Trait-based responses of caddisfly assemblages to the partial channelization of a High-Andean stream

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• 作者：Juan David González-Trujillo
• 关键词：Channelization ; High ; Andean stream ; Channel complexity ; Trait ; based approach ; Trichoptera ; Caddisfly assemblages
• 刊名：Hydrobiologia
• 出版年：2016
• 出版时间：February 2016
• 年：2016
• 卷：766
• 期：1
• 页码：381-392
• 全文大小：1,041 KB
• 参考文献：Angrisano, E. B. & J. V. Sganga, 2009. Trichoptera. In Dominguez, E. & H. R. Fernández (eds), Macroinvertebrados bentónicos sudamericanos: sistemática y ecología (255–308). Fundación Miguel Lillo, Tucumán: 255–308.
  Armitage, P. D. & I. Pardo, 1995. Impact assessment of regulation at the reach level using macroinvertebrate information from Mesohabitats: Regulated Rivers. Research & Management 10: 147–158.
  Beisel, J. N., P. Usseglio-Polatera, S. Thomas & J. C. Moreteau, 1998. Stream community structure in relation to spatial variation: the influence of mesohabitat characteristics. Hydrobiologia 389: 73–88.CrossRef
  Beisel, J. N., P. Usseglio-Polatera & J. C. Moreteau, 2000. The spatial heterogeneity of a river bottom: a key factor determining macroinvertebrate communities. Hydrobiologia 422–423: 163–171.CrossRef
  Bonada, N., C. Zamora-Muñoz, M. Rieradevall & N. Prat, 2004. Ecological profiles of caddisfly larvae in Mediterranean streams: implications for bioassessment methods. Environmental Pollution 132: 509–521.PubMed CrossRef
  Boyero, L., 2003. The quantification of local substrate heterogeneity in streams and its significance for macroinvertebrate assemblage. Hydrobiologia 499: 161–168.CrossRef
  Chevenet, F., S. Dolédec & D. Chessel, 1994. A fuzzy coding approach for the analysis of long-term ecological data. Freshwater Biology 31: 295–309.CrossRef
  Demars, B. O. L., J. L. Kemp, N. Friberg, P. Usseglio-Polatera & D. M. Harper, 2012. Linking biotopes to invertebrates in rivers: biological traits, taxonomic composition and diversity. Ecological Indicators 23: 301–311.CrossRef
  Dohet, A., D. Dolisy, L. Hoffmann & M. Dufrêne, 2002. Identification of bioindicator species among Ephemeroptera, Plecoptera and Trichoptera in a survey of streams belonging to the rhithral classification in the Grand Duchy of Luxembourg. Verhandlungen der Internationalen Vereinigung fur Theoretische und Angewandte Limnologie 28: 381–386.
  Dolédec, S. & B. Statzner, 2008. Invertebrate traits for the biomonitoring of large European rivers: an assessment of specific types of human impact. Freshwater Biology 53: 617–634.CrossRef
  Dolédec, S., B. Statzner & M. Bournaud, 1999. Species traits for future biomonitoring across ecoregions: patterns along a human-impacted river. Freshwater Biology 42: 737–758.CrossRef
  Edwards, C. J., B. L. Griswold, R. A. Tubb, E. C. Weber & L. C. Woods, 1984. Mitigating effects of artificial riffles and pools on the fauna of a channelized warmwater stream. North American Journal of Fisheries Management 4: 194–203.CrossRef
  Elosegi, A. & S. Sabater, 2013. Effects of hydromorphological impacts on river ecosystem functioning: a review and suggestions for assessing ecological impacts. Hydrobiologia 712: 129–143.CrossRef
  Elosegi, A., J. Diez & M. Mutz, 2010. Effects of the hydromorphological integrity on biodiversity and functioning of river ecosystems. Hydrobiologia 657: 199–215.CrossRef
  Gotsner, W., M. Alp, J. A. Schleiss & C. T. Robinson, 2013. The hydromorphological index of diversity: a tool for describing habitat heterogeneity in river engineering projects. Hydrobiologia 712: 43–60.CrossRef
  Growns, I. O. & J. A. Davis, 1994. Longitudinal changes in near-bed flows and macroinvertebrate communities in a Western Australian stream. Journal of the North American Benthological Society 13: 417–438.CrossRef
  Gutiérrez, J. D., 2006. Caracterización del metabolismo y de la oferta de recursos de Materia orgánica para la fauna de macroinvertebrados bentónicos en una quebrada de montaña de orden menor. Doctoral Thesis, Universidad Nacional de Colombia.
  Heino, J., P. Louhi & T. Moutka, 2004. Identifying the scales of variability in stream macroinvertebrate abundance, functional composition and assemblage structure. Freshwater Biology 49: 1230–1239.CrossRef
  Holzenthal, R. W., J. C. Morse & K. M. Kjer, 2011. Animal biodiversity: an outline of higher-level classification and survey of taxonomic richness. Zootaxa 3148: 209–211.
  Hutchinson, G. E., 1957. The multivariate niche. Cold Spring Harbor Symposia on Quantitative Biology XXII: 415–427.CrossRef
  Lamouroux, N., S. Dolédec & S. Gayraud, 2004. Biological traits of stream macroinvertebrate communities: effects of microhabitat, reach, and basin filters. Journal of the North American Benthological Society 23: 449–466.CrossRef
  Lancaster, J. & B. J. Downes, 2010. Ecohydraulics needs to embrace ecology and sound science, and to avoid mathematical artifacts. River Research and Applications 26: 921–929.CrossRef
  Li, H. & J. F. Reynolds, 1995. On definition and quantification of heterogeneity. Oikos 73: 280–284.CrossRef
  Li, J., A. Herlihy, W. Gerth, P. Kaufmann, S. Gregory, S. Urquhart, & D.P. Larsen, 2001. Variability in stream macroinvertebrates at multiple spatial scales.Freshwater Biology 46: 87–97.CrossRef
  Mackay, R. J. & G. B. Wiggins, 1979. Ecological diversity in Trichoptera. Annual Review of Entomology 24: 185–208.CrossRef
  Malm, T., K. A. Johanson & N. Wahlberg, 2013. The evolutionary history of Trichoptera (Insecta): a case of successful adaptation to life in freshwater. Systematic Entomology 38: 459–473.CrossRef
  McGill, B. J., B. J. Enquist, E. Weiher & M. Westoby, 2006. Rebuilding community ecology from functional traits. Trends in Ecology and Evolution 21: 178–185.PubMed CrossRef
  Menezes, S., D. J. Baird & A. M. Soares, 2010. Beyond taxonomy: a review of macroinvertebrate trait-based community descriptors as tools for freshwater biomonitoring. Journal of Applied Ecology 47: 711–719.CrossRef
  Mérigoux, S. & S. Dolédec, 2004. Hydraulic requirements of stream communities: a case study on invertebrates. Freshwater Biology 49: 600–613.CrossRef
  Mondy, C. P. & P. Usseglio-Polatera, 2014. Using fuzzy-coded traits to elucidate the non-random role of anthropogenic stress in the functional homogenization of invertebrate assemblages. Freshwater Biology 59: 584–600.CrossRef
  Moutka, T. & P. Laasonen, 2002. Ecosystem recovery in restored headwater streams: the role of enhanced litter retention. Journal of Applied Ecology 39: 145–156.CrossRef
  Negishi, J. N. & J. S. Richardson, 2003. Responses of organic matter and macroinvertebrates to placements of Boulder clusters in a small stream of southwestern British, Columbia, Canada. Canadian Journal of Fisheries and Aquatic Sciences 60: 247–258.CrossRef
  Negishi, J. N., M. Inoue & M. Nunokawa, 2002. Effects of channelisation on stream habitat in relation to a spate and flow refugia for macroinvertebrates in northern Japan. Freshwater Biology 47: 515–517.CrossRef
  Posada-García, J. A. & G. Roldán-Pérez, 2003. Clave ilustrada y diversidad de las larvas de Trichoptera en el nor-occidente de Colombia. Caldasia 25: 169–192.
  Quinn, J. M., R. B. Williamson, R. K. Smith & M. L. Vickers, 1992. Effects of riparian grazing and channelisation on streams in Southland, New Zealand. 2. Benthic invertebrates. New Zealand Journal of Marine and Freshwater Research 26: 259–273.CrossRef
  R Core Team 2014. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. http://​www.​R-project.​org
  Resh, V. H., 1992. Recent trends in the use of Trichoptera in water quality monitoring. Proceedings of the seventh International Symposium on Trichoptera 1992: 285–291.
  Scarsbrook, M. R. & C. R. Townsend, 1993. Stream community structure in relation to spatial and temporal variation: a habitat templet study of two contrasting New Zealand streams. Freshwater Biology 29: 395–410.CrossRef
  Schmera, D. & T. Eros, 2004. Effect of riverbed morphology, stream order and season on the structural and functional attributes of caddisfly assemblages (Insecta: Trichoptera). International Journal of Limnology 40: 193–200.CrossRef
  Southwood, T. R. E., 1977. Habitat, the templet for ecological strategies? Journal of Animal Ecology 46: 337–365.CrossRef
  Statzner, B. & L. A. Bêche, 2010. Can biological invertebrate traits resolve effects of multiple stressors on running water ecosystems? Freshwater Biology 55: 80–119.CrossRef
  Statzner, B., J. A. Gore & V. H. Resh, 1988. Hydraulic stream ecology: observed patterns and potential applications. Journal of the North American Benthological Society 7: 307–360.CrossRef
  Tachet, H., P. Usseglio-Polatera & C. Roux, 1994. Theoretical habitat templets, species traits, and species richness: Trichoptera in the Upper Rhône River and its floodplain. Freshwater Biology 31: 397–416.CrossRef
  Thorp, J. H., M. C. Thoms & M. D. Delong, 2006. The riverine ecosystem synthesis: biocomplexity in river networks across space and time. River Research and Applications 22: 123–147.CrossRef
  Tomanova, S. & P. Usseglio-Polatera, 2007. Patterns of Benthic community traits in neotropical streams: relationship to mesoscale spatial variability. Fundamental and Applied Limnology 170: 243–255.CrossRef
  Townsend, C. R. & A. G. Hildrew, 1994. Species traits in relation to a habitat templet for river systems. Freshwater Biology 31: 265–275.CrossRef
  Townsend, C. R., M. R. Scarsbrook & S. Dolédec, 1997. Quantifying disturbance in streams: alternative measures of disturbance in relation to macroinvertebrate species traits and species richness. Journal of the North American Benthological Society 16: 531–544.CrossRef
  Vázquez-Ramos, J., G. Guevara-Cardona & G. Reinoso-Flórez, 2014. Environmental factors associated with habitat preferences by caddisfly larvae in tropical dry forest watersheds (Tolima, Colombia). Revista de Biología Tropical 62: 21–40.CrossRef
  Wallace, J. B. & J. R. Webster, 1996. The role of macroinvertebrates in stream ecosystem function. Annual Review of Entomology 41: 115–139.PubMed CrossRef
  Wiggins, G., 2004. Caddisflies: The Underwater Architects. University of Toronto Press, Toronto.
  Wiggins, G. B. & W. Wichard, 1989. Phylogeny of pupation in Trichoptera, with proposals on the origin and higher classification of the order. Journal of the North American Benthological Society 8: 260–276.CrossRef
  Wilcock, D. N. & C. I. Essery, 1991. Environmental impacts of channelization on the River Main, County Antrim, Northern Ireland. Journal of Environmental Management 32: 127–143.CrossRef
  
• 作者单位：Juan David González-Trujillo (1)
  
  1. Biology Department, National University of Colombia, Av (Cra.) 30 No. 45-03, Bogotá D.C., Colombia
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Hydrobiology
  Ecology
  
• 出版者：Springer Netherlands
• ISSN：1573-5117

文摘

The importance of channel complexity in maintaining biological integrity and ecosystem functioning has been addressed by several researchers. In spite of this, High-Andean streams are being channelized without regard to the effect that channelization might have on stream communities. To attempt to determine these effects, the present study evaluated how caddisfly assemblages respond to channelization in a High-Andean stream. A trait-based approach was used to compare trait-based responses, and the degree of functional homogenization caused by channelization. A total of seven traits are described: (i) ‘Food,’ (ii) ‘Feeding habits,’ (iii) ‘Maximum body size,’ (iv) ‘Adaptation to flow constrains,’ (v) ‘Body flexibility,’ (vi) ‘Case-material,’ and (vii) ‘Case-shape.’ Both the functional structure of the assemblages and the channel complexity of the channelized site were characterized and compared to those of two undisturbed sites. The results suggest that certain genera become dominant as a result of the environmental changes caused by partial channelization. Specifically, assemblages underwent significant specialization in ‘Food,’ ‘Feeding habits,’ and ‘Case-shape,’ and this was linked to the homogenization in mesohabitat type and in hydraulic variability. The trends evident in the trait-based responses may serve as a basis for proposing and assessing strategies to restore the hydromorphological integrity of High-Andean streams. Keywords Channelization High-Andean stream Channel complexity Trait-based approach Trichoptera Caddisfly assemblages