Resumen
Aquatic macroinvertebrates are involved in numerous processes within aquatic ecosystems. They often have important effects on ecosystem processes such as primary production (via grazing), detritus breakdown, and nutrient mineralization and downstream spiraling. The functional feeding groups (FFG) classification was developed as a tool to facilitate the incorporation of macroinvertebrates in studies of aquatic ecosystems. This classification has the advantage of combining morphological characteristics (e.g., mouth part specialization) and behavioral mechanisms (e.g., way of feeding) used by macroinvertebrates when consuming resources. Although recent efforts have greatly advanced our ability to identify aquatic macroinvertebrates, there is limited information on FFG assignment. Furthermore, there has been some variation in the use of the FFG classification, in part due to an emphasis on using gut content analysis to assign FFG, which is more appropriate for assigning trophic guilds. Thus, the main goals of this study are to (1) provide an overview of the value of using the FFG classification, (2) make an initial attempt to summarize available information on FFG for aquatic insects in Latin America, and (3) provide general guidelines on how to assign organisms to their FFGs. FFGs are intended to reflect the potential effects of organisms in their ecosystems and the way they consume resources. Groups include scrapers that consume resources that grow attached to the substrate by removing them with their mouth parts; shredders that cut or chew pieces of living or dead plant material, including all plant parts like leaves and wood; collectors-gatherers that use modified mouth parts to sieve or collect small particles (<1mm) accumulated on the stream bottom; filterers that have special adaptations to remove particles directly from the water column; and predators that consume other organisms using different strategies to capture them. In addition, we provide details on piercers that feed on vascular plants by cutting or piercing the tissue using sharp or chewing mouth parts and consume plant liquids. We also provide a list of families of aquatic insects in Latin America, with an initial assignment to FFGs. We recommended caution when assigning FFGs based on gut contents, as it can provide misleading information. Overall, FFG is a very useful tool to understand the role of aquatic macroinvertebrates in stream ecosystems and comparisons among studies will benefit from consistency in their use. Rev. Biol. Trop. 62 (Suppl. 2): 155-167. Epub 2014 April 01.Citas
Barbee, N. C. (2005). Grazing insects reduce algal biomass in a neotropical stream. Hydrobiologia, 532, 153-165.
Baptista, D. F., Buss, D. F., Dias, L. G., Nessimian, J. L., Da Silva, E. R., De Moraes Neto, A. H. A., de Carvalho, S. N., De Oliveira, M. A., & Andrade, L. R. (2006). Functional feeding groups of Brazilian Ephemeroptera nymphs: ultrastructure of mouthparts. Annales de Limnologie, 42, 87-96.
Benke, A. C., & Wallace, J. B. (1980). Trophic basis of production among net-spinning caddisflies in a southern Appalachian stream. Ecology, 6, 108-118.
Benke, A. C., & Wallace, J. B. (1997). Trophic basis of production among riverine caddisflies: implications for food web analysis. Ecology, 78, 1132-1145.
Blondel, J. (2003). Guilds or functional groups: does it matter? Oikos, 100, 223-231.
Céréghino, R. (2006). Ontogenetic diet shifts and their incidence on ecological processes: a case study using two morphologically similar stoneflies (Plecoptera). Acta Oecologica, 30, 33-38.
Chará-Serna, A. M., Chará, J. D., Zúñiga, M. d. C., Pedraza, G. X., & Giraldo, L. P. (2010). Clasificación trófica de insectos acuáticos en ocho quebradas protegidas de la ecorregión cafetera Colombiana. Universitas Scientiarum, 15, 27-36.
Chará-Serna, A. M., Chará, J. D., Zuniga, M. d. C., Pearson, R. G., & Boyero, L. (2012). Diets of leaf litter-associated invertebrates in three tropical streams. Annales de Limnologie, 48, 139-144.
Chew, R. M. 1974. Consumers as regulators of ecosystems: an alternative to energetics. Ohio Journal of Sciences, 74, 359-370.
Cooper, S. D., Walde, S. J., & Peckarsky, B. L. (1990). Prey exchange rates and the impact of predators on prey population in streams. Ecology, 71, 1503-1514.
Cronin, G., Schlacher, T., Lodge, D. M., & Siska, E. L. (1999). Intraspecific variation in feeding preference and performance of Galerucella nymphaeae (Chrysomelidae: Coleoptera) on aquatic macrophytes. Journal of the North American Benthological Society, 18, 391-405.
Cross, W. F., Ramírez, A., Santana, A., & Silvestrini, L. (2008). Toward separating the relative importance of invertebrate consumption and bioturbation in Puerto Rican streams. Biotropica, 40, 477-484.
Crowl, T. A., McDowell, W. H., Covich, A. P., & Johnson, S. L. (2001). Freshwater shrimp effects on detrital processing and nutrients in a tropical headwater stream. Ecology, 82, 775-783.
Cuffney, T. F., Wallace, J. B. & Lugthart, G. J. (1990). Experimental evidence quantifying the role of benthic invertebrates in organic matter dynamics of headwater streams. Freshwater Biology, 23, 281-299.
Cummins, K. W. (1973). Trophic relations of aquatic insects. Annual Review in Entomology, 18, 183-206.
Cummins, K. W., & Klug, M. J. (1979). Feeding ecology of stream invertebrates. Annual Review in Ecology and Systematics, 10, 147-172.
Cummins, K. W., Wilzbach, M. A., Gates, D. M., Perry, J. B., & Taliaferro, W. B. (1989). Shredders and riparian vegetation. BioScience, 39, 24-30.
Cummins, K. W., Merritt, R. W., & Andrade, P. C. N. (2005). The use of invertebrate functional groups to characterize ecosystem attributes in selected streams and rivers in south Brazil. Studies of Neotropical Fauna and the Environment, 40, 69-89.
Díaz Villanueva, V., Albariño, R., & Canhoto, C. (2012). Positive effect of shredders on microbial biomass and decomposition in stream microcosms. Freshwater Biology, 57, 2504-2513.
Domínguez, E., & Fernández, H. R. (2009). Macroinvertebrados bentónicos sudamericanos. Tucumán: Fundación Miguel Lillo.
Feminella, J. W., & C. P. Hawkins. (1995). Interactions between stream herbivores and periphyton: a quantitative analysis of past experiments. Journal of the North American Benthological Society 14, 465-509.
Gessner, M. O., Chauvet, E., & Dobson, M. (1999). A perspective on leaf litter breakdown in streams. Oikos, 85, 377-384.
Hawking, J. H., Smith, L. M., & Le Busque, K. (Eds.). (2013). Identification and Ecology of Australian Freshwater Invertebrates. Murray-Darling Freshwater Research Centre. (retrieved from http://www.mdfrc.org.au/bugguide, Version January 2009, Accessed August 10, 2013)
Heard, S., & Richardson, J. S. (1995). Shredder-collector facilitation in stream detrital food webs: is there enough evidence? Oikos, 72, 359-366.
Hershey, A. E. (1987). Tubes and foraging behavior in larval Chironomidae: implications for predator avoidance. Oecologia, 73, 236-241.
Jackson, J. K., & Sweeney, B. W. (1995). Egg and larval development times for 35 species of tropical stream insects from Costa Rica. Journal of the North American Benthological Society, 14, 115-130.
Jardim, G. A., & Nessimian, J. L. (2011). A new species of Contulma Flint (Trichoptera, Anomalopsychidae) from southeastern Brazil. Revista Brasileira de Entomologia, 55(2), 226-228.
Lamberti, G. A., & Resh, V. H. (1983). Stream periphyton and insect herbivores: An experimental study of grazing by a caddisfly population. Ecology, 64, 1124-1135.
Lamberti, G. A., Gregory, S. V., Ashkenas, L. R., Steinman, A. D., & McIntire, C. D. (1989). Productive capacity of periphyton as a determinant of plant-herbivore interactions in streams. Ecology, 70, 1840-1856.
Lock, M., Costerton, J., Ventullo, R., Wallace, R., & Charlton, S. (1984). River epilithon: toward a structural-functional model. Oikos, 42, 10-22.
Lugthart, G. J. & Wallace, J. B. (1992). Effects of disturbance on benthic functional structure and production in mountain streams. Journal of the North American Benthological Society, 11, 138-164.
Mazzucconi, S. A., López Ruf, M. L., & Bachmann, A. O. (2009). Hemiptera-Heteroptera: Gerromorpha y Nepomorpha. In E. Domínguez & H. R. Fernández (Eds.), Macroinvertebrados bentónicos sudamericanos (pp. 167-231). Tucumán: Fundación Miguel Lillo.
McShaffrey, D., & McCafferty, W. P. (1988). Feeding Behavior of Rhithrogena pellucida (Ephemeroptera:Heptageniidae). Journal of the North American Benthological Society, 7, 87-99.
Merritt, R. W., & Cummins, K. W. (1978). An introduction to the aquatic insects of North America. Iowa: Kendall/Hunt Publishing Company.
Merritt, R. W., Craig, D. A., Wotton, R. S., & Walker, E. D. (1996). Feeding Behavior of Aquatic Insects: Case Studies on Black Fly and Mosquito Larvae. Invertebrate Biology, 115, 206-217.
Merritt, R. W., Cummins, K. W., & Berg, M. (Eds.). (2008). An introduction to the aquatic insects of North America. Iowa: Kendall/Hunt Publishing Company.
Molineri C. & Dominguez E. (2003). Nymph and egg of Melanemerella brasiliana (Ephemeroptera: Ephemerelloidea: Melanemerellidae), with comments on its systematic position and the higher classification of Ephemerelloidea. Journal of the North American Benthological Society 22(2): 263-275.
Mulholland, P. J., Elwood, J. W., Newbold, J. D., & Ferren, L. A. (1985). Effect of a leaf-shredding invertebrate on organic matter dynamics and phosphorus spiralling in heterotrophic laboratory streams. Oecologia, 66, 199-206.
Oberndorfer, R. Y., McArthur, J. V., & Barnes, J. R. (1984). The effects of invertebrate predators on leaf litter processing in an alpine stream. Ecology, 65, 1325-1331.
Palmer, C., Palmer, A., O’ Keeffe, J., & Palmer, R. (1994). Macroinvertebrate community structure and altitudinal changes in the upper reaches of a warm temperate southern African river. Freshwater Biology, 32, 337-347.
Polegatto, C. M., & Froehlich, C. G. (2001). Functional morphology of the feeding apparatus of the nymph of Farrodes sp. (Ephemeroptera: Leptophlebiidae). Acta Zoologica, 82, 165-175.
Polegatto, C. M., & Froehlich, C. G. (2003). Feeding strategies in Atalophlebiinae (Ephemeroptera: Leptophlebiidae), with considerations on scraping and filtering. In Gaino E. (Ed). Research update on Ephemeroptera & Plecoptera (pp. 55-61). Perugia: Università di Perugia.
Ramírez, A., & Pringle, C. M. (1998). Structure and production of a benthic insect assemblage in a Neotropical stream. Journal of the North American Benthological Society, 17, 443-463.
Ramírez, A. 2010. Odonata. Revista de Biología Tropical, 58(Suppl. 4), 97-136.
Simberloff, D., & Dayan, T. (1991). The guild concept and the structure of ecological communities. Annual Review of Ecology and Systematics, 22, 115-143.
Springer, M., Ramírez, A., & Hanson, P. (2010). Macroinvertebrados de agua dulce de Costa Rica I. Revista de Biología Tropical, 58(Suppl. 4), 1-200.
Swanson, A. K., Hrinda, S., & Keiper, J. B. (2007). Laboratory assessment of altered atmospheric carbon dioxide on filamentous green algae phenolic content and caddisfly growth and survival. Journal of Freshwater Ecology, 22, 49-60.
Tomanova, S., Goitia, E., & Helesic, J. (2006). Trophic levels and functional feeding groups of macroinvertebrates in neotropical streams. Hydrobiologia, 556, 251–264.
Usio, N., Konishi, M., & Nakano, S. (2001). Is invertebrate shredding critical for collector invertebrates? A test of the shredder–collector facilitation hypothesis. Ecological Research, 16, 319-326.
Vanni, M. J. (2002). Nutrient cycling by animals in freshwater ecosystems. Annual Review of Ecology and Systematics, 33, 341-370.
Vannote, R. L., Minshall, G. W., Cummins, K. W., Sedell, J. R., & Cushing, C. E. (1980). The river continuum concept. Canadian Journal of Fisheries and Aquatic Sciences, 37, 130-137.
Wallace, J. B., Webster, J. R., & Cuffney, T. F. (1982). Stream detritus dynamics: Regulation by invertebrate consumers. Oecologia, 53, 197-200.
Wallace, J. B. & Webster, J. R. (1996). The role of macroinvertebrates in stream ecosystem function. Annual Review of Ecology and Systematics, 41, 115-139.
Webster, J. R. & Benfield, E. F. (1986). Vascular plant breakdown in freshwater ecosystems. Annual Review of Ecology and Systematics, 17, 567-594.
Wiggins, G. B. (2004). Caddisflies, the Underwater Architects. Toronto: University of Toronto Press.
Wisely, B. (1961). Studies on Ephemeroptera 1. Coloburiscus humeralis (Walker); early life history and nymph. Transactions of the Royal Society of New Zealand Zoology, 1, 249-257.
Wotton, R. S., Malmqvist, B., Muotka, T., & Larsson, K. (1998). Fecal pellets from a dense aggregation of suspension-feeders in a stream: An example of ecosystem engineering. Limnology and Oceanography, 43, 719-725.
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