Free Access
Issue
Ann. Limnol. - Int. J. Lim.
Volume 56, 2020
Article Number 9
Number of page(s) 9
DOI https://doi.org/10.1051/limn/2020007
Published online 30 April 2020
  • Alahuhta J, Heino J. 2013. Spatial extent, regional specificity and metacommunity struc-turing in lake macrophytes. J Biogeogr 40: 1572–1582. [Google Scholar]
  • Alahuhta J, Kosten S, Akasaka M, et al. 2017. Global variation in the beta diversity of lake macrophytes is driven by environmental heterogeneity rather than latitude. J Biogeogr 44: 1758–1769. [Google Scholar]
  • Altermatt F, Holyoak M. 2012. Spatial clustering of habitat structure effects patterns of community composition and diversity. Ecology 93: 1125–1133. [Google Scholar]
  • Alves-Martins F, Calatayud J, Medina NG, De Marco P, Juen L, Hortal J. 2019. Drivers of regional and local diversity of Amazonian stream Odonata. Insect Conserv Divers 12: 251–261. [Google Scholar]
  • Anderson MJ, Ellingsen KE, McArdle BH. 2006. Multivariate dispersion as a measure of beta diversity. Ecol Lett 9: 683–693. [Google Scholar]
  • Arrhenius O. 1921. Species and Area. J. Ecol 9: 95–99. [Google Scholar]
  • Bachmann AO. 1998. Heteroptera acuáticos. Biodiversidad de Artrópodos Argentinos. Una Perspectiva Biotaxonómica. Ediciones Sur, La Plata. [Google Scholar]
  • Baselga A. 2010. Partitioning the turnover and nestedness components of beta diversity. Glob Ecol Biogeogr 19: 134–143. [Google Scholar]
  • Brando PM, Coe MT, DeFries R, Azevedo AA. 2013. Ecology, economy and management of an agroindustrial frontier landscape in the southeast Amazon. Phil Trans R Soc B 368: 20120152. [CrossRef] [Google Scholar]
  • Brasil LS, Vieira TB, Oliveira-Junior JMB, Dias-Silva K, Juen L. 2017. Elements of metacommunity structure in Amazonian Zygoptera among streams under different spatial scales and environmental conditions. Ecol Evol 7: 3190–3200. [Google Scholar]
  • Brasil LS, Oliveira-Júnior JM, Calvão LB, et al. 2018. Spatial, biogeographic and environmental predictors of diversity in A mazonian Zygoptera. Insect Conserv Divers 11: 174–184. [Google Scholar]
  • Buschini MLT, Woiski TD. 2008. Alpha–beta diversity in trap-nesting wasps (Hymenoptera: Aculeata) in Southern Brazil. Acta Zool 89: 351–358. [Google Scholar]
  • Cabette HSR, Giehl NFS, Dias-Silva K, Juen L, Batista JD. 2010. Distribuição de Nepomorpha e Gerromorpha (Insecta: Heteroptera) da Bacia do Rio Suiá-Miçú, MT: riqueza relacionada à qualidade de água e de hábitat, in Santos JE, Galbiati C, Moschini LE. (Orgs.). Gestão e Educação Ambiental: Água, Biodiversidade e Cultura. São Carlos, RiMa, pp. 113–137. [Google Scholar]
  • Chao A, Chazdon RL, Colwell RK, Shen TJ. 2005. A new statistical approach for assessing similarity of species composition with incidence and abundance data. Ecol Lett 8: 148–159. [Google Scholar]
  • Carvalho JC, Cardoso P, Gomes P. 2012. Determining the relative roles of species replacement and species richness differences in generating beta-diversity patterns. Global Ecology and Biogeography 21: 760–771. [CrossRef] [Google Scholar]
  • Colwell RK. 2000. EstimateS version 6.0 b1: Statistical estimation of species richness and shared species from samples. Freeware published at http://viceroy.eeb.uconn.edu/EstimateS. [Google Scholar]
  • Cunha SB, Guerra AJT. 1996. Degradação Ambiental. In: Cunha, SB Guerra, AJT. Geomorfologia e Meio Ambiente. Rio de Janeiro: Bertrand Brasil, pp. 337–379. [Google Scholar]
  • Cunha EJ, Juen L. 2017. Impacts of oil palm plantations on changes in environmental heterogeneity and Heteroptera (Gerromorpha and Nepomorpha) diversity. J Insect Conserv 21: 111–119. [Google Scholar]
  • Cunha EJ, de Assis Montag LF, Juen L. 2015. Oil palm crops effects on environmental integrity of Amazonian streams and Heteropteran (Hemiptera) species diversity. Ecol Indic 52: 422–429. [Google Scholar]
  • Dambros CS, Morais JW, Azevedo RA, Gotelli NJ. 2017. Isolation by distance, not rivers, control the distribution of termite species in the Amazonian rain forest. Ecography 40: 1242–1250. [Google Scholar]
  • Death RG, Winterbourn MJ. 1995. Diversity patterns in stream benthic invertebrate communities: the influence of habitat stability. Ecology 76: 1446–1460. [Google Scholar]
  • Dias-Silva K, Cabette HSR, Juen L, De Marco P. 2010. The influence of habitat integrity and physical-chemical water variables on the structure of aquatic and semiaquatic Heteroptera. Zoologia 27: 918–930. [CrossRef] [Google Scholar]
  • Ferreira WR, Hepp LU, Ligeiro R, et al. 2017. Partitioning taxonomic diversity of aquatic insect assemblages and func-tional feeding groups in neotropical savanna headwater streams. Ecol Indic 72: 365–373. [Google Scholar]
  • Gardner TA, Ferreira J, Barlow J, et al. 2013. A social and ecological assessment of tropical land uses at multiple scales: the Sus-tainable Amazon Network. Phil Trans R Soc B 368: 20120166. [CrossRef] [Google Scholar]
  • Giehl NFS, Brasil LS, Dias-Silva K, Nogueira D, Cabette HSR. 2019. Environmental Thresholds of Nepomorpha in Cerrado Streams, Brazilian Savannah. Neotrop Entomol 48: 186–196. [CrossRef] [PubMed] [Google Scholar]
  • Gutiérrez-Cánovas C, Millán A, Velasco J, Vaughan IP, Ormerod SJ. 2013. Con-trasting effects of natural and anthropogenic stressors on beta diversity in river organisms. Global Ecol Biogeogr 22: 796–805. [CrossRef] [Google Scholar]
  • Hansky I, Simberloff D. 1997. The metapoplulation approach, its history, conceptual domain and application to conservation, in Hansky I, Simber-loff D. (eds.), Metapopulation Biology. Academic Press, San Diego, California, pp. 5–26. [CrossRef] [Google Scholar]
  • Hansky I, Moilanen A, Gyllenberg M. 1996. Minimum viable metapopulation size. Am Nat 147: 527–541. [Google Scholar]
  • Harrison S, Ross SJ, Lawton JH. 1992. Beta diversity on geographic gradients in Britain. J Animal Ecol 1: 151–158. [CrossRef] [Google Scholar]
  • Heino J, Melo AS, Bini LM. 2015. Reconceptualising the beta diversity-environmental heterogeneity relationship in running water systems. Freshw Biol 60: 223–235. [Google Scholar]
  • Hubbell SP. 2001. The unified neutral theory of biodiversity and biogeography. Princeton: Princeton University Press. [Google Scholar]
  • Juen L, De Marco P. 2011. Odonate biodiversity in terra-firme forest streamlets in Central Amazonia: on the relative effects of neutral and niche drivers at small geographical extents. Insect Conserv Divers 4: 265–274. [Google Scholar]
  • Juen L, De Marco P. 2012. Dragonfly endemism in the Brazilian Amazon: competing hypotheses for biogeographical patterns. Biodivers Conserv 21: 3507–3521. [Google Scholar]
  • Koleff P, Gaston KJ, Lennon JJ. 2003. Measuring beta diversity for presence-absence data. J Animal Ecol 72: 367–382. [CrossRef] [Google Scholar]
  • Laurance WF, Camargo JL, Fearnside PM, et al. 2017. An Amazonian rainforest and its fragments as a laboratory of global change. Biol Rev 93: 223–247. [CrossRef] [Google Scholar]
  • Legendre P. 1993. Spatial autocorrelation: trouble or new paradigm? Ecology 74: 1659–1673. [Google Scholar]
  • Leibold MA, Holyoak M, Mouquet N, et al. 2004. The metacommunity concept: a framework for multi − scale community ecology. Ecol Lett 7: 601–613. [Google Scholar]
  • Ligeiro R, Hughes RM, Kaufmann PR, et al. 2013. Defining quantitative stream disturbance gradients and the additive role of habitat variation to explain macroinvertebrate taxa richness. Ecol Indic 25: 45–57. [Google Scholar]
  • MacArthur RH, Wilson EO. 1967. The Theory of Island Biogeography. Princeton, NJ : Princeton University Press. [Google Scholar]
  • Miguel TB, Oliveira-Junior JMB, Ligeiro R, Juen L. 2017. Odonata (Insecta) as a tool for the biomonitoring of environmental quality. Ecol Indic 81: 555–566. [Google Scholar]
  • Mykrä H, Heino J, Muotka T. 2007, Scale-related patterns in the spatial and environ-mental components of stream macroinvertebrate assemblage variation. Global Ecol Biogeogr 16: 149–159. [CrossRef] [Google Scholar]
  • Nekola JC, White PS. 1999. The distance decay of similarity in biogeography and ecology. J Biogeogr 26: 867–878. [Google Scholar]
  • Nessimian JL, Venticinque EM, Zuanon J, et al. 2008. Land use, habitat integrity, and aquatic insect assemblages in Central Amazonian streams. Hydrobiologia 614: 117. [Google Scholar]
  • Nieser N, Melo AL. 1997. Os Heterópteros aquáticos de Minas Gerais. Guia introdutó-rio com chave de identificação para as espécies de Nepomorpha e Gerromorpha. Belo Horizonte, Univ. Fed. Minas Gerais. [Google Scholar]
  • Oliveira-Júnior JMB, Juen L. 2019a. The Zygoptera/Anisoptera Ratio (Insecta: Odonata): a New Tool for Habitat Alterations Assessment in Amazonian Streams. Neotrop Entomol 48: 552–560. [CrossRef] [PubMed] [Google Scholar]
  • Oliveira-Júnior JMB, Juen L. 2019b. Structuring of dragonfly communities (Insecta: Odonata) in eastern Amazon: effects of environmental and spatial factors in preserved and altered streams. Insects 10: 1–18. [Google Scholar]
  • Oliveira-Junior JMB, Shimano Y, Gardner TA, Hughes RM, Marco Júnior P, Juen L. 2015. Neotropical dragonflies (Insecta: Odonata) as indicators of ecological condi-tion of small streams in the eastern Amazon. Austral Ecol 40: 733–744. [Google Scholar]
  • Pereira LR, Cabette HSR, Juen L. 2012. The use of aquatic insects of order Trichoptera as bioindicators of habitat integrity. Ann Limnol 48: 303–313. [Google Scholar]
  • Peixoto FP, Villalobos F, Melo AS, et al. 2017. Geographical patterns of phylogenetic beta-diversity components in terrestrial mammals. Global Ecol Biogeogr 26: 573–583. [CrossRef] [Google Scholar]
  • Quintana C, Girardello M, Barfod AS, Balslev H. 2017. Diversity patterns, envi-ronmental drivers and changes in vegetation composition in dry inter-Andean valleys. J Plant Ecol 10: 461–475. [Google Scholar]
  • Resh VH, Rosenberg DM. 1993. Freshwater biomonitoring and benthic macroinver-tebrates. Amsterdam: Springer. [Google Scholar]
  • Ribeiro JRI. 2005. Família Belostomatidae Leach, 1815 (Insecta: Hemiptera: Heterop-tera): chave e catálogo de identificação para as espécies ocorrentes no Estado do Rio de Janei-ro, Brasil. Arquivos do Museu Nacional, Rio de Janeiro 63: 247–262. [Google Scholar]
  • Soininen J, Lennon JJ, Hillebrand H. 2007. A multivariate analysis of beta diversity across organisms and environments. Ecology 88: 2830–2838. [Google Scholar]
  • Sutherland WJ, Freckleton RP, Godfray HCJ, et al. 2013. Identification of 100 fundamental ecological questions. J Ecol 101: 58–67. [Google Scholar]
  • Tilman D. 1982. Resource Competition and Community Structure. Princeton University Press, Princeton, p. 296. [Google Scholar]
  • Vellend M. 2010 Conceptual synthesis in community ecology. Q Rev Biol 85: 183–206. [CrossRef] [PubMed] [Google Scholar]
  • Vieira TB, Dias-Silva K, Pacífico ES. 2015. Effects of riparian vegetation integrity on fish and heteroptera communities. Appl Ecol Environ Res 13: 53–65. [Google Scholar]
  • Whittaker RH. 1972. Evolution and measurement of species diversity. Taxon 1: 213–251. [Google Scholar]
  • Wright DH. 1983. Species-Energy Theory: An Extension of Species-Area Theory. Oikos 41: 496–506. [Google Scholar]

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