from the United States of America (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ); cereal grains from the United Kingdom (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.); soil from Argentina, Austria, Estonia, Iceland, the United Kingdom and the United States of America (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). It has also been reported in Afghanistan, China and India without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis lepidula can parasitize C. recurvatus, Mucor plumbeus Bonord., and rotting mushrooms (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis macrocephala J.H. Mirza, S.M. Khan, S. Begum & Shagufta, Mucor. Pakistan, (Univ. Agric. Faisalabad) (Faisalabad): 123 (1979)

MycoBank number: 115005

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany. this species is characterized by forming striate merosporangiophores with up to 4 successive dichotomies, lobed head cells, and merosporangia sustaining 6-9 cylindrical merospores, which are 6-8 × 2-3 µm. Spore heads form a liquid droplet at maturity. Zygospores were not observed.

Habitat and geographic distribution: This species was previously reported on animal dung from Pakistan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis microcephala Tiegh., Annls Sci. Nat., Bot. 6(1): 147 (1875)

MycoBank number: 199737

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by the formation of striate merosporangiophores with up to 11 successive dichotomies, heart-shaped head cells, merosporangia sustaining up to three cylindrical, 2.5-9 × 2.5-3.5 µm merospores. Spore heads form a liquid droplet at maturity. Zygospores are orangish-brown to brown, 19-40 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from France and the United Kingdom (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ; Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). Piptocepalis microcephala can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis minuta Kuzuha, J. Jap. Bot. 51(4): 123 (1976)

MycoBank number: 320533

Notes: According to Benjamin (1985)Benjamin RK. 1985. A new genus of the Piptocephalidaceae (Zoopagales) from Japan. Botanical Journal of the Linnean Society 91: 117-133. doi: 10.1111/j.1095-8339.1985.tb01139.x
https://doi.org/10.1111/j.1095-8339.1985... , this heterothallic species is characterized by the formation of non-striated merosporangiophores with five successive dichotomies, lacking head cells, and merosporangia borne singly on each apex of the ultimate branch, occasionally branched, sustaining 2-5 cylindrical merospores, which are 5-8 × 2-3 µm. Spore heads form a liquid droplet at maturity. Zygospores brown to dark brown, 22-38 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported from soil in Japan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). It has also been reported in Australia, Belarus, Finland, Kyrgyzstan, Russia and the United States of America without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species can parasitize Mortierella humilis (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis moniliformis (R.K. Benj.) N.K. Reynolds, H.M. Ho, Benny & M.E. Sm., in Reynolds, Benny, Ho, Hou, Crous & Smith, Mycologia 111(1): 61 (2019)

MycoBank number: 823737

Notes: According to Benjamin (1985)Benjamin RK. 1985. A new genus of the Piptocephalidaceae (Zoopagales) from Japan. Botanical Journal of the Linnean Society 91: 117-133. doi: 10.1111/j.1095-8339.1985.tb01139.x
https://doi.org/10.1111/j.1095-8339.1985... and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by formation of the non-striated merosporangiophores with 2-3 successive dichotomies, lacking head cells. Merosporangia form irregular chains of merospores produced by acropetal budding, and the chains show a zigzag appearance. Merospores are globose, 3.5-4 µm diam., or doliform with rounded ends, 4-9 × 3.5-6 µm. Spore heads remain dry at maturity; zygospores are orangish-brown, 20-33 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution - This species was previously reported from soil in Japan (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). This species has also been reported in Panama and Thailand without substrate indication (GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ).

Piptocephalis pseudocephala P.M. Kirk, Trans. Br. mycol. Soc. 70(3): 337 (1978)

MycoBank number: 320534

Notes: According to Kirk (1978)Kirk PM. 1978. A new and unusual species of Piptocephalis. Transactions of the British Mycological Society 70: 335-340. doi: 1016/S0007-1536(78)80131-4
https://doi.org/1016/S0007-1536(78)80131... and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this species is characterized by the formation of striate merosporangiophores with 5-7 successive dichotomies, lacking head cells. Merosporangia are borne from subglobose or lobed terminal enlargements on the ultimate merosporangiophore branches, sustaining 8-14 cylindrical merospores, which are 3-6 × 2-2.5 µm. Spore heads remain dry at maturity. Zygospores were not observed.

Habitat and geographic distribution: This species was previously reported on leaf litter from the United Kingdom (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis pseudocephala can parasitize C. recurvatus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Piptocephalis sphaerospora Tiegh., Annls Sci. Nat., Bot., sér. 6 1: 150 (1875)

MycoBank number: 199789

Notes: According Van Tieghem (1875)Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175., this species is characterized by the formation of striate merosporangiophores with 2-3 successive dichotomous branches, globose head cells, merosporangia containing 5-8 globose merospores, which are 2-3 µm in diam. Zygospores were not observed. Spore heads were not indicated in the protolog.

Habitat and geographic distribution: Piptocephalis sphaerospora has been reported on animal dung from France (Van Tieghem 1875Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175.).

Piptocephalis tieghemiana Matr., Bull. Soc. mycol. Fr. 16: 58 (1900)

MycoBank number: 232201

Notes: According to Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by formation of striate merosporangiophores with 4-8 successive dichotomies, globose head cells, and merosporangia sustaining 2-3 cylindrical to doliform merospores, 3.5-7 × 2-3 µm. Spore heads remain dry at maturity. Zygospores are orangish-brown to brown, 24-41 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from India, Pakistan, Taiwan and the United States of America; beetle larvae from Japan; hog feed and lizard eggs from the United States of America and soy sauce from China (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... , Genbank 2022Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov. 10 Jul. 2022.
http://www.ncbi.nlm.nih.gov... ). It has also been reported in the Netherlands and South Africa without substrate indication (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.). It can parasitize C. recurvatus, Lichtheimia ramosa, Mucor hiemalis, M. racemosus and Rhizopus arrhizus (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ).

Piptocephalis unispora R.K. Benj., Mycologia 58(1): 23 (1966)

MycoBank number: 337047

Notes: According to Benjamin (1966)Benjamin RK. 1966. The merosporangium. Mycologia 58: 1-42. doi: 10.1080/00275514.1966.12018294
https://doi.org/10.1080/00275514.1966.12... and Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany., this homothallic species is characterized by formation of striate merosporangiophores with 2-6 successive dichotomies, globose head cells, merosporangia with one obovate or ovate merospore, which is 6-9 × 2-4 µm. Spore heads remain dry at maturity. Zygospores are yellowish-brown to orangish-brown, 5.5-12 µm in diam., with a rough-walled exospore.

Habitat and geographic distribution: This species was previously reported on animal dung from Mexico (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ). Piptocephalis unispora can parasitize C. recurvatus (Gräfenhan 1998).

Key for species of genus Piptocephalis

1. Head cell not formed .................................................................................................. 2

1. Head cell formed ....................................................................................................... 5

2. Merosporangia unbranched ......................................................................................... 3

2. Merosporangia regularly branched or occasionally branched ............................................ 4

3. Merosporangiophores with terminal enlargements on the ultimate branches ............................................................................................................. P. pseudocephala

3. Merosporangiophores without terminal enlargements on the ultimate branches ................................................................................................................... P. benjaminii

4. Merospores moniliform ............................................................................. P. moniliformis

4. Merospores cylindrical ..................................................................................... P. minuta

5. Merospores fusiform ..................................................................................... P. fusispora

5. Merospores not fusiform ............................................................................................. 6

6. Merospores globose ................................................................................ P. sphaerospora

6. Merospores not globose .............................................................................................. 7

7. Spore head forming a liquid droplet at maturity ............................................................. 8

7. Spore head remaining dry at maturity ........................................................................ 16

8. Head cells with multiple lobes ..................................................................................... 9

8. Head cells without multiple lobes ............................................................................... 15

9. Ultimate branches of merosporangiophores curvate ........................................... P. curvata

9. Ultimate branches of merospororangiophores not curvate .............................................. 10

10. Head cells falling at maturity leaving a truncate tip on the ultimate branch of the merosporangiophore ........................................................................................ P. fimbriata

10. Head cells collapsing at maturity but not leaving a truncate tip on the ultimate branch of the merosporangiophore .................................................................................................... 11

11. Merosporangia may contain more than six merospores each ......................................... 12

11. Merosporangia never containing more than six merospores each ................................... 14

12. Ultimate branches often > 40 µm long ............................................................ P. cruciata

12. Ultimate branches usually < 40 µm long .................................................................... 13

13. Fertile branch system consisting of up to 4 successive dichotomies ............. P. macrocephala

13. Fertile branch system consisting of more than 4 successive dichotomies .......... P. freseniana

14. Merospores up to 4 µm long ...................................................................... P. formosana

14. Merospores up to 9 µm long ...................................................................... P. debaryana

15. Head cells globose .............................................................................. P. lemonnieriana

15. Head cells not globose .......................................................................... P. microcephala

16. Head cells heart-shaped .......................................................................................... 17

16. Head cells not heart-shaped ..................................................................................... 18

17. Primary branches of merosporangiophores in whorls of 2-4 .................................. P. indica

17. Primary branches of merosporangiophores never in whorls .............................. P. xenophila

18. Merospores ellipsoidal ............................................................................................. 19

18. Merospores never ellipsoidal .................................................................................... 20

19. Merosporangiophores with longitudinal striations .............................................. P. lepidula

19. Merosporangiophores lacking longitudinal striations .................................... P. graefenhanii

20. Merosporangia unispored ............................................................................. P. unispora

20. Merosporangia multispored ...................................................................................... 21

21. Primary branches of merosporangiophores less than 500 µm in length ........................... 22

21. Primary branches of merosporangiophores more than 500 µm in length ......................... 23

22. Fertile branch system consisting of up to 6 successive dichotomies, merospores doliform to cylindrical .................................................................................................... P. brijmohanii

22. Fertile branch system consisting of more than 6 successive dichotomies, merospores cylindrical ................................................................................................ P. cylindrospora

23. Penultimate branches of branch system with 7 - 20 µm in length, merosporangia 6-11 µm in length ...................................................................................................... P. tieghemiana

23. Penultimate branches of branch system with 15 - 40 µm in length, merosporangia 13-25 µm in length ........................................................................................................... P. arrhiza

Discussion

In this study we considered 24 Piptocephalis species as valid. Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany. considered P. dichotomica, P. fusispora, P. lemonnieriana, P. monospora and P. sphaerospora as doubtful. In Benjamin (1959)Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
https://doi.org/10.5642/aliso.19590402.0... , Gräfenhan (1998) Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.and in this work, P. monospora was not considered as valid because the morphological description by Mangin (1899)Mangin L. 1899. Observations sur la membrane des Mucorinées. Journal de Botanique 13: 209-378. was not informative enough to differentiate this species from other Piptocephalis species. In the same way, P. dichotomica described by Krzemieniewska & Badura (1954)Krzemieniewska H, Badura L. 1954. A contribution to the knowledge of the microorganisms from the litter and soil of the beech-wood. Acta Societatis Botanicorum Polaniae 23: 727-776. was not considered valid in this study. However, morphological features of P. fusispora, P. lemonnieriana and P. sphaerospora are enough to differentiate these species, which is why they were recognized as valid species by Benjamin (1959)Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
https://doi.org/10.5642/aliso.19590402.0... and Zycha et al. (1969)Zycha HR, Siepmann R, Linnemann G. 1969. Mucorales. Germany, Verlag von J. Cramer.. In this study we also considered those species as valid despite the fact that Gräfenhan (1998)Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany. did not.

According to Reynolds et al. (2019)Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis. Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
https://doi.org/10.1080/00275514.2018.15... , species of Piptocephalis formed a well-supported monophyletic group with 25 clades including five still unpublished species. Although they concluded that morphological characters are not phylogenetically informative at the generic level, they are sufficient to separate species of Piptocephalis. Among the main morphological characters for identification of Piptocephalis are the following: spore heads (if they are wet- or dry-spored), head cell shape, striation and ramification of merosporangiophores, including pigmentation, diameter, and texture of zygospores (Benjamin 1959Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
https://doi.org/10.5642/aliso.19590402.0... ; Curtis et al. 1978Curtis FC, Evans GH, Lillis V, Lewis DH, Cooke RC. 1978. Studies on Mucoralean mycoparasites I. Some effects of Piptocephalis species on host growth. New Phytologist 80: 157-165. doi: 10.1111/j.1469-8137.1978.tb02276.x
https://doi.org/10.1111/j.1469-8137.1978... ; Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.). Among the Piptocephalis species it is known that 10 species form wet spore heads. The spore head are easily observed macroscopically in cultures. This structure was not cited in the descriptions of P. fusispora and P. sphaerospora (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Most species of Piptocephalis form striate merosporangiophores, except P. curvata, P. graefenhanii, P. minuta and P. moniliformis. The presence or absence of stolons and rhizoids was used by Van Tieghem (1875)Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175. to classify Piptocephalis species. Nevertheless, absence, presence, shape and size of both structures vary according to the substrate, growth temperature and host (Curtis et al. 1978Curtis FC, Evans GH, Lillis V, Lewis DH, Cooke RC. 1978. Studies on Mucoralean mycoparasites I. Some effects of Piptocephalis species on host growth. New Phytologist 80: 157-165. doi: 10.1111/j.1469-8137.1978.tb02276.x
https://doi.org/10.1111/j.1469-8137.1978... ), thus they should not be used to differentiate Piptocephalis species (Benjamin 1959Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
https://doi.org/10.5642/aliso.19590402.0... ; Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.).

Leadbeater and Mercer (1957)Leadbeater G, Mercer C. 1957. Piptocephalis virginiana sp. nov. Transactions of the British Mycological Society 40: 461-471. doi: 10.1016/S0007-1536(57)80050-3
https://doi.org/10.1016/S0007-1536(57)80... and Benjamin (1959)Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
https://doi.org/10.5642/aliso.19590402.0... also indicated zygospore morphology as an important characteristic for the identification of Piptocephalis species. Nonetheless, this structure has not been observed in P. cruciata, P. lemonnieriana, P. macrocephala, P. pseudocephala and P. sphaerospora. In addition, zygospore formation may require specific conditions, thus we decided not to include zygospore characteristics in our taxonomic key.

To the best of our knowledge, species of Piptocephalis have been reported in 43 countries, in temperate (most species) and tropical zones, with the highest number of species reported in the United States of America (10 species), the United Kingdom (eight), Japan (six), and Taiwan (eight). For 12 countries only one species of Piptocephalis has been documented (Fig. 3). Reynolds et al. (2019)Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis. Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
https://doi.org/10.1080/00275514.2018.15... considered that some Piptocephalis species have a worldwide distribution, while also highlighting the possible endemism of some species. For example, P. cruciata, P. macrocephala, P. pseudocephala, P. sphaerospora and P. unispora have only been reported once and from just one country (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.; GBIF 2022GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org. 15 Jul. 2022.
https://www.gbif.org... ), and the fact that these species have not been found again may suggest that they are endemic in their countries. However, it is difficult to predict whether the majority of the known species belonging to this genus are endemic or not, because inventories of Piptocephalis are rare. This is probably due to the insufficient number of taxonomists specialized in Zoopagales. What we know so far is that all species of Piptocephalis described until March 2023 occur in the temperate zone (Fig. 1), and P. arrhiza, P. benjaminii, P. cruciata, P. fusispora, P. macrocephala, P. microcephala, P. sphaerospora, P. pseudocephala and P. tieghemiana have exclusively been reported in this zone. Fourteen species also occur in the tropical zone but there is no species exclusively observed in the tropics.

Piptocephalis species are mostly reported in soil and dung. However, some species have been reported in leaf litter and other substrates (Gräfenhan 1998Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.). According to Richardson & Leadbeater (1972)Richardson MJ, Leadbeater G. 1972. Piptocephalis fimbriata sp. nov. and observations on the occurrence of Piptocephalis and Syncephalis. Transactions of the British Mycological Society 58: 205-215. doi: 10.1016/S0007-1536(72)80149-9
https://doi.org/10.1016/S0007-1536(72)80... , the frequent occurrence of Piptocephalis species on dung does not correspond to susceptibility of this substrate to mycoparasites, but to the high prevalence of mucoralean fungi that are common hosts of Piptocephalis on dung, which may also be valid for soil and leaf litter.

The low number of species reported in South America is probably related to the scarcity of studies focused on zoopagalean fungi. Herein we report the first occurrence of two Piptocephalis species in South America, both parasitizing Mucor sp. on herbivore dung, contributing to knowledge of these fungi in the tropical zone.

Acknowledgements

We thank the Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) for the scholarships provided to Mateus O. da Cruz and for the research grant provided to André L.C.M. de A. Santiago.

References

Baijal U, Mehrotra BS. 1968. An interesting species of Piptocephalis. Zentralblatt für Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene 122: 181-184.
Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
» https://doi.org/10.5642/aliso.19590402.05
Benjamin RK. 1963. Addenda to “The merosporangiferous Mucorales” II. Aliso 5:273-288. doi: 10.5642/aliso.19630503.07
» https://doi.org/10.5642/aliso.19630503.07
Benjamin RK. 1966. The merosporangium. Mycologia 58: 1-42. doi: 10.1080/00275514.1966.12018294
» https://doi.org/10.1080/00275514.1966.12018294
Benjamin RK. 1985. A new genus of the Piptocephalidaceae (Zoopagales) from Japan. Botanical Journal of the Linnean Society 91: 117-133. doi: 10.1111/j.1095-8339.1985.tb01139.x
» https://doi.org/10.1111/j.1095-8339.1985.tb01139.x
Benny GL. 2008. The methods used by Dr. R.K. Benjamin, and other mycologists to isolate Zygomycetes. Aliso 26: 37-61. doi: 10.5642/aliso.20082601.08
» https://doi.org/10.5642/aliso.20082601.08
Benny GL, Smith ME, Kirk PM, Tretter ED, White MM. 2016. Challenges and future perspectives in the systematics of Kickxellomycotina, Mortierellomycotina, Mucoromycotina and Zoopagomycotina. In: Li DW (ed.) Biology of Microfungi (Fungal Biology). Berlin, Springer. p. 65-126. doi: 10.1007/978-3-319-29137-6_5
» https://doi.org/10.1007/978-3-319-29137-6_5
Curtis FC, Evans GH, Lillis V, Lewis DH, Cooke RC. 1978. Studies on Mucoralean mycoparasites I. Some effects of Piptocephalis species on host growth. New Phytologist 80: 157-165. doi: 10.1111/j.1469-8137.1978.tb02276.x
» https://doi.org/10.1111/j.1469-8137.1978.tb02276.x
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» https://doi.org/10.1016/j.ympev.2019.01.006
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» https://doi.org/10.1016/S0007-1536(54)80021-0
GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org 15 Jul. 2022.
» https://www.gbif.org
Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov 10 Jul. 2022.
» http://www.ncbi.nlm.nih.gov
Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.
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» https://doi.org/10.6165/tai.2003.48(1).53
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» https://doi.org/10.6165/tai.2004.49(3).188
Ho HM. 2006. A new species of Piptocephalis from Taiwan. Botanical Studies 47: 453-456.
Ho HM, Kirk PM. 2009. Piptocephalis formosana, a new spcies from Taiwan. Botanical Studies 50: 69-72.
Indoh H. 1962. Notes on Japonese Mucorales I. Transactions of the Mycological Society of Japan 3: 24-28.
Kirk PM. 1978. A new and unusual species of Piptocephalis Transactions of the British Mycological Society 70: 335-340. doi: 1016/S0007-1536(78)80131-4
» https://doi.org/1016/S0007-1536(78)80131-4
Krzemieniewska H, Badura L. 1954. A contribution to the knowledge of the microorganisms from the litter and soil of the beech-wood. Acta Societatis Botanicorum Polaniae 23: 727-776.
Leadbeater G, Mercer C. 1957. Piptocephalis virginiana sp. nov. Transactions of the British Mycological Society 40: 461-471. doi: 10.1016/S0007-1536(57)80050-3
» https://doi.org/10.1016/S0007-1536(57)80050-3
Mangin L. 1899. Observations sur la membrane des Mucorinées. Journal de Botanique 13: 209-378.
Mehrotra BS. 1960. Studies on Mucorales III: Piptocephalis debaryana sp. nov. Proceedings of the National Academy of Sciences India Section B: Biological Sciences 30: 370-372.
Mehrotra BS, Baijal U. 1964. Piptocephalis indica sp. nov. and Piptocephalis sp. from India. Sydowia 17: 171-173.
Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
» https://doi.org/10.1080/00275514.2018.1538439
Richardson MJ, Leadbeater G. 1972. Piptocephalis fimbriata sp. nov. and observations on the occurrence of Piptocephalis and Syncephalis Transactions of the British Mycological Society 58: 205-215. doi: 10.1016/S0007-1536(72)80149-9
» https://doi.org/10.1016/S0007-1536(72)80149-9
Santiago ALCMA, Trufem SFB, Malosso E, Santos PJP, Cavalcanti MAQ. 2011. Zygomycetes from herbivore dung in the ecological reserve of Dois Irmãos, Northeast Brazil. Brazilian Journal of Microbiology 42: 89-95. doi: 10.1590/S1517-83822011000100012
» https://doi.org/10.1590/S1517-83822011000100012
Tedersoo L, Sáncez-Ramírez S, Kõljalg U et al 2018. High-level classification of the Fungi and a tool for evolutionary ecological analyses. Fungal Diversity 90: 135-159. doi: 10.1007/s13225-018-0401-0
» https://doi.org/10.1007/s13225-018-0401-0
UNITE 2022. Unite community. https://unite.ut.ee/ 10 Jul. 2022.
» https://unite.ut.ee/
Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175.
Vuillemin P. 1902. Les Céphalidẻes section physiologique de la famille des Mucorinẻes. Bulletin de la Société des Sciences de Nancy. France, Nabu Press.
Wijayawardene NN, Hyde KD, Dai DQ et al 2022. Outline of Fungi and fungus-like taxa - 2021. Mycosphere 13: 53-453. doi: 10.5943/mycosphere/13/1/2
» https://doi.org/10.5943/mycosphere/13/1/2
Zycha HR, Siepmann R, Linnemann G. 1969. Mucorales. Germany, Verlag von J. Cramer.

Publication Dates

Publication in this collection
17 Apr 2023
Date of issue
2023

History

Received
04 Oct 2022
Accepted
21 Mar 2023

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] Baijal U, Mehrotra BS. 1968. An interesting species of Piptocephalis. Zentralblatt für Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene 122: 181-184.

[2] Benjamin RK. 1959. The merosporangiferous Mucorales. Aliso 4: 321-433. doi: 10.5642/aliso.19590402.05
» https://doi.org/10.5642/aliso.19590402.05

[3] Benjamin RK. 1963. Addenda to “The merosporangiferous Mucorales” II. Aliso 5:273-288. doi: 10.5642/aliso.19630503.07
» https://doi.org/10.5642/aliso.19630503.07

[4] Benjamin RK. 1966. The merosporangium. Mycologia 58: 1-42. doi: 10.1080/00275514.1966.12018294
» https://doi.org/10.1080/00275514.1966.12018294

[5] Benjamin RK. 1985. A new genus of the Piptocephalidaceae (Zoopagales) from Japan. Botanical Journal of the Linnean Society 91: 117-133. doi: 10.1111/j.1095-8339.1985.tb01139.x
» https://doi.org/10.1111/j.1095-8339.1985.tb01139.x

[6] Benny GL. 2008. The methods used by Dr. R.K. Benjamin, and other mycologists to isolate Zygomycetes. Aliso 26: 37-61. doi: 10.5642/aliso.20082601.08
» https://doi.org/10.5642/aliso.20082601.08

[7] Benny GL, Smith ME, Kirk PM, Tretter ED, White MM. 2016. Challenges and future perspectives in the systematics of Kickxellomycotina, Mortierellomycotina, Mucoromycotina and Zoopagomycotina. In: Li DW (ed.) Biology of Microfungi (Fungal Biology). Berlin, Springer. p. 65-126. doi: 10.1007/978-3-319-29137-6_5
» https://doi.org/10.1007/978-3-319-29137-6_5

[8] Curtis FC, Evans GH, Lillis V, Lewis DH, Cooke RC. 1978. Studies on Mucoralean mycoparasites I. Some effects of Piptocephalis species on host growth. New Phytologist 80: 157-165. doi: 10.1111/j.1469-8137.1978.tb02276.x
» https://doi.org/10.1111/j.1469-8137.1978.tb02276.x

[9] Davis WJ, Amses KR, Benny GL et al 2019. Genome-scale phylogenetics reveals a monophyletic Zoopagales (Zoopagomycota, Fungi). Molecular Phylogenetics and Evolution 133: 152-163. doi: 10.1016/j.ympev.2019.01.006
» https://doi.org/10.1016/j.ympev.2019.01.006

[10] Dobbs CG, English MP. 1954. Piptocephalis xenophila sp. nov. parasitic on non-mucorine hosts. Transactions of the British Mycological Society 70: 335-340. doi: 10.1016/S0007-1536(54)80021-0
» https://doi.org/10.1016/S0007-1536(54)80021-0

[11] GBIF. 2022. Global Biodiversity Information Facility. https://www.gbif.org 15 Jul. 2022.
» https://www.gbif.org

[12] Genbank. 2022. Genbank Overview. http://www.ncbi.nlm.nih.gov 10 Jul. 2022.
» http://www.ncbi.nlm.nih.gov

[13] Gräfenhan T. 1998. Taxonomic revision of the genus Piptocephalis (Fungi). MSc Thesis, University of Greifswald, Germany.

[14] Ho HM. 2003. The merosporangiferous fungi from Taiwan (III): Three new records of Piptocephalidaceae (Zoopagales, Zygomycetes). Taiwania 48: 53-59. doi: 10.6165/tai.2003.48(1).53
» https://doi.org/10.6165/tai.2003.48(1).53

[15] Ho HM. 2004. The merosporangiferous fungi from Taiwan (IV): Two new records of Piptocephalis (Piptocephalidaceae, Zoopagales). Taiwania 49: 188-193. doi: 10.6165/tai.2004.49(3).188
» https://doi.org/10.6165/tai.2004.49(3).188

[16] Ho HM. 2006. A new species of Piptocephalis from Taiwan. Botanical Studies 47: 453-456.

[17] Ho HM, Kirk PM. 2009. Piptocephalis formosana, a new spcies from Taiwan. Botanical Studies 50: 69-72.

[18] Indoh H. 1962. Notes on Japonese Mucorales I. Transactions of the Mycological Society of Japan 3: 24-28.

[19] Kirk PM. 1978. A new and unusual species of Piptocephalis Transactions of the British Mycological Society 70: 335-340. doi: 1016/S0007-1536(78)80131-4
» https://doi.org/1016/S0007-1536(78)80131-4

[20] Krzemieniewska H, Badura L. 1954. A contribution to the knowledge of the microorganisms from the litter and soil of the beech-wood. Acta Societatis Botanicorum Polaniae 23: 727-776.

[21] Leadbeater G, Mercer C. 1957. Piptocephalis virginiana sp. nov. Transactions of the British Mycological Society 40: 461-471. doi: 10.1016/S0007-1536(57)80050-3
» https://doi.org/10.1016/S0007-1536(57)80050-3

[22] Mangin L. 1899. Observations sur la membrane des Mucorinées. Journal de Botanique 13: 209-378.

[23] Mehrotra BS. 1960. Studies on Mucorales III: Piptocephalis debaryana sp. nov. Proceedings of the National Academy of Sciences India Section B: Biological Sciences 30: 370-372.

[24] Mehrotra BS, Baijal U. 1964. Piptocephalis indica sp. nov. and Piptocephalis sp. from India. Sydowia 17: 171-173.

[25] Reynolds NK, Benny GL, Ho H-M, Hou Y-H, Crous PW, Smith ME. 2019. Phylogenetic and morphological analyses of the mycoparasitic genus Piptocephalis Mycologia 111: 54-68. doi: 10.1080/00275514.2018.1538439.
» https://doi.org/10.1080/00275514.2018.1538439

[26] Richardson MJ, Leadbeater G. 1972. Piptocephalis fimbriata sp. nov. and observations on the occurrence of Piptocephalis and Syncephalis Transactions of the British Mycological Society 58: 205-215. doi: 10.1016/S0007-1536(72)80149-9
» https://doi.org/10.1016/S0007-1536(72)80149-9

[27] Santiago ALCMA, Trufem SFB, Malosso E, Santos PJP, Cavalcanti MAQ. 2011. Zygomycetes from herbivore dung in the ecological reserve of Dois Irmãos, Northeast Brazil. Brazilian Journal of Microbiology 42: 89-95. doi: 10.1590/S1517-83822011000100012
» https://doi.org/10.1590/S1517-83822011000100012

[28] Tedersoo L, Sáncez-Ramírez S, Kõljalg U et al 2018. High-level classification of the Fungi and a tool for evolutionary ecological analyses. Fungal Diversity 90: 135-159. doi: 10.1007/s13225-018-0401-0
» https://doi.org/10.1007/s13225-018-0401-0

[29] UNITE 2022. Unite community. https://unite.ut.ee/ 10 Jul. 2022.
» https://unite.ut.ee/

[30] Van Tieghem P. 1875. Nouvelles recherches sur les Mucorinées. Annales des Sciences Naturelles Botanique 1: 5-175.

[31] Vuillemin P. 1902. Les Céphalidẻes section physiologique de la famille des Mucorinẻes. Bulletin de la Société des Sciences de Nancy. France, Nabu Press.

[32] Wijayawardene NN, Hyde KD, Dai DQ et al 2022. Outline of Fungi and fungus-like taxa - 2021. Mycosphere 13: 53-453. doi: 10.5943/mycosphere/13/1/2
» https://doi.org/10.5943/mycosphere/13/1/2

[33] Zycha HR, Siepmann R, Linnemann G. 1969. Mucorales. Germany, Verlag von J. Cramer.

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