Headwater Stream’s Fish Assemblages: What Diversity and Environment Tell us about their Structure and Organization?

Autores

DOI:

https://doi.org/10.21664/2238-8869.2022v11i4.p134-152

Palavras-chave:

Brasil, diversidade funcional, riqueza de espécies, diversidade taxonômica, Alto Rio Paraná

Resumo

A compreensão da relação entre descritores da diversidade das comunidades e a resposta destes descritores ao ambiente é uma questão central dos estudos ecológicos. Neste estudo, utilizamos um conjunto de assembleias de peixes de riachos de cabeceira para responder duas questões: 1) Como diferentes descritores da diversidade das assembleias de peixes estão relacionados nos riachos de cabeceira?; 2) Como o ambiente influencia cada descritor da diversidade nas assembleias de peixes em riachos de cabeceira? Como medidas da estrutura/diversidade da comunidade, utilizamos o número de espécies (riqueza de espécies, S) e indivíduos (abundância, N), distinção taxonômica (diversidade taxonômica, Δ+) e distância média par-a-par (diversidade funcional, MPD). As variáveis do ambiente utilizadas foram a profundidade e a largura do canal, cobertura ripária, altitude, turbidez e temperatura da água, oxigênio dissolvido, condutividade e pH. A relação entre as diferentes facetas da diversidade e destas com o ambiente foi testada com uma correlação de Spearman. Encontramos uma correlação positiva entre: i) Δ+ e MPD; e de ii) N e Δ+ com largura do canal e temperatura, respectivamente. Estes resultados indicam que diferentes descritores da diversidade nas assembleias de peixes são afetados por variáveis ambientais distintas e de que existe uma tendência à congruência espacial entre Δ+ e MPD, indicando que o desenvolvimento de uma estratégia de conservação eficaz para um destes dois descritores da diversidade pode proteger o outro. Nosso estudo fornece importantes informações para uma região do Brasil Central, a Bacia do Alto Rio Paraná, que permanece pouco estudada em relação à sua ictiofauna quando comparada a outras localidades desta mesma região ou dentro de seu domínio hidrológico.

Referências

Aickin M, Gensler H 1996. Adjusting for multiple testing when reporting research results: The Bonferroni vs Holm methods. Am J Public Health 86:726–728.
Albrecht MP, Pellegrini-Caramaschi É 2003. Feeding Ecology of Leporinus friderici (Teleostei; Anostomidae) in the Upper Tocantins River, Central Brazil, before and after Installation of a Hydroelectric Plant. Neotrop Ichthyol 1(1):53–60.
Alofs KM, Liverpool EA, Taphorn DC, Bernard CR, López-Fernandez H 2014. Mind the (information) gap: the importance of exploration and discovery for assessing conservation priorities for freshwater fish. Divers Distrib 20:107-113.
Araújo RB de, Garutti V 2002. Biologia reprodutiva de Aspidoras fuscoguttatus (Siluriformes, Callichthyidae) em riacho de cabeceira da bacia do alto rio Paraná. Iheringia Sér. Zool. 92(4):89–98.
Araújo NB, Tejerina-Garro FL 2009. Influence of environmental variables and anthropogenic perturbations on stream fish assemblages, Upper Paraná River, Central Brazil. Neotrop Ichthyol 7(1):31-38.
Arcifa MS, Esguícero ALH 2012. The fish fauna in the fish passage at the Ourinhos dam, Paranapanema river. Neotrop Ichthyol 10(4):715–722.
Baumgartner G, Nakatani K, Gomes LC, Bialetzki A, Sanches PV, Makrakis MC 2008. Fish larvae from the upper Paraná River: Do abiotic factors affect larval density? Neotrop Ichthyol 6(4):551–558.
Bialetzki A, Sanches PV, Baumgartner G, Nakatani K 1998. Caracterização morfológica e distribuição temporal de larvas e juvenis de Apareiodon affinis (Steindachner) (Osteichthyes, Parodontidae) no alto rio Paraná, Paraná. Rev Bras Zool 15:1037-1047.
Bichuette ME, Trajano E 2005. A new cave species of Rhamdia (Siluriformes: Heptapteridae) from Serra do Ramalho, northeastern Brazil, with notes on ecology and behavior. Neotrop Ichthyol 3:587-595.
Blumer LS 1979. Male parental care in the bony fishes. Q Rev Biol 54(2):149-61.
Borges PP, Dias MS, Carvalho FR, Casatti L, Pompeu PS, Cetra M, Tejerina-Garro FL, Súarez YR, Nabout JC, Teresa FB 2020. Stream fish metacommunity organisation across a Neotropical ecoregion: the role of environment, anthropogenic impact and dispersal-based processes. PLoS ONE 15:e0233733.
Brandão-Gonçalves L, Lima-Junior E, Suarez YR 2009. Hábitos alimentares de Bryconamericus stramineus Eigenmann, 1908 (Characidae), em diferentes riachos da sub-bacia do Rio Guiraí, Mato Grosso do Sul, Brasil. Biota Neotrop 9(1):135–143.
Brejão GL, Gerhard P, Zuanon J 2013. Functional trophic composition of the ichthyofauna of forest streams in eastern Brazilian Amazon. Neotrop Ichthyol 11(2):361–373.
Brown BL, Sokol ER, Skelton J, Tornwall B 2016. Making sense of metacommunities: dispelling the mythology of a metacommunity typology. Oecologia 183:643–652.
Buckup PA 2021. Taxonomy and phylogeny of fishes from Brazilian small streams. Oecologia Australis 25(2):197–230.
Bulla CK, Gomes LC, Miranda LE, Agostinho AA 2011. The ichthyofauna of drifting macrophyte mats in the Ivinhema River, upper Paraná River basin, Brazil. Neotrop Ichthyol 9:403-409.
Cadotte MW, Tucker CM 2018. Difficult decisions: strategies for conservation prioritizing when taxonomic, phylogenetic and functional diversity are not spatially congruent. Biol Conserv 225:128-133.
Cardoso MRD, Marcuzzo FFN, Barros JR 2014. Classificação Climática de Köppen-Geiger para o Estado de Goiás e o Distrito Federal. Acta Geográfica 8:40-55.
Carvalho RA, Tejerina-Garro FL 2015a. Relationships between taxonomic and functional components of diversity: implications for conservation of tropical freshwater fishes. Freshw Biol 60:1854-1862.
Carvalho RA, Tejerina-Garro FL 2015b. Environmental and spatial processes: what controls the functional structure of tropical rivers and headwater streams? Ecol Freshw Fish 4:317–328.
Carvalho RA, Tejerina-Garro FL 2015c. The influence of environmental variables on the functional structure of headwater stream fish assemblages: a study of two tropical basins in Central Brazil. Neotrop Ichthyol 13:349-360.
Carvalho RA, Tejerina-Garro FL 2019. Spatial and temporal trends in freshwater fish research: the case of three neotropical river basins from Goiás State, Central Brazil. Acta Limnol Bras 31:e25.
Carvalho RA, Teresa FB, Tejerina-Garro FL 2021. The effect of riverine networks on fish β-diversity patterns in a Neotropical system. Hydrobiologia 848(2):515–529.
Casatti L, Langeani F, Castro RMC 2001. Peixes de riacho do Parque Estadual Morro do Diabo, bacia do Alto Rio Paraná, SP. Biota Neotrop 1:1-15.
Casatti L 2002. Alimentação dos peixes em um riacho do Parque Estadual Morro do Diabo, bacia do Alto Rio Paraná, sudeste do Brasil. Biota Neotrop 2:1-4.
Casatti L, Castro RMC 2006. Testing the ecomorphological hypothesis in a headwater riffles fish assemblage of the rio São Francisco, southeastern Brazil. Neotrop Ichthyol 4(2):203–214.
Casatti L, Veronezi Júnior JL, Ferreira C de P 2009. Dieta do cascudo Aspidoras fuscoguttatus (Ostariophysi, Callichthyidae) em riachos com diferentes características limnológicas e estruturais. Biota Neotrop 9(1):113–121.
Casatti L 2010. Alterações no Código Florestal Brasileiro: impactos potenciais sobre a ictiofauna. Biota Neotrop 10(4):31-34.
Casatti L, Teresa FB, Zeni J de O, Ribeiro MD, Brejão GL, Ceneviva-Bastos M 2015. More of the Same: High Functional Redundancy in Stream Fish Assemblages from Tropical Agroecosystems. Environ Manage 55(6):1300-1314.
Casimiro ACR, Garcia DAZ, Almeida FS de, Orsi ML 2011. Reproductive Aspects of Moenkhausia intermedia Eigenmann, 1908 (Pisces, Characidae) in the Upper Paraná River Basin, Brazil. ISRN Zoology 2011(1974):1–8.
Castro RMC, Polaz CNM. 2020. Small-sized fish: the largest and most threatened portion of the megadiverse neotropical. British Educational Research Journal 30(2):313–324.
Cianciaruso MV, Silva IA, Batalha MA 2009. Diversidades filogenética e funcional: novas abordagens para a ecologia de comunidades. Biota Neotrop 9:93–103.
Cilleros K, Allard L, Grenouillet G, Brosse S 2016. Taxonomic and functional diversity patterns reveal different processes shaping European and Amazonian stream fish assemblages. J Biogeogr 43:1832-1843.
Cohen SC, Kohn A 2008. New data on species of Demidospermus (Dactylogyridae: Monogenea) parasitizing fishes from the reservoir of the Itaipu Hydroelectric Power Station, Parana State, Brazil, with new synonymies. Rev Bras Parasitol Vet 17:167-70.
Delariva RL, Agostinho AA, Nakatani K, Baumgartner G 1994. Ichthyofauna associated to aquatic macrophytes in the upper Paraná River floodplain. Rev UNIMAR 16(3):41-60.
Dala-Corte RB, Franz I, Barros MP, Ott PH 2009. Levantamento da ictiofauna da Floresta Nacional de Canela, na região superior da bacia hidrográfica do Rio Caí, Rio Grande do Sul, Brasil. Biota Neotrop 9:221-6.
Dias RM, Bailly D, Antônio RR, Suzuki HI, Agostinho AA 2005. Colonization of the Corumbá Reservoir (Corumbá River, Paraná River Basin, Goiás State, Brazil) by the “lambari” Astyanax altiparanae (Tetragonopterinae; Characidae). Braz Arch Biol Techn 48(3):467–476.
Dias MS, et al. 2016. Trends in studies of Brazilian stream fish assemblages. Nat Conserv 14(2):106-111.
Doria CR da C, Andrian I de F 1997. Variation in energy content of somatic and reproductive, tissues related to the reproductive cycle and feeding of female Pimelodus maculatus Lacépède, 1803 (Siluriformes, Pimelodidae) and Schizodon borellii Boulenger, 1895 (Characiformes, Anostomida. Rev Unimar 19(2):421-37.
Endler JA 1995. Multiple-trait coevolution and environmental gradients in guppies. Trends Ecol Evol 10(1):22-29.
Fernández L, Bechara JA 2010. An assessment of fish communities along a piedmont river receiving organic pollution (Aconquija Mountains, Argentina). Acta Biol Colomb 15(2):79-100.
Ferrareze M, Nogueira MG, Casatti L 2015. Differences in ichthyofauna feeding habits among lateral lagoons and the river channel in a large reservoir. Braz J Biol 75(2):380-390.
Ferreira KM 2007. Biology and ecomorphology of stream fishes from the rio Mogi-Guaçu basin, Southeastern Brazil. Neotrop Ichthyol 5:311-26.
Ferreira CD, Casatti L 2006. Stream biotic integrity assessed by fish assemblages in the Upper Rio Paraná basin. Biota Neotrop 6(3):bn00306032006
Fialho AP, Tejerina-Garro FL 2004. Peixes da bacia do Rio Meia Ponte,GO. Universidade Católica de Goiás/UCG, Goiânia, 105 pp.
FishBase [database on the Internet]. Froese (R), Pauly (D): World Wide Web electronic publication. c2017 – [cited 2017 October 10]. Available from: http://www.fishbase.org/search.php.
Fugi R, Hahn NS, Agostinho AA 1996. Feeding styles of five species of bottom-feeding fishes of the high Paraná River. Environ Biol Fishes 46(3):297–307.
García-Martínez M, Martínez-Tlapa DL, Pérez-Toledo GR, Quiroz-Robledo LN, Castaño-Meneses G, Laborde J, Valenzuela-González JE 2015. Taxonomic, Species and Functional Group Diversity of Ants in a Tropical Anthropogenic Landscape. Trop Conserv Sci 8(4):1017–32.
Giora J, Fialho CB 2009. Reproductive biology of weakly electric fish Eigenmannia trilineata López and Castello, 1966 (Teleostei, Sternopygidae). Braz Arch Biol Techn 52(3):617-628.
Gomiero LM, Braga FMDS 2007. Reproduction of a fish assemblage in the state of São Paulo, southeastern Brazil. Braz J Biol 67:283-292.
Gomiero LM, Braga FMDS 2008. Feeding habits of the ichthyofauna in a protected area in the state of São Paulo, southeastern Brazil. Biota Neotrop 8:41-47.
Graça WJ, Pavanelli CS 2007. Peixes da Planície de Inundação do Alto Rio Paraná e Áreas Adjacentes. Editora da Universidade Estadual de Maringá, Maringá, 241 pp.
Grenouillet G, Pont D, Hérissé C 2004. Within-basin fish assemblage structure: the relative influence of habitat versus stream spatial position on local species richness. Can J Fish Aquat Sci 61:93–102.
Hahn NS, Agostinho AA, Gomes LC, Bini LM 1998. Estrutura trófica da ictiofauna do reservatório de Itaipu (Paraná-Brasil) nos primeiros anos de sua formação. Interciencia 23(5):299–305.
Ilha P, Rosso S, Schiesari L 2019. Effects of deforestation on headwater stream fish assemblages in the Upper Xingu River Basin, Southeastern Amazonia. Neotrop Ichthyol 17(1):e180099.
Jackson DA, Peres-Neto PR, Olden KD 2001. What controls who is where in freshwater fish communities – the roles of biotic, abiotic, and spatial factors. Can J Fish Aquat Sci 58:157–170.
Kembel SW, Cowan PD, Helmus MR, Cornwell WK, Morlon H, Ackerly DD, Blomberg SP, Webb CO 2010. Picante: R tools for integrating phylogenies and ecology. Bioinformatics 26:1463–1464.
Kemenes A, Forsberg BR 2014. Factors influencing the structure and spatial distribution of fishes in the headwater streams of the Jaú River in the Brazilian Amazon. Braz J Biol 74:S023-S032.
Kuczynski L, Côte J, Toussaint A, Brosse S., Buisson L, Grenouillet G 2018. Spatial mismatch in morphological, ecological and phylogenetic diversity, in historical and contemporary European freshwater fish faunas. Ecography 41:1665-1674.
Langeani F, Castro RMC, Oyakawa OT, Shibatta OA, Pavanelli CS, Casatti L 2007. Diversidade da Ictiofauna do Alto Paraná: composição atual e perspectivas futuras. Biota Neotrop 7:181-197.
Lassala MDP, Renesto E 2007. Reproductive strategies and genetic variability in tropical freshwater fish. Genet Mol Biol 30:690-697.
Lowe-McConnell RH 1999. Estudos ecológicos de comunidades de peixes tropicais. Editora da Universidade de São Paulo, São Paulo, 534 pp.
Martín-Regalado CN, Briones-Salas M, Lavariega MC, Moreno CE 2019. Spatial incongruence in the species richness and functional diversity of cricetid rodents. Plos One 14(6):e0217154.
Mattias AT, Rantin FT, Fernandes MN 1998. Gill respiratory parameters during progressive hypoxia in the facultative air-breathing fish, Hypostomus regani (Loricariidae). Comp biochem physiol, Mol amp; integr physiol 120(2):311-5.
Mazzoni R, Fenerich-Verani N, Caramaschi EP 2000. A pesca elétrica como técnica de amostragem de populações e comunidades de peixes em rios costeiros do sudeste do Brasil. Rev Bras Biol 60:205-216.
Mazzoni R, Moraes M, Rezende CF, Miranda JC 2010. Alimentação e padrões ecomorfológicos das espécies de peixes de riacho do alto rio Tocantins, Goiás, Brasil. Iheringia Sér Zool 100(2):162-168.
Meschiatti AJ, Arcifa MS 2009. A review on the fishfauna of Mogi-Guaçu River basin: a century of studies. Acta Limnol. Bras. 21(1):135–159.
Nakatani K, Agostinho AA, Baumgartner G, Bialetzki A, Sanches PV, Makrakis MC, Pavanelli CS 2001. Ovos e larvas de peixes de água doce: desenvolvimento e manual de identificação. EDUEM, Maringá.
Nonogaki H, Nelson JA, Patterson WP 2007. Dietary histories of herbivorous loricariid catfishes: evidence from δ13C values of otoliths. Environ Biol Fishes 78(1):13-21.
Novakowski GC, Hahn NS, Fugi R 2008. Diet seasonality and food overlap of the fish assemblage in a pantanal pond. Neotrop Ichthyol 6:567-576.
Oksanen J, Blanchet FG, Kindt R, Legendre P, Minchin PR, O'hara RB, Simpson GL, Solymos P, Stevens MHH, Wagner H. Vegan: community ecology package. R package version 2.0-8; 2020 [cited 2018 Mars 12]. Available from: http://cran.R-project.org/package=vegan.
Paes JVK 2010. A ictiofauna do rio do Peixe sob a influência da represa de Barra Bonita (SP): índices ecológicos e condições limnológicas. Tese de Doutorado, Universidade Estadual Paulista, 126 pp.
Pavanelli CS, Britski HA 1999. Description of new species of Steindachnerina (Teleostei: Characiformes: Curimatidae) from the upper Rio Paraná basin, Brazil. Ichthyol Explor Freshw 10(3):211-216.
Pavanelli CS, Caramaschi EP 2003. Temporal and spatial distribution of the ichthyofauna in two streams of the Upper Rio Paraná basin. Braz Arch Biol Techn 46(2):271–280.
Pavoine S, Bonsall MB 2010. Measuring biodiversity to explain community assembly: a unified approach. Biol Rev Camb Philos Soc 86:792–812.
Pavoine S, Vallet J, Dufour A.-B, Gachet S, Daniel H 2009. On the challenge of treating various types of variables: application for improving the measurement of functional diversity. Oikos, 118:391–402.
Peláez OE, Pavanelli CS 2019. Environmental heterogeneity and dispersal limitation explain different aspects of β-diversity in Neotropical fish assemblages. Freshw Biol 64:497–505.
Pelicice FM, Agostinho AA 2006. Feeding ecology of fishes associated with Egeria spp. patches in a tropical reservoir, Brazil. Ecol Freshw Fish 15(1):10–19.
Pelicice FM, et al. 2021. Large-scale Degradation of the Tocantins-Araguaia River Basin. Environmental Management 68(4):445–452.
Peretti D, Andrian I de F 1999. Feeding of Eigenmannia trilineata (Pisces, Sternopygidae) (Lopez & Castello, 1966), in the upper Paraná River floodplain, Brazil. Braz Arch Biol Techn 42(1):77–84.
Poff NL 1997. Landscape filters and species traits: towards mechanistic understanding and prediction in stream ecology. J N Am Benthol Soc 16:391-409.
Polaz CNM, Ferreira FC, Petrere Júnior M 2017. The protected areas system in Brazil as a baseline condition for wetlands management and fish conservancy: the example of the Pantanal National Park. Neotrop Ichthyol 15(3):1–13.
Polesel MGI, Poi ASG 2016. Alimentación de Characidium rachovii (Characiformes: Crenuchidae) y Pyrrhulina australis (Characiformes: Lebiasinidae) en lagunas someras de la provincia de Corrientes, Argentina. Rev Biol Trop 64(2):603-615.
R Development Core Team. R: A language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing; 2017 [cited 2017 July 1]. Available from: http: //www.Rproject. org/.
Rantin B, Bichuette ME 2013. Phototactic behaviour of subterranean Copionodontinae Pinna, 1992 catfishes (Siluriformes, Trichomycteridae) from Chapada Diamantina, central Bahia, northeastern Brazil. Int J Speleol 42(1): 57-63.
Ratter JA, Ribeiro JF, Bridgewater S 1997. The Brazilian vegetation Cerrado and threats to its biodiversity. Ann Bot 80:223-230.
Reid AJ, et al. 2019. Emerging threats and persistent conservation challenges for freshwater biodiversity. Biol Rev 94:849-873.
Rodrigues BL, da Costa MP, da Silva Frasão B, da Silva FA, Mársico ET, da Silveira Alvares T, Conte-Junior CA 2017. Instrumental texture parameters as freshness indicators in five farmed Brazilian freshwater fish species. Food Anal Methods 10(11):3589-99.
Rodriguez MA, Lewis Jr. WM 1997. Structure of fish assemblages along environmental gradients in floodplain lakes of the Orinoco River. Ecol Monogr 67(1):109–128.
Rolla APPR, Esteves KE, Ávila-da-Silva AO 2009. Feeding ecology of a stream fish assemblage in an Atlantic Forest remnant (Serra do Japi, SP, Brazil). Neotrop Ichthyol 7:65-76.
Rondineli G, Gomiero LM, Carmassi AL, Braga FMDS 2011. Diet of fishes in Passa Cinco stream, Corumbataí River sub-basin, São Paulo state, Brazil. Braz J Biol 71:157-167.
Sampaio WMS, Belei F, Giongo P, Silva WL, Cazetta E 2012. Ictiofauna do rio da Prata (Microbacia do rio Aporé, bacia do Paranaíba). Evolução e Conservação da Biodiversidade 3(1):1–5.
Santos GM dos, Jégu M, Mérona B de 1984. Catálogo de Peixes Comerciais do Baixo Rio Tocantins. ELETRONORTE/CNPq/INPA, Manaus, 83 pp.
Santos GM dos, Jégu M 1989. Inventário taxonômico e redescrição das espécies de Anostomideos (Characiformes, Anostomidae) do baixo rio Tocantins, PA, Brasil. Acta Amazonica 19(Único):159–213.
Santos GM dos, Mérona B de, Juras AA, Jégu M 2004. Peixes do baixo rio Tocantins: 20 anos depois da usina hidrelétrica Tucuruí. Eletronorte Brasília, 215 pp.
Sarmento-Soares LM, Martins-Pinheiro RF 2008. A systematic revision of Tatia (Siluriformes: Auchenipteridae: Centromochlinae). Neotrop Ichthyol 6(3): 495–542.
Silva JC, Delariva RL, Bonato KO 2012. Food-resource partitioning among fish species from a first-order stream in northwestern Paraná, Brazil. Neotrop Ichthyol 10:389-99.
Smith WS, Petrere M, Barrella W 2003. The fish fauna in tropical rivers: The case of the Sorocaba river basin, SP, Brazil. Rev Biol Trop 51(3-4):769-82.
Smith WS, Biagioni RC, Halcsik L 2013. Fish fauna of Floresta Nacional de Ipanema, São Paulo State, Brazil. Biota Neotrop 13:175-81.
Strassburg BBN, et al. 2017. Moment of truth for the Cerrado hotspot. Nat Ecol Evol 1(4):0099.
Strecker AL, Olden JD, Whittier JB, Paukert CP 2011. Defining conservation priorities for freshwater fishes according to taxonomic, functional, and phylogenetic diversity. Ecol Appl 21:3002–3013.
Súarez YR, Petrere-Júnior M 2003. Associações de espécies de peixes em ambientes lóticos da bacia do rio Iguatemi, Estado do Mato Grosso do Sul. Acta Sci Biol Sci 25(2):361-367.
Súarez YR, Petrere Jr M 2005. Organização das assembleias de peixes em riachos da bacia do rio Iguatemi, Estado do Mato Grosso do Sul. Acta Scient Biol Sci 27:145–150.
Súarez YR 2008. Variação espacial e temporal na diversidade e composição de espécies de peixes em riachos da bacia do Rio Ivinhema, Alto Rio Paraná. Biota Neotrop 8(3):197-204.
Súarez YR, Valério SB, Tondato KK, Ximenes LQL, Felipe RTA 2007. Determinantes ambientais da ocorrência de espécies de peixes em riachos de cabeceira da bacia do rio Ivinhema, alto rio Paraná. Acta Scient Biol Sci 29:145–150.
Súarez YR, Souza MM, Ferreira FS, Pereira MJ, Silva EA, Ximenes LQL, Azevedo LG, Martins OC, Lima Júnior SE 2011. Patterns of species richness and composition of fish assemblages in streams of the Ivinhema River basin, Upper Paraná River. Acta Limnol Bras 23:177-188.
Suzuki HI, Vazzoler AEAM (In Memorian), Marques EE, Lizama MLAP, Inada P 2004. Reproductive ecology of fish assemblages. In Thomaz SM, Agostinho AA, Hahn NS. The Upper Paraná River Floodplain: physical aspects, ecology and conservation. Backhuys Publishers, Leiden, p. 271-292.
Taguti TL, Kipper D, Bialetzki A, Sanches PV, Makrakis MC, Baumgartner G, Fernandes R 2009. Desenvolvimento inicial de Pyrrhulina australis Eigenmann & Kennedy, 1903 (Characiformes, Lebiasinidae). Biota Neotrop 9:59-65.
Taphorn D 2003. Manual de identificación de los peces Characiformes del río Apure en Venezuela. Biollania Edición Especial.
Tejerina-Garro FL 2008. Biodiversidade e impactos ambientais no estado de Goiás. In C Rocha, FL Tejerina-Garro, JP Pietrafesa. Cerrado, Sociedade e Meio Ambiente: Desenvolvimento Sustentável em Goiás. Editora da UCG, Goiânia, p. 15–47.
Tundisi JG, Tundisi TM 2012. Limnology. CRC Press, London.
Vilella FS, Becker FG, Hartz SM 2002. Diet of Astyanax species (Teleostei, Characidae) in an Atlantic forest river in Southern Brazil. Braz Arch Biol Techn 45(2):223–232.
Vitorino Jr. OB, Fernandes R, Agostinho CS, Pelicice FM 2016. Riverine networks constrain b-diversity patterns among fish assemblages in a large Neotropical river. Freshw Biol 61:1733–1745.
Wang L, Lyons J, Rasmussen P, Seelbach P, Simon T, Wiley M, Kanehl P, Baker E, Niemela S, Stewart PM 2003. Watershed, reach, and riparian influences on stream fish assemblages in the Northern Lakes and Forest Ecoregion, U.S.A. Can J Fish Aquat Sci 60:491–505.
Warwick RM, Clarke KR 1998. Taxonomic distinctness and environmental assessment. J Appl Ecol 35:532–543.
Webb CO 2000. Exploring the phylogenetic structure of ecological communities: an example for rain forest trees. Am Nat 156:145–155.
Willis SC, Winemiller KO, Lopez-Fernandez H 2005. Habitat structural complexity and morphological diversity of fish assemblages in a Neotropical floodplain river. Oecologia 142:284–295.
Winemiller KO 1989. Patterns of variation in life history among South American fishes in seasonal environments. Oecologia 81:225–241.
Yamada FH, de Aquino Moreira LH, Ceschini TL, Lizama MD, Takemoto RM, Pavanelli GC 2012. Parasitism associated with length and gonadal maturity stage of the freshwater fish Metynnis lippincottianus (Characidae). Neotrop Helminthol 6(2):247-53.

Downloads

Publicado

2022-12-30

Como Citar

CARVALHO, Rodrigo Assis de; TEJERINA-GARRO, Francisco Leonardo. Headwater Stream’s Fish Assemblages: What Diversity and Environment Tell us about their Structure and Organization?. Fronteira: Journal of Social, Technological and Environmental Science, [S. l.], v. 11, n. 4, p. 134–152, 2022. DOI: 10.21664/2238-8869.2022v11i4.p134-152. Disponível em: https://revistas2.unievangelica.edu.br/index.php/fronteiras/article/view/6502. Acesso em: 22 dez. 2024.