State of the art of identification of eggs and larvae of freshwater fish in Brazil

Reynalte-Tataje, David Augusto; Lopes, Carolina Antonieta; Massaro, Marthoni Vinicius; Hartmann, Paula Betina; Sulzbacher, Rosalva; Santos, Joyce Andreia; Bialetzki, Andréa

doi:10.1590/S2179-975X5319

Abstract:

Aim

This study aimed to assist in guiding research with eggs and larvae of continental fish in Brazil, mainly in the knowledge of the early development, as well as to present the state of the art and to point out the gaps and future directions for the development of researches in the area.

Methods

The literature review was carried out in the electronic platforms and studies were examined to investigate whether any addressed morphological description of fish eggs and/or larvae.

Results

We found 121 studies, including scientific articles, theses, dissertations, chapters of books and books. This bibliographic production characterized 140 species, representing only 4.1% of the total species present in the Brazilian basins. Most of the species studied belong to the orders Characiformes and Siluriformes, which are of commercial interest and native to the Paraná, Amazon, Paraguay and Uruguay basins. For some very species-rich families in the Brazilian rivers, such as Characidae and Loricariidade, only a fraction of their species was characterized for the early development (2.6% and 0.7% of the total, respectively) and 56% of the families did not present any study addressing the early ontogeny. Regarding the content of the descriptions, for 73 species, there is characterization of the embryonic period and for 62, there is description of the whole larval period. For only 41 species there were complete descriptions (embryonic and larval) of the early development. All of these studies were conducted mainly with material derived from induced spawning and material obtained in the field (regressive series).

Conclusions

The characterization of eggs and larvae, still presents few studies, limited mainly to species from the rivers of the Plata and Amazon basins, to studies of fish of commercial importance and the incompleteness of most of these studies is still outstanding.

Keywords:
ichthyoplankton; ontogeny; neotropical region; stages of development

Resumo:

Objetivo

O objetivo do estudo é auxiliar no direcionamento das pesquisas no Brasil com ovos e larvas de peixes continentais, principalmente quanto ao conhecimento do desenvolvimento inicial, bem como apresentar o estado da arte e apontar as lacunas e direcionamentos futuros para o desenvolvimento das pesquisas na área.

Métodos

O levantamento da produção bibliográfica foi realizado através das plataformas eletrônicas e examinadas com o intuito de averiguar se abordava alguma descrição morfológica de ovos e/ou larvas de peixes.

Resultados

Foram encontrados 121 estudos, entre artigos científicos, teses, dissertações, capítulos de livros e livros. Nessa produção bibliográfica foram caracterizadas 140 espécies o que representa apenas 4,1% do total de espécies presentes nas bacias brasileiras. A maior parte das espécies estudadas pertencem às ordens Characiformes e Siluriformes, que apresentam interesse comercial e que são nativas das bacias Paraná, Amazônica, Paraguai e Uruguai. Para algumas famílias muito ricas em espécies nos rios brasileiros como p.e., Characidae e Loricariidade, apenas uma fração de suas espécies foram caracterizadas quanto ao desenvolvimento inicial (2,6% e 0,7% do total, respectivamente) e 56% das famílias não apresentam nenhum estudo que aborda a ontogenia inicial. Com relação ao conteúdo das descrições, para 73 espécies há caracterização do período embrionário e 62 apresentaram todo o seu período larval descrito. Apenas para 41 espécies foram encontradas descrições completas (embrionário e larval) do desenvolvimento inicial. Todos estes estudos foram realizados principalmente, com material proveniente de desova induzida e material obtido em campo (série regressiva).

Conclusões

Podemos concluir que a caracterização de ovos e larvas apresenta ainda poucos estudos, limitados principalmente a espécies que habitam os rios da Bacia do Plata e Amazônica, aos estudos de peixes de importância comercial e onde se destaca ainda a incompletude da maior parte destes trabalhos.

Palavras-chaves:
ictioplâncton; ontogenia; região neotropical; estágios de desenvolvimento

1. Introduction

Accurate identification of the early stages of fish development is an important step in the study of fish ecology or fishery biology, however, due to the drastic morphological transformations (metamorphosis) that most species suffer from the earliest larval stages to juvenile formation, many individuals are erroneously identified.

In continental environments, the initial development of fish is a process that can last for days or weeks and larvae generally have between 1.0 and 8.0 mm (total length) at hatching, and can reach until the end of its development (juvenile period) between 10 and 40 mm (Nakatani et al., 2001NAKATANI, K., AGOSTINHO, A.A., BAUMGARTNER, G., BIALETZKI, A., SANCHES, P.V., MAKRAKIS, M.C. and PAVANELLI, C.S. Ovos e larvas de peixes de Água doce: desenvolvimento e manual de identificação. Maringá: Eduem, 2001.; Reynalte-Tataje & Zaniboni-Filho, 2008REYNALTE-TATAJE, D.A. and ZANIBONI-FILHO, E. Biologia e identificação de ovos e larvas de peixes do alto rio Uruguai, Brasil. In: ZANIBONI-FILHO, E. and NUÑER, A.P.O., eds. Reservatório de Itá: Estudos ambientais, desenvolvimento de tecnologias de cultivo e conservação da Ictiofauna. 1st ed. Florianópolis: Editora da UFSC, 2008, pp. 139-154.). During this period, larvae often have few similarities with adults, for two reasons: (i) either because they are partially or incompletely developed, they do not have the same morphological structures found in adults, such as Pimelodidae larvae, which upon hatching usually do not present barbells, characteristic of the adults of this family, or (ii) because they present specializations totally different from their parents, resulting in the presence of morphological characteristics that resemble very little or nothing at all the adults (Nakatani et al., 2001NAKATANI, K., AGOSTINHO, A.A., BAUMGARTNER, G., BIALETZKI, A., SANCHES, P.V., MAKRAKIS, M.C. and PAVANELLI, C.S. Ovos e larvas de peixes de Água doce: desenvolvimento e manual de identificação. Maringá: Eduem, 2001.), as is the case of the darter characin, Apareiodon affinis (Steindachner, 1879), which has terminal mouth at the beginning of the larval stage when it feeds on algae, and inferior mouth, in the juvenile period, when it begins to feed on periphyton (Santin et al., 2009SANTIN, M., BIALETZKI, A. and NAKATANI, K. Mudanças ontogênicas no trato digestório e dieta de Apareiodon affinis (Steindachner, 1879) (Osteichthyes, Parodontidae). Acta Scientiarum. Biological Sciences, 2009, 26(3), 291-298.).

In Brazil, despite having one of the highest diversity of freshwater fish species in the world (Froese & Pauly, 2018FROESE, R. and PAULY, D. Fishbase. World Wide Web electronic publication Version (02/2019) [online]. Stockholm, Sweden: Fishbase, 2018 [viewed 10 Nov 2018]. Available from: http://www.fishbase.org.
http://www.fishbase.org... ), studies on egg systematics are almost non-existent and on larvae, are incipient and only for few species their initial stages of development are known (Bialetzki et al., 2016BIALETZKI, A., ORSI, M.L. and GARCIA, D.A.Z. O estudo de ovos e larvas de peixes. In: M.L. ORSI, A.C. SWARÇA, A. CLARO-GARCÍA, N.C. VIANNA, D.A.Z. GARCIA and A. BIALETZKI, eds. Ovos, Larvas e Juvenis dos peixes da bacia do Rio Paranapanema: uma avaliação para a conservação. 1st ed. São Paulo: Triunfal Gráfica e Editora, 2016, pp. 17-24.). In most cases, morphological descriptions are of a specific nature, and are scattered in isolated and/or of restricted access publications and are often incomplete (Nakatani et al., 2001NAKATANI, K., AGOSTINHO, A.A., BAUMGARTNER, G., BIALETZKI, A., SANCHES, P.V., MAKRAKIS, M.C. and PAVANELLI, C.S. Ovos e larvas de peixes de Água doce: desenvolvimento e manual de identificação. Maringá: Eduem, 2001.). Thus, the objective of this study was to perform a scientometric analysis of the studies involving the characterization of the early development of freshwater fish in Brazil. Specifically, it is intended: (i) to survey the means of dissemination of scientific production, as well as their periodicity; (ii) to evaluate the number of studies per hydrographic region; (iii) to know the species whose early morphological development was described in the literature and (iv) to check the methods most used to obtain material for such studies. Our expectation is to present the state of the art on the knowledge of the early ontogeny of the Brazilian continental species, as well as to point out the gaps and future directions for the advance of researches in the area.

2. Material and Methods

The study was performed between November 2018 and February 2019 in ichthyoplankton biology books and electronic platforms: Periódicos Capes, Science Direct and Google Scholar, and all the bibliographic production found was examined to check for information on the early development of eggs and/or larvae of fish native to Brazil.

The key-words used in the searches in English, Portuguese and Spanish were: “ontogenetic”, “embryonic development”, “early life fish” and “larval development”, “Neotropical freshwater”, besides the Brazilian hydrographic regions established by the National Council of Hydrographic Resources - CNRH (Brasil, 2003BRASIL. Ministério do Meio Ambiente. Conselho Nacional de Recursos Hídricos. Resolução nº 32, de 15 de outubro de 2003. Considerando a necessidade de se implementar base de dados referenciada por bacia, em âmbito nacional, visando a integração das informações em recursos hídricos. Diário Oficial da União [da] República Federativa do Brasil. Brasília, DF, 17 dez. 2003.): Amazon, Tocantins/Araguaia, Western Northeast Atlantic, Eastern Northeast Atlantic, Parnaíba, East Atlantic, São Francisco, Southeast Atlantic, South Atlantic, Paraná, Uruguay and Paraguay hydrographic regions.

Each reference was analyzed and inserted in a spreadsheet which included the following information: type of production (scientific article, dissertation or thesis and chapter of book or book), year of publication, species name, family and order (Reis et al., 2003REIS, R.E., KULLANDER, S.O. and FERRARIS, C.J. Check list of the freshwater fishes of South and Central America. Porto Alegre: Edipucrs, 2003.; Fricke et al., 2019FRICKE, R., ESCHMEYER, W.N. and VAN DER LAAN, R. Catalog of fishes: Genera, Species, References. San Francisco: California Academy of Sciences, 2019 [viewed 22 Mar. 2019]. Available from: http://researcharchive.calacademy.org/icthyology/catalog/fishcatmain.asp.
http://researcharchive.calacademy.org/ic... ), hydrographic region of origin, commercial importance (Godinho, 2007GODINHO, H.P. Estratégias reprodutivas de peixes aplicadas à aqüicultura: bases para o desenvolvimento de tecnologias de produção. Revista Brasileira de Reprodução Animal, 2007, 31(3), 351-360.; Baldisserotto & Gomes 2010BALDISSEROTTO, B. and GOMES, L.C. Espécies nativas para piscicultura no Brasil. Santa Maria: Editora da UFSM, 2010.; Valladão et al., 2018VALLADÃO, G.M.R., GALLANI, S.U. and PILARSKI, F. South American fish for continental aquaculture. Reviews in Aquaculture, 2018, 10(2), 351-369. http://dx.doi.org/10.1111/raq.12164.
http://dx.doi.org/10.1111/raq.12164... ) and the presence or absence of images (photos and/or illustrations), as well as the presence or absence of images (photos and/or illustrations) of eggs or larvae at any stage of development (yolk-sac, pre-flexion, flexion or post-flexion; sensu Nakatani et al., 2001NAKATANI, K., AGOSTINHO, A.A., BAUMGARTNER, G., BIALETZKI, A., SANCHES, P.V., MAKRAKIS, M.C. and PAVANELLI, C.S. Ovos e larvas de peixes de Água doce: desenvolvimento e manual de identificação. Maringá: Eduem, 2001.).

Information on the methodology used to obtain the collections were also extracted and classified into RS - regressive series (material obtained in the field; but fixed), LI - live ichthyoplankton (material obtained in the field and kept fresh) and IS - induced spawning.

3. Results

In the electronic platforms, from 1977 to 2018, we found 121 references among scientific articles, dissertations, theses, chapters of books and books related to the morphological characterization of freshwater fish eggs and/or larvae of Brazil. Most of the studies were published as a scientific article (Figure 1) and over the years, there was a growing increase in the number of publications, significant from the year 2009 (Figure 2) although the first peak of production occurred in 2001.

Figure 1
Types of bibliographic production containing morphological descriptions of eggs and/or larvae of freshwater fish in Brazil produced between 1977 and 2018.

Figure 2
Number of publications produced containing morphological descriptions of eggs and larvae of freshwater fish in Brazil between 1977 and 2018.

Most of the studies were developed with species inhabiting the hydrographic regions of the South and Southeast of Brazil, such as those of the Paraná, Paraguay and Uruguay basins, with 70, 46 and 45 species, respectively. The Amazon basin, with 59 species, was the second region in number of studies with morphological characterization (Figure 3).

Figure 3
Number of freshwater fish species described as to their early development (eggs and/or larvae) in the different Brazilian river basins between 1977 and 2018. PR: Paraná; AM: Amazon; PA: Paraguay; UR: Uruguay; SF: São Francisco; AS: Southeast Atlantic; AL: East Atlantic; ANOR: Eastern Northeast Atlantic; ANOC: Western Northeast Atlantic; ASU: South Atlantic; TA: Tocantins-Araguaia and PB: Parnaíba.

Studies on the morphological characterization of the early development of fish were carried out with 140 species, most belonging to the order Characiformes (74 species) and Siluriformes (48 species). For some species, more than one study was found, such as Prochilodus lineatus (Valenciennes, 1837; eight studies) and Pimelodus maculatus (Lacepède, 1803; nine studies). Among the species studied, 51 (36.0%) are of commercial importance (Table 1).

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Table 1
Brazilian continental fish species with characterization of their early development.

By relating the number of species that have their early development described (140) with the number of species described for the same family, it is observed that for the great majority of freshwater fish families in Brazil there is a huge gap in the studies. For some families with a high number of species such as Characidae and Loricariidae, only a fraction of their species was described for the early development (2.6% and 0.7% of the total, respectively). It is still possible to verify that of the 67 fish families present in Brazilian continental waters, more than 56.0% do not present any study that approaches the early ontogeny (Figure 4).

Figure 4
Fish families present in Brazilian continental waters and percentage of the number of species with early development described in the literature.

Regarding the content of the descriptions, only for 73 species there is characterization of the embryonic period. On the other hand, for 66 species, there is characterization of at least one of their larval developmental stages, and for 62, there is description of the whole larval period. Only for 41 species, most with some commercial interest, there are complete descriptions (embryonic and larval) of the early development (Table 1). All these studies were carried out mainly with material from induced spawning and regressive series (Table 1).

4. Discussion

Studies with larvae of Brazilian freshwater fish are relatively recent. According to Bialetzki et al. (2016)BIALETZKI, A., ORSI, M.L. and GARCIA, D.A.Z. O estudo de ovos e larvas de peixes. In: M.L. ORSI, A.C. SWARÇA, A. CLARO-GARCÍA, N.C. VIANNA, D.A.Z. GARCIA and A. BIALETZKI, eds. Ovos, Larvas e Juvenis dos peixes da bacia do Rio Paranapanema: uma avaliação para a conservação. 1st ed. São Paulo: Triunfal Gráfica e Editora, 2016, pp. 17-24., the first studies were performed concomitantly in the Amazon and Paraná basins in the 1980s, resulting in descriptions of the early development of Semaprochilodus insignis (Jardine, 1841) (Araújo-Lima, 1985ARAÚJO-LIMA, C. Aspectos biológicos de peixes amazônicos. V. Desenvolvimento larval do jaraqui-escama grossa, Semaprochilodus insignis (Characiformes, Pisces) da Amazônia Central. Revista Brasileira de Biologia, 1985, 45(4), 423-431.) and Catathyridium jenynsii (Günther, 1862), Hypophthalmus edentatus (Spix, 1829) and Plagioscion squamosissimus (Heckel, 1840) (Nakatani et al., 1997NAKATANI, K., BAUMGARTNER, G. and BAUMGARTNER, M.S. Larval development of Plagioscion squamisissimus (Heckel) (Perciformes, Sciaenidae) of Itaipu Reservoir (Paraná River, Brazil). Revista Brasileira de Zoologia, 1997, 14(1), 35-44. http://dx.doi.org/10.1590/S0101-81751997000100003.
http://dx.doi.org/10.1590/S0101-81751997... ; 1998NAKATANI, K., BAUMGARTNER, G. and LATINI, J.D. Morphological description of larvae of the Mapará Hypophthalmus edentatus (Spix) (Osteichthyes, Hypophthalmidae) in the Itaipu reservoir (Parana River, Brazil). Revista Brasileira de Zoologia, 1998, 15(3), 687-696. http://dx.doi.org/10.1590/S0101-81751998000300013.
http://dx.doi.org/10.1590/S0101-81751998... ). However, a major breakthrough in research came in 2001 with the publication of several articles describing ichthyoplankton and especially the publication of the book Ovos e larvas de peixes de água doce: desenvolvimento e manual de identificação (Nakatani et al., 2001NAKATANI, K., AGOSTINHO, A.A., BAUMGARTNER, G., BIALETZKI, A., SANCHES, P.V., MAKRAKIS, M.C. and PAVANELLI, C.S. Ovos e larvas de peixes de Água doce: desenvolvimento e manual de identificação. Maringá: Eduem, 2001.), which included the morphological description of eggs, larvae and juveniles of 62 species present in several Brazilian watersheds. This book was responsible for the increase of in situ studies of the ichthyoplankton community, since the identification of the material was compromised by the lack of taxonomic support. In addition, it served as an incentive for contemporary researchers to produce new descriptions, as evidenced by the increase in the number of articles, but also the occurrence of dissertations/theses and chapters of books/books from this publication.

Nevertheless, the significant step taken in 2001, mainly by the team of PhD. Keshiyu Nakatani, has not yet resulted in a ‘big step’ for the effective development of the area, given the very low number of descriptions. There are 3,417 species of fish recorded in Brazilian continental waters (Froese & Pauly, 2019) and only 140 or 4.1% had their early development known and described in the literature. Possibly, the incipient state of knowledge of ichthyoplankton in Brazil is mainly related to the difficulties inherent to its study, such as the large number of species with high similarity during early development, the small number of experts working in this area, the lack of resources and the limited number of teaching and research institutions working with ichthyoplankton.

The scarcity of studies that detail the morphological and meristic characteristics of eggs and larvae, as well as identification keys negatively influence the surveys, monitoring and management studies. Many studies carried out with an ichthyoplankton community in different environments face the difficulty of identification at lower taxonomic levels and an expressive portion of this community is categorized only at the family level, mainly Anostomidae, Characidae and Pimelodidae (Oliveira & Ferreira, 2008OLIVEIRA, E.C. and FERREIRA, E.J.G. Spawning areas, dispersion and microhabitats of fish larvae in the Anavilhanas Ecological Station, rio Negro, Amazonas State, Brazil. Neotropical Ichthyology, 2008, 6(4), 559-566. http://dx.doi.org/10.1590/S1679-62252008000400003.
http://dx.doi.org/10.1590/S1679-62252008... ; Tondato et al., 2010TONDATO, K.K., MATEUS, L.A.F. and ZIOBER, S.R. Spatial and temporal distribution of fish larvae in marginal lagoons of Pantanal, Mato Grosso State, Brazil. Neotropical Ichthyology, 2010, 8(1), 123-134. http://dx.doi.org/10.1590/S1679-62252010005000002.
http://dx.doi.org/10.1590/S1679-62252010... ; Ziober et al., 2012ZIOBER, S.R., BIALETZKI, A. and MATEUS, L.A.F. Effect of abiotic variables on fish eggs and larvae distribution in headwaters of Cuiabá River, Mato Grosso State, Brazil. Neotropical Ichthyology, 2012, 10(1), 123-132. http://dx.doi.org/10.1590/S1679-62252012000100012.
http://dx.doi.org/10.1590/S1679-62252012... ; Lima et al., 2013LIMA, A.F., MAKRAKIS, M.C., SILVA, P.S., AZEVEDO, A.V., MAKRAKIS, S., ASSUMPÇÃO, L., ANDRADE, F.F. and DIAS, J.H.P. Padrões de distribuição e ocorrência espaço-temporal de ovos e larvas de peixes nos rios Pardo e Anhanduí, bacia do alto rio Paraná, Brasil. Revista Brasileira de Biociências, 2013, 11(1), 7-13.; Ziober et al., 2015ZIOBER, S.R., REYNALTE-TATAJE, D.A. and ZANIBONI-FILHO, E. The importance of a conservation unit in a subtropical basin for fish spawning and growth. Environmental Biology of Fishes, 2015, 98(2), 725-737. http://dx.doi.org/10.1007/s10641-014-0307-y.
http://dx.doi.org/10.1007/s10641-014-030... ; Silva et al., 2017SILVA, J.C., ROSA, R.R., GALDIOLI, E.M., SOARES, C.M., DOMINGUES, W.M., VERÍSSIMO, S. and BIALETZKI, A. Importance of dam-free stretches for fish reproduction: The last remnant in the Upper Paraná River. Acta Limnologica Brasiliensia, 2017, 29(0), e106. http://dx.doi.org/10.1590/s2179-975x10216.
http://dx.doi.org/10.1590/s2179-975x1021... ). This is especially severe in megadiverse basins such as the Amazon and São Francisco, where the scarcity of this type of study is remarkable if we observe the ratio between the number of species studied/the number of species present in the basin.

It is clear the need for studies that characterize embryonic and larval development, detailing morphological characteristics such as body shape, pigmentation, measurements and counts that help identify species, as well as comparative studies showing differences between similar species. This approach cannot be restricted to species of commercial interest which, because of their greater ease in obtaining the breeders has presented a greater number of publications. Also, because the absence of a study of fish of lesser commercial importance influences the accuracy in the identification of all species due to the “doubt” generated by not knowing how the eggs and larvae of these species are and whether they can be the same or similar to those already known in the literature.

Among the tools that can be used to conduct egg and larval characterization studies, we highlight three: 1. The use of induced reproduction; 2. The methodology of live ichthyoplankton (Reynalte-Tataje & Zaniboni-Filho, 2008REYNALTE-TATAJE, D.A. and ZANIBONI-FILHO, E. Biologia e identificação de ovos e larvas de peixes do alto rio Uruguai, Brasil. In: ZANIBONI-FILHO, E. and NUÑER, A.P.O., eds. Reservatório de Itá: Estudos ambientais, desenvolvimento de tecnologias de cultivo e conservação da Ictiofauna. 1st ed. Florianópolis: Editora da UFSC, 2008, pp. 139-154.) and 3. The regressive series method (Ahlstrom & Moser, 1976AHLSTROM, E.H. and MOSER, H.G. Eggs and Larvae of Fishes and their role in systematic investigations and in fisheries. Revue des Travaux de l’Institut des Pêches Maritimes, 1976, 40(1), 379-398.). The first consists of obtaining a breeding stock and the use of gonadotropic hormones or environmental stimuli that induce reproduction. This tool, despite being used constantly in species of commercial interest, can be used in other species, perhaps with some variants in the hormonal dosages and stimuli.

The second method consists of the capture of the eggs and/or larvae in the environment, followed by the maintenance of the individuals in the laboratory during the development. This allows the characterization of all the stages until the juvenile period. In this case, it is necessary the availability of infrastructure to receive the organisms, the advanced knowledge of the researchers in incubation and fish larviculture techniques and the use of anesthetics, such as clove oil, to be able to carry out the characterization of the species in each stage of the embryonic and larval development, without the need to sacrifice the animal. This method can be an efficient alternative for rare species where there is the difficulty of making the breeding stock or even at institutions that lack facilities for their maintenance. A great problem for the execution of methods 1 and 2 is the feeding of larvae, since little is known about this aspect, mainly for the first stages of development. A factor that worsens when some species during larval metamorphosis also change the feeding behavior (Reynalte-Tataje & Zaniboni-Filho, 2008REYNALTE-TATAJE, D.A. and ZANIBONI-FILHO, E. Biologia e identificação de ovos e larvas de peixes do alto rio Uruguai, Brasil. In: ZANIBONI-FILHO, E. and NUÑER, A.P.O., eds. Reservatório de Itá: Estudos ambientais, desenvolvimento de tecnologias de cultivo e conservação da Ictiofauna. 1st ed. Florianópolis: Editora da UFSC, 2008, pp. 139-154.), or due to the difficulty of obtaining the food, such as the larviculture of Salminus brasiliensis (Cuvier, 1816), which only eats larvae of fish with great voracity, and can eat for example on the fifth day of life more than 41 larvae (Weingartner et al., 2003WEINGARTNER, M., REYNALTE-TATAJE, D.A. and ZANIBONI-FILHO, E. Determinacion del consumo diário de larvas forrajeras de curimbatá (Prochilodus lineatus) por larva de dourado (Salminus brasiliensis) durante la fase inicial de larvicultura. In: VII Simpósio Colombiano de Ictiologia. Monteria, Colombia: Universidad de Córdoba, 2003, pp. 96-96.).

The regressive series method is also widely used since it takes advantage of the organisms collected in nature in the survey/monitoring studies to assemble a collection. This method is particularly useful for species with well-defined morphological and meristic characteristics, but it is not useful when the species are very similar or when the studied environment presents a very great diversity of species, as in the Amazon. Moreover, this method depends on a large number of samples and only applies to larvae and not to eggs, which makes unfeasible a complete collection of eggs and larvae. The combined use of these three methods can be a valuable tool for making a complete sequence of species development, especially highlighting the combined use of methods 2 and 3, since the use of method 1 generally tends to give a complete sequence of all without the need of others.

In view of the difficulties presented, a complementary alternative for the identification of eggs and larvae is the use of genetic methods (Becker et al., 2015BECKER, R.A., SALES, N.G., SANTOS, G.M., SANTOS, G.B. and CARVALHO, D.C. DNA barcoding and morphological identification of neotropical ichthyoplankton from the Upper Paraná and São Francisco. Journal of Fish Biology, 2015, 87(1), 159-168. http://dx.doi.org/10.1111/jfb.12707. PMid:25988313.
http://dx.doi.org/10.1111/jfb.12707... ; Frantine-Silva et al., 2015FRANTINE-SILVA, W., SOFIA, S.H., ORSI, M.L. and ALMEIDA, F.S. DNA barcoding of freshwater ichthyoplankton in the Neotropics as a tool for ecological monitoring. Molecular Ecology Resources, 2015, 15(5), 1226-1237. http://dx.doi.org/10.1111/1755-0998.12385. PMid:25655460.
http://dx.doi.org/10.1111/1755-0998.1238... ; Almeida et al., 2018ALMEIDA, F.S., FRANTINE-SILVA, W., LIMA, S.C., GARCIA, D.A.Z. and ORSI, M.L. DNA barcoding as a useful tool for identifying non-native species of freshwater ichthyoplankton in the neotropics. Hydrobiologia, 2018, 817(1), 111-119. http://dx.doi.org/10.1007/s10750-017-3443-5.
http://dx.doi.org/10.1007/s10750-017-344... ). In the absence of studies that characterize eggs and larvae in a particular environment or in the presence of rare and cryptic species that are morphologically similar but genetically distinct or for the identification of larval yolk, at which many species share meristic and morphometric characteristics, where the use of the traditional method of identification is limited, the use of genetic methods such as DNA barcoding cannot be ruled out. This technique, based on the DNA barcode that evaluates the genetic distances between sibling species (Pradhan et al., 2015PRADHAN, V., KAMBLE, Y., LADNIYA, V. and MOGUL, M.A. overview of species identification by DNA barcoding. International Journal of Current Microbiology and Applied Sciences, 2015, 4(4), 127-140.), can be an important tool when the task of identifying ichthyoplankton organisms is not feasible or there is a very low degree of confidence in the traditional method.

Finally, we can conclude that although the ichthyoplankton area is extremely important in fish ecology, its keystone, which is the characterization of eggs and larvae, is still little studied, being limited mainly to the basins of the Plata: Paraná, Paraguay and Uruguay and fish of commercial importance. Thus, actions to solve the question of knowledge about the early ontogeny of the continental species of Brazil are urgent and relevant for the development of satisfactory research on fish ecology and fisheries biology. As an immediate action we suggest (1) a joint effort among the researchers of the area to increase the number of publications on the early ontogeny, starting with those that are known, but are not described in the literature; and in the medium term: (2) Creation of programs and/or partnerships between research institutions and agencies or companies working with induced reproduction and larviculture, seeking to establish protocols to obtain collections, mainly of species without commercial interest; (3) Inclusion of genetic analyses in projects developed in the field; and (4) Training of new researchers, either through undergraduate or graduate academic work or mini-courses or courses. With the fulfillment of these actions, our expectation is an expressive increase in the number of publications in the coming years, as well as in the number of researchers who want to explore this area still poorly explored in Brazil.

Cite as: Reynalte-Tataje, D. A. et al. State of the art of identification of eggs and larvae of freshwater fish in Brazil. Acta Limnologica Brasiliensia, 2020, vol. 32, e6.

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Publication Dates

Publication in this collection
27 Apr 2020
Date of issue
2020

History

Received
28 Apr 2019
Accepted
12 Mar 2020

This is an Open Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] Cite as: Reynalte-Tataje, D. A. et al. State of the art of identification of eggs and larvae of freshwater fish in Brazil. Acta Limnologica Brasiliensia, 2020, vol. 32, e6.

Species	HR	Egg	Larvae		MU
Species	HR	Egg	L	C	MU
CHARACIFORMES
Acestrorhynchidae
Heterocharax macrolepis Eigenmann, 1912	a		X		IS
Anostomidae
Leporinus agassizii Steindachner, 1876	a	X			IS
Leporinus amblyrhynchus Garavello & Britski, 1987	h		X		RS
Leporinus copelandii Steindachner, 1875	e	X			IS
Leporinus friderici (Bloch, 1794)	a	X		X	IS/RS
Leporinus octofasciatus Steindachner, 1915	h	X			RS
Leporinus piau Fowler, 1941	c	X			IS
Leporinus steindachneri Eigenmann, 1907	d	X	X		IS
Megaleporinus piavussu (Britski, Birindelli & Garavello, 2012)	h		X		RS
Megaleporinus macrocephalus (Garavello & Britski, 1988)	g	X		X	IS
Megaleporinus obtusidens (Valenciennes, 1837)*	f,g,h,i,j,l	X		X	IS/RS
Megaleporinus elongatus (Valenciennes, 1850)*	d	X	X		IS
Schizodon borellii (Boulenger, 1900)	g	X	X		IS
Schizodon fasciatus Spix & Agassiz, 1829	a	X		X	IS
Schizodon nasutus Kner, 1858	g,h,l	X		X	IS
Bryconidae
Brycon amazonicus (Agassiz, 1829)*	a	X	X		IS
Brycon gouldingi Lima, 2004	k	X	X		IS
Brycon hilarii (Valenciennes, 1850)	a,g,h			X	RS
Brycon insignis Steindachner, 1877	e	X		X	RS
Brycon nattereri Günther, 1864	h,j	X		X	IS
Brycon orbignyanus (Valenciennes, 1850)	h,l	X		X	IS
Brycon orthotaenia Günther, 1864	j	X		X	IS
Salminus brasiliensis (Cuvier, 1816)*	a,g,h,l	X		X
Salminus franciscanus Lima & Britski, 2007*	j	X		X	IS
Salminus hilarii Valenciennes, 1850	a,h,j,k	X		X	IS
Characidae
Aphyocharax cf. anisitsi	h,l		X		RS
Astyanax lacustris (Lütken, 1875)	e,f,h,l	X		X	RS
Astyanax gr. scabripinnis	d	X			RS
Bryconamericus iheringii (Boulenger, 1887)	f,g,l			X	RS/LI
Gymnocorymbus ternetzi (Boulenger, 1895)	g	X		X	IS
Hemigrammus marginatus Ellis, 1911	a,d,g,h,j		X		RS
Hyphessobrycon anisitsi (Eigenmann, 1907)	h,l	X		X	IS
Hyphessobrycon eques (Steindachner, 1882)	a,h			X	IS/RS
Knodus moenkhausii (Eigenmann & Kennedy, 1903)	a		X		RS
Moenkhausia cf. gracilima	A		X		RS
Moenkhausia intermedia Eigenmann, 1908	a,g,h,l		X		RS
Moenkhausia pittieri Eigenmann, 1920				X	IS
Moenkhausia sanctaefilomenae (Steindachner, 1907)	e,g,h,j,l	X		X
Paracheirodon axelrodi (Schultz, 1956)	a	X	X		IS
Paracheirodon innesi (Myers, 1936)	a			X	IS
Piabarchus stramineus (Eigenmann, 1908)	g,h,j,l		X		RS
Roeboides descalvadensis Fowler, 1932	a,g,h		X		RS
Curimatidae
Curimatella lepidura (Eigenmann & Eigenmann, 1889)	j	X
Potamorhina altamazonica (Cope, 1878)	a		X		IS
Psectrogaster amazonica Eigenmann & Eigenmann, 1889	a,k			X	IS
Steindachnerina brevipinna (Eigenmann & Eigenmann, 1889)	g,h,l	X	X		IS
Steindachnerina elegans (Steindachner, 1875)	d,j	X
Cynodontidae
Rhaphiodon vulpinus Spix & Agassiz, 1829	a,g,h,l			X	IS
Erytrinidae
Hoplerythrinus unitaeniatus (Spix & Agassiz, 1829)	a,h,j	X			IS
Hoplias aff. malabaricus*	b,c	X	X		RS
Hoplias lacerdae Miranda Ribeiro, 1908	e,h,l	X		X	IS/RS
Gasteropelecidae
Thoracocharax stellatus (Kner, 1858)	a,h		X		RS
Lebiasinidae
Pyrrhulina australis Eigenmann & Kennedy, 1903	g,h,l		X		IS
Parodontidae
Apareiodon affinis (Steindachner, 1879)	g,h,l		X		RS/LI
Apareiodon vittatus Garavello, 1977	h			X	RS
Prochilodontidae
Prochilodus argenteus Spix & Agassiz, 1829*	j	X		X	IS
Prochilodus brevis Steindachner, 1875*	b,c,j	X		X	IS
Prochilodus costatus Valenciennes, 1850*	d,j	X		X	IS
Prochilodus harttii Steindachner, 1875*	d	X	X		IS
Prochilodus lineatus (Valenciennes, 1837)*	e,g,h,l	X		X	IS/RS
Prochilodus vimboides Kner, 1859*	d,e	X		X	IS
Semaprochilodus insignis (Jardine, 1841)*	a		X		RS
Serrasalmidae
Colossoma macropomum (Cuvier, 1816)*	a	X		X	IS
Mylossoma duriventre (Cuvier, 1818)	a		X		RS
Myloplus tiete (Eigenmann & Norris, 1900)	g,h		X		RS
Piaractus brachypomus (Cuvier, 1818)*	a	X	X		IS
Piaractus mesopotamicus (Holmberg, 1887)*	g,h,l	X		X	IS/RS
Serrasalmus brandtii Lütken, 1875	j		X		RS
Serrasalmus maculatus Kner, 1858	a,g,h,l		X		RS
Serrasalmus marginatus Valenciennes, 1837	g,h			X	RS
Serrasalmus spilopleura Kner, 1858	a			X	RS
Triportheidae
Triportheus angulatus (Spix & Agassiz, 1829)	a		X		RS
Triportheus cf. signatus	b,c,e	X	X		IS
Triportheus nematurus (Kner, 1858)	g,h		X		RS
CICHLIFORMES
Cichlidae
Apistogramma cacatuoides Hoedeman, 1951	a		X		IS
Astronotus ocellatus (Agassiz, 1831)	a	X		X	IS
Cichlasoma dimerus (Heckel, 1840)	g,h,l	X		X	IS
Crenicichla vittata Heckel, 1840	g,h,l	X	X		LI
Satanoperca pappaterra (Heckel, 1840)	a,h	X		X	RS
Symphysodon aequifasciatus Pellegrin, 1904	a	X			IS
CLUPEIFORMES
Engraulidae
Anchoviella vaillanti (Steindachner, 1908)	j			X	RS
Lycengraulis grossidens (Spix & Agassiz, 1829)	f,l		X		RS
Pristigasteridae
Pellona flavipinnis (Valenciennes, 1837)	a		X		RS
GYMNOTIFORMES
Gymnotidae
Gymnotus cf. carapo	g			X	RS
Sternopygidae
Eigenmannia trilineata López & Castello, 1966	g,h,l			X	RS
Eigenmannia virescens (Valenciennes, 1836)	g,h,l		X		RS
PERCIFORMES
Sciaenidae
Pachyurus bonariensis Steindachner, 1879	g,h,l			X	RS
Plagioscion squamosissimus (Heckel, 1840)	a,g,h,j		X		RS
Plagioscion ternetzi Boulenger, 1895*	g,h			X	RS
PLEURONECTIFORMES
Achiridae
Catathyridium jenynsii (Günther, 1862)	h,l		X		RS
SILURIFORMES
Auchenipteridae
Ageneiosus inermis (Linnaeus, 1766)	a,b,c,d,e,f,g,h,i,j,k,l,	X	X		RS
Auchenipterus osteomystax (Miranda Ribeiro, 1918)	a,g,h,k,l		X		RS
Tatia intermedia (Steindachner, 1877)	a		X		RS
Tatia jaracatia Pavanelli & Bifi, 2009	h		X		RS
Tatia neivai (Ihering, 1930)	g			X	RS
Trachelyopterus galeatus (Linnaeus, 1766)	a,b,c,d,e,f,g,h,i,j,k,l,	X		X	IS/RS
Callichthyidae
Corydoras aeneus (Gill, 1858)	g,h,l			X	IS
Corydoras aff. paleatus	e,h,l			X
Hoplosternum littorale (Hancock, 1828)	a,b,c,d,e,f,g,h,i,j,k,l,	X		X	IS
Hypophthalmus edentatus Spix & Agassiz, 1829*	a,c		X		RS
Hypophthalmus marginatus Valenciennes, 1840*	a		X		RS
Hypophthalmus fimbriatus Kner,1858	a		X		RS
Leiarius marmoratus (Gill, 1870)*	a	X	X		IS
Cetopsidae
Cetopsis gobioides Kner, 1858	h,j,l		X		RS/LI
Doradidae
Franciscodoras marmoratus (Lütken, 1874)	j	X			IS
Heptapteridae
Cetopsorhamdia iheringi Schubart & Gomes, 1959	h,j	X	X		LI
Rhamdia quelen (Quoy & Gaimard, 1824)	a,g,h,l	X		X	IS
Rhamdia voulezi Haseman, 1911*	h	X			IS
Loricariidae
Hypostomus isbrueckeri Reis, Weber & Malabarba, 1990	l	X			RS
Loricariichthys anus (Valenciennes, 1835)	f,g,h,l	X	X		IS
Loricariichthys platymetopon Isbrücker & Nijssen, 1979	g,h,l	X	X		RS
Rhinelepis aspera Spix & Agassiz, 1829*	h,j	X		X	IS
Pimelodidae
Brachyplatystoma filamentosum (Lichtenstein, 1819)*	a,b,c		X
Brachyplatystoma juruense (Boulenger, 1898)*	a		X
Brachyplatystoma platynemum Boulenger, 1898	a		X
Brachyplatystoma rousseauxii (Castelnau, 1855)*	a		X
Brachyplatystoma tigrinum (Britski, 1981)*	a		X
Brachyplatystoma vaillantii (Valenciennes, 1840)*	a,b,c		X
Hemisorubim platyrhynchos (Valenciennes, 1840)*	a,h	X		X	IS
Iheringichthys labrosus (Lütken, 1874)	g,h,l		X		RS
Parapimelodus valenciennis (Lütken, 1874)	g,h,l	X	X		LI
Pimelodus britskii Garavello & Shibatta, 2007	h			X	RS
Pimelodus maculatus Lacepède, 1803*	g,h,j,l	X	X		IS/RS
Pimelodus ortmanni Haseman, 1911	h	X		X	IS
Platynematichthys notatus (Jardine, 1841)*	a			X	LI
Pseudoplatystoma corruscans (Spix & Agassiz, 1829)*	g,h,j,l	X		X	IS
Pseudoplatystoma fasciatum (Linnaeus, 1766)*	a,h	X		X	IS
Pseudoplatystoma reticulatum Eigenmann & Eigenmann, 1889*	a,h	X		X	IS
Pseudoplatystoma tigrinum (Valenciennes, 1840)*	a		X
Sorubim lima (Bloch & Schneider, 1801)*	a,h,i			X	IS
Sorubimichthys planiceps (Spix & Agassiz, 1829)*	a		X
Steindachneridion melanodermatum Garavello, 2005*	h	X		X	IS
Steindachneridion parahybae (Steindachner, 1877)*	d,e	X		X	IS
Steindachneridion scriptum (Miranda Ribeiro, 1918)*	h,l	X	X		IS
Zungaro jahu (Ihering, 1898)*	g,h			X	IS
Pseudopimelodidae
Lophiosilurus alexandri Steindachner, 1876*	j	X		X	IS
Microglanis eurystoma Malabarba & Mahler, 1998*	l		X		RS
Pseudopimelodus mangurus (Valenciennes, 1835)	g,h,l	X	X		IS
SYNBRANCHIFORMES
Synbranchidae
Synbranchus lampreia Favorito, Zanata & Assumpção, 2005	a	X		X
TETRAODONTIFORMES
Tetraodontidae
Colomesus asellus (Müller & Troschel, 1849)	a,b,c		X		RS

Brasil