Beta diversity of Ephemeroptera, Plecoptera and Trichoptera on multiples spatial extents in Xingu River rapids
Diversidade beta de Ephemeroptera, Plecoptera e Trichoptera ao longo de múltiplas escalas espaciais nas corredeiras do rio Xingu
Nayara Monteiro Barreiros; Tommaso Giarrizzo; Bruno Spacek Godoy
Abstract
Keywords
Resumo
Palavras-chave
Referências
Araujo, M.M.V., Pinto, K.J. & Mendes, F.O., 2014. A usina de Belo Monte e os impactos nas terras indígenas. Planeta Amzôn., 6, 43-51.
Balvanera, P., Lott, E., Segura, G., Siebe, C. & Islas, A., 2002. Patterns of β‐diversity in a Mexican tropical dry forest. J. Veg. Sci., 13(2), 145-158.
Baptista, D.F., Buss, D.F., Dorvillé, L.F.M. & Nessimian, J.L., 2001. Diversity and habitat preference of aquatic insects along the longitudinal gradient of the Macaé River basin, Rio de Janeiro, Brazil. Braz. J. Biol., 61(2), 249-258. PMid:11514892.
Baptista, V.A., Antunes, M.B., Martello, A.R., Figueiredo, N.S.B., Amaral, A.M.B., Secretti, E. & Braun, B., 2014. Influência de fatores ambientais na distribuição de famílias de insetos aquáticos em rios no sul do Brasil. Ambiente Soc., 17(3), 155-176.
Barros, F.C., Almeida, S.M., Godoy, B.S., Silva, R.R., Silva, L.C., Moraes, K.F. & Santos, M.P.D., 2022. Taxonomic and functional diversity of bird communities in mining areas undergoing passive and active restoration in eastern Amazon. Ecol. Eng., 182, 106721.
Barton, P.S., Cunningham, S.A., Manning, A.D., Gibb, H., Lindenmayer, D.B. & Didham, R.K., 2013. The spatial scaling of beta diversity. Glob. Ecol. Biogeogr., 22(6), 639-647.
Bispo, P.C., Oliveira, L.G., Crisci, V.L. & Silva, M.M., 2001. A pluviosidade como fator de alteração da entomofauna bentônica (Ephemeroptera, Plecoptera e Trichoptera) em córregos do Planalto Central do Brasil. Acta Limnol. Bras., 2, 1-9.
Blanchet, F.G., Legendre, P. & Borcard, D., 2008. Forward selection of explanatory variables. Ecology, 89(9), 2623-2632. PMid:18831183.
Borcard, D. & Legendre, P., 2002. All-scale spatial analysis of ecological data by means of principal coordinates of neighbour matrices. Ecol. Modell., 153(1-2), 51-68.
Bridgewater, S., Ratter, J.A. & Ribeiro, J.F., 2004. Biogeographic patterns, diversity and dominance in the cerrado biome of Brazil. Biodivers. Conserv., 13(12), 2295-2317.
Bueno, A.A.P., Bond-Buckup, G. & Ferreira, B.D.P., 2003. Estrutura da comunidade de invertebrados bentônicos em dois cursos d’água do Rio Grande do Sul, Brasil. Rev. Bras. Zool., 20(1), 115-125.
Ceneviva-Bastos, M., Prates, D.B., Romero, R.M., Bispo, P.C. & Casatti, L., 2017. Trophic guilds of EPT (Ephemeroptera, Plecoptera, and Trichoptera) in three basins of the Brazilian Savanna. Limnologica, 63, 11-17.
Crisci-Bispo, V.L., Bispo, P.C. & Froehlich, C.G., 2007. Ephemeroptera, Plecoptera and Trichoptera assemblages in two Atlantic Rainforest streams, Southeastern Brazil. Rev. Bras. Zoo., 24(2), 312-318.
Cummins, K.W. & Klug, M.J., 1979. Feeding ecology of stream invertebrates. Annu. Rev. Ecol. Syst., 10(1), 147-172.
Cummins, K.W., Merritt, R.W. & Andrade, P.C., 2005. The use of invertebrate functional groups to characterize ecosystem attributes in selected streams and rivers in south Brazil. Stud. Neotrop. Fauna Environ., 40(1), 69-89.
Fearnside, P.M., 2014. Impacts of Brazil’s Madeira River Dams: unlearned lessons for hydroelectric development in Amazonia. Environ. Sci. Policy, 38, 164-172.
Ferreira, W.R., Hepp, L.U., Ligeiro, R., Macedo, D.R., Hughes, R.M., Kaufmann, P.R. & Callisto, M., 2017. Partitioning taxonomic diversity of aquatic insect assemblages and functional feeding groups in neotropical savanna headwater streams. Ecol. Indic., 72, 365-373.
Freire, L., Lima, J. & Silva, E., 2019. Belo Monte: fatos e impactos envolvidos na implantação da usina hidrelétrica na região Amazônica Paraense. Soc. Nat., 30(3), 18-41.
Frissell, C.A., Liss, W.J., Warren, C.E. & Hurley, M.D., 1986. A hierarchical framework for stream habitat classification: viewing streams in a watershed context. Environ. Manage., 10(2), 199-214.
Fukami, T., Mordecai, E.A. & Ostling, A., 2016. A framework for priority effects. J. Veg. Sci., 27(4), 655-657.
Geho, E.M., Campbell, D. & Keddy, P.A., 2007. Quantifying ecological filters: the relative impact of herbivory, neighbours, and sediment on an oligohaline marsh. Oikos, 116(6), 1006-1016.
Godoy, B.S., Camargos, L.M. & Lodi, S., 2018. When phylogeny and ecology meet: modeling the occurrence of Trichoptera with environmental and phylogenetic data. Ecol. Evol., 8(11), 5313-5322. PMid:29938055.
Godoy, B.S., Faria, A.P.J., Juen, L., Sara, L. & Oliveira, L.G., 2019. Taxonomic sufficiency and effects of environmental and spatial drivers on aquatic insect community. Ecol. Indic., 107, 105624.
Godoy, B.S., Ishihara, J.H., Aguiar, R.L. & Teixeira, O.N., 2023. 50 years of the water-flow variance in Tucuruí reservoir related with Brazilian energy consumption. Heliyon, 9(2), e12640. PMid:36761823.
Godoy, B.S., Queiroz, L.L., Lodi, S. & Oliveira, L.G., 2017. Environment and spatial influences on aquatic insect communities in Cerrado streams: the relative importance of conductivity, altitude, and conservation areas. Neotrop. Entomol., 46(2), 151-158. PMid:27909952.
Godoy, B.S., Queiroz, L.L., Simião-Ferreira, J., Lodi, S., Camargos, L.M. & Oliveira, L.G., 2022a. The effect of spatial scale on the detection of environmental drivers on aquatic insect communities in pristine and altered streams of the Brazilian Cerrado. Int. J. Trop. Insect Sci., 42(3), 2173-2182.
Godoy, B.S., Simião-Ferreira, J., Lodi, S. & Oliveira, L.G., 2016. Functional process zones characterizing aquatic insect communities in streams of the Brazilian Cerrado. Neotrop. Entomol., 45(2), 159-169. PMid:26830433.
Godoy, B.S., Valente‐Neto, F., Queiroz, L.L., Holanda, L.F.R., Roque, F.O., Lodi, S. & Oliveira, L.G., 2022b. Structuring functional groups of aquatic insects along the resistance/resilience axis when facing water flow changes. Ecol. Evol., 12(3), e8749. PMid:35356588.
Guénard, G., Legendre, P., Boisclair, D. & Bilodeau, M., 2010. Multiscale codependence analysis: an integrated approach to analyze relationships across scales. Ecology, 91(10), 2952-2964. PMid:21058555.
Hamada, N., Nessimian, J. & Querino, R., 2019. Insetos aquáticos na Amazônia brasileira: taxonomia, biologia e ecologia. Manaus: Editora INPA.
Hamer, K.C. & Hill, J.K., 2000. Scale-dependent effects of habitat disturbance on species richness in tropical forests. Conserv. Biol., 14(5), 1435-1440.
Hastings, A., Petrovskii, S. & Morozov, A., 2011. Spatial ecology across scales. Biol. Lett., 7(2), 163-165. PMid:21068027.
Heino, J., 2009. Biodiversity of aquatic insects: spatial gradients and environmental correlates of assemblage-level measures at large scales. Freshw. Rev., 2(1), 1-29.
Heino, J., Melo, A.S. & Bini, L.M., 2015. Reconceptualising the beta diversity-environmental heterogeneity relationship in running water systems. Freshw. Biol., 60(2), 223-235.
Hepp, L.U. & Melo, A.S., 2013. Dissimilarity of stream insect assemblages: effects of multiple scales and spatial distances. Hydrobiologia, 703(1), 239-246.
Jackson, D.A. & Harvey, H.H., 1989. Biogeographic associations in fish assemblages: local vs. regional processes. Ecology, 70(5), 1472-1484.
Landeiro, V.L., Bini, L.M., Melo, A.S., Pes, A.M.O. & Magnusson, W.E., 2012. The roles of dispersal limitation and environmental conditions in controlling caddisfly (Trichoptera) assemblages. Freshw. Biol., 57(8), 1554-1564.
Leal, T.B., Oliveira, R.S., Giarrizzo, T. & Godoy, B.S., 2023. The drift effect on nestedness of Ephemeroptera, Trichoptera and Plecoptera orders in the Xingu River. Biota Neotrop., 23(1), e20221354.
Legendre, P. & Legendre, L.F.J., 2012. Numerical ecology (3rd ed.). Amsterdam: Elsevier.
Leibold, M.A., Holyoak, M., Mouquet, N., Amarasekare, P., Chase, J.M., Hoopes, M.F., Holt, R.D., Shurin, J.B., Law, R., Tilman, D., Loreau, M. & Gonzalez, A., 2004. The metacommunity concept: a framework for multi-scale community ecology. Ecol. Lett., 7(7), 601-613.
Ligeiro, R., Melo, A.S. & Callisto, M., 2010. Spatial scale and the diversity of macroinvertebrates in a Neotropical catchment. Freshw. Biol., 55(2), 424-435.
Merritt, R.W., Cummins, K.W. & Berg, M.B., 2008. An introduction to the aquatic insects of North America (4th ed.). Dubuque: Kendall/Hunt Publishing Company.
Monteiro, T.R., Oliveira, L.G. & Godoy, B.S., 2008. Biomonitoramento da qualidade de água utilizando macroinvertebrados bentônicos: adaptação do índice biótico BMWP’ à bacia do rio Meia Ponte - GO. Oecol. Aust., 12(3), 553-563.
Moraga, A.D., Martin, A.E. & Fahrig, L., 2019. The scale of effect of landscape context varies with the species’ response variable measured. Landsc. Ecol., 34(4), 703-715.
Mykrä, H., Heino, J. & Muotka, T., 2007. Scale-related patterns in the spatial and environmental components of stream macroinvertebrate assemblage variation. Glob. Ecol. Biogeogr., 16(2), 149-159.
Norte-Energia, 2016. UHE Belo Monte [online]. Retrieved in 2023, August 11, from
Oksanen, J., Blanchet, F.G., Kindt, R., Legendre, P., Minchin, P.R., O’hara, R.B., Simpson, G.L., Solymos, P., Stevens, M.H. H., & Wagner, H., 2012. Community ecology package. R Package Version [online]. Retrieved in 2023, September 06, from
Patrick, C.J. & Yuan, L.L., 2019. The challenges that spatial context present for synthesizing community ecology across scales. Oikos, 128(3), 297-308. PMid:32467652.
Peltonen, M., Heliövaara, K., Väisänen, R. & Keronen, J., 1998. Bark beetle diversity at different spatial scales. Ecography (Online), 21(5), 510-517. Retrieved in 2023, August 11, from
R Development Core Team, 2020. R: a language and environment for statistical computing [online]. Retrieved in 2023, August 11, from
Ricklefs, R.E., 1987. Community diverstiy: relative roles of local and regional processes. Science, 235(4785), 167-171. PMid:17778629.
Ricklefs, R.E., 2006. Evolutionary diversification and the origin of the diversity-environment relationship. Ecology, 87(Suppl. 7), S3-S13. PMid:16922298.
Rosenberg, D. & Resh, V.H., 1993. Freshwater biomonitoring and benthic macroinvertebrates. New York: Chapman & Hall.
Salomão, R.P., Vieira, I.C.G., Suemitsu, C., Rosa, N.A., Almeida, S.S., Amaral, D.D. & Menezes, M.P.M., 2007. As florestas de Belo Monte na grande curva do rio Xingu, Amazônia Oriental. Bol. Mus. Para. Emílio Goeldi. Ciênc. Nat., 2(3), 57-153.
Sepkoski Junior, J.J., 1988. Alpha, beta, or gamma: where does all the diversity go? Paleobiology, 14(3), 221-234. PMid:11542147.
Serviço Geológico do Brasil - CPRM, 2023. Bacia do Rio Xingu - características [online]. Retrieved in 2023, August 11, from
Sheffield, J., Goteti, G. & Wood, E.F., 2006. Development of a 50-year high-resolution global dataset of meteorological forcings for land surface modeling. J. Clim., 19(13), 3088-3111.
Sioli, H. 1968. Hydrochemistry and Geology in the Brazilian Amazon Region. Amazoniana, 1(3), 267-277.
Suring, L.H., 2022. Imperiled freshwater ecosystems: an overview. In DellaSala, D.A. & Goldstein, M.I., eds. Imperiled: the encyclopedia of conservation. Amsterdam: Elsevier, 345-350.
Thorp, J.H., Thoms, M.C. & Delong, M.D., 2006. The riverine ecosystem synthesis: biocomplexity in river networks across space and time. River Res. Appl., 22(2), 123-147.
Veech, J.A. & Crist, T.O., 2007. Habitat and climate heterogeneity maintain beta-diversity of birds among landscapes within ecoregions. Glob. Ecol. Biogeogr., 16(5), 650-656.
Veech, J.A., 2005. Analyzing patterns of species diversity as departures from random expectations. Oikos, 108(1), 149-155.
Veech, J.A., Summerville, K.S., Crist, T.O. & Gering, J.C., 2002. The additive partitioning of species diversity: recent revival of an old idea. Oikos, 99(1), 3-9.
Vellend, M., 2010. Conceptual synthesis in community ecology. Q. Rev. Biol., 85(2), 183-206. PMid:20565040.
Wallace, J.B. & Webster, J.R., 1996. The role of macroinvertebrates in stream ecosystem function. Annu. Rev. Entomol., 41(1), 115-139. PMid:15012327.
Whittaker, R., 1960. Vegetation of the Siskiyou mountains, Oregon and California. Ecol. Monogr., 30(3), 279-338.
Submetido em:
06/04/2023
Aceito em:
11/08/2023
Publicado em:
06/10/2023