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Ecological effects of small dams on benthic macroinvertebrate communities of mountain streams (Córdoba, Argentina)

Published online by Cambridge University Press:  17 May 2010

Romina E. Principe*
Affiliation:
Departamento de Ciencias Naturales, Universidad Nacional de Río Cuarto (UNRC), Ruta 36 Km 601, X5804BYA, Río Cuarto, Córdoba, Argentina
*
*Corresponding author: [email protected]
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Abstract

We assessed the effect of small dams on stream habitats and on the structure and function of benthic macroinvertebrate communities in mountain streams of Córdoba, Argentina. Two streams with small dams (impacted streams) and two streams without dams (control streams) from the Carcarañá River upper sub-basin were selected. Dominant hydraulic units were identified and benthic samples were collected in each of these units during high and low water periods. According to this study small dams may have impact on the function and structure of the invertebrate community, though hydraulic habitats would not be affected. Fourteen hydraulic units were found and changes due to dams were not observed as assessed by the detrended correspondence analysis. The canonical correspondence analysis grouped samples mainly in relation to hydraulic habitats whereas TWINSPAN grouped samples according to the presence of dams. Nested ANOVAs showed changes in richness and diversity, in the abundance of filterers and shredders and in the abundance of certain species. Small dams generate quite small reservoirs and their permeability may be greater than those of large dams. The behaviour of macroinvertebrate populations in drift and colonization processes, the continuity of the riparian structure and the discharge of planktonic algae downstream the dams may be some factors determining the ecological changes produced by small impoundments.

Type
Research Article
Copyright
© EDP Sciences, 2010

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References

Allan, J.D. and Castillo, M.M., 2007. Stream ecology – Structure and function of running waters, Springer, Dordrecht.
Ambers, R.K.R., 2007. Effects of a small, century-old dam on a second order stream in the Virginia piedmont. Southeast. Geogr. , 47, 181201.CrossRefGoogle Scholar
American Rivers, Friends of the Earth and Trout Unlimited, 1999. Dam removal success stories: restoring rivers through selective removal of dams that don't make sense, American Rivers, Friends of the Earth and Trout Unlimited, Washington.
Armitage, P.D. and Pardo, I., 1995. Impact assessment of regulation at the reach level using macroinvertebrate information from mesohabitats. Regul. Rivers Res. Manag. , 10, 147158.CrossRefGoogle Scholar
Bain, M.B. and Stevenson, N.J., 1999. Aquatic habitat assessment: common methods , American Fisheries Society, Bethesda.Google Scholar
Baxter, R.M., 1977. Environmental effects of dams and impoundments. Annu. Rev. Ecol. Syst. , 8, 255283.CrossRefGoogle Scholar
Benstead, J.P., March, J.G., Pringle, C. and Scatena, F., 1999. Effects of a low-head dam and water abstraction on migratory tropical stream biota. Ecol. Appl. , 9, 656668.CrossRefGoogle Scholar
Berg, M.B., 1995. Larval food and feeding behaviour. In: Armitage, P.D., Cranston, P.S. and Pinder, L.C.V. (eds.), The Chironomidae – The biology and ecology of non-biting midges , Chapman and Hall, London, 136168.Google Scholar
Brandt, S.A., 2000. Classification of geomorphological effects downstream of dams. Catena , 40, 375401.CrossRefGoogle Scholar
Bredenhand, E. and Samways, M.J., 2009. Impact of a dam on benthic macroinvertebrates in a small river in a biodiversity hotspot: Cape Floristic Region, South Africa. J. Insect Conserv. , 13, 297307.CrossRefGoogle Scholar
Brittain, J.E. and L'Abee-Lund, J.H., 1995. The environmental effects of dams and strategies for reducing their impact. In: Santbergen, L. and Van Westen, C. (eds.), Reservoirs in river basin development , Balkema, Rotterdam, 129138.Google Scholar
Cabido, D., Cabido, M., Garre, S.M., Gorgas, J.A., Miatello, R., Rambaldi, S., Ravelo, A. and Tassile, J.L., 2003. Regiones Naturales de la Provincia de Córdoba, Serie C, Publicaciones Técnicas, Agencia Córdoba, Dirección de Ambiente, Córdoba.
Callisto, M., Moreno, P. and Barbosa, F.A.R., 2001. Habitat diversity and benthic functional trophic groups at Serra do Cipó, Southeast Brazil. Rev. Bras. Biol. , 61, 259266.CrossRefGoogle Scholar
Cantero, G.A., Cantu, M.P., Cisneros, J.M., Cantero, J.J., Blarasin, M., Degioanni, A., Gonzalez, J., Becerra, V., Gil, H., De Prada, J., Degiovanni, S., Cholaky, C., Villegas, M., Cabrera, A. and Eric, C., 1998. Las tierras y aguas del sur de Córdoba: propuestas para un manejo sustentable , Universidad Nacional de Río Cuarto, Córdoba. Google Scholar
Capitanelli, R.G., 1979. Clima. In: Vázquez, J.V., Miatello, R.A. and Roqué, M.E. (dirs.), Geografía Física de la Provincia de Córdoba, Editorial Boldt, Buenos Aires, 45138.
Corigliano, M.C., 1994. El efecto de los embalses sobre la fauna planctónica y bentónica del río Ctalamochita (Tercero), (Córdoba, Argentina). Rev. UNRC , 14, 2338.Google Scholar
Di.P.A.S., 1994. Normas provinciales de calidad y control de aguas para bebida, Res. 608/93 , Vol. 1, Sistema Provincial de Control de Calidad, Córdoba.
Domínguez, E. and Fernández, H.R., 2009. Macroinvertebrados bentónicos sudamericanos – Sistemática y biología , Fundación Miguel Lillo, Tucumán.Google Scholar
Dufrene, M. and Legendre, P., 1997. Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecol. Monogr. , 67, 345366.Google Scholar
Englund, G. and Malmqvist, B., 1996. Effects of flow regulations, habitat area and isolation on the macroinvertebrates fauna of rapids in north Swedish Rivers. Regul. Rivers Res. Manag. , 12, 433445.3.0.CO;2-6>CrossRefGoogle Scholar
Evans, J.E., Huxley, J.M. and Vincent, R.K., 2007. Upstream channel changes following dam construction and removal using a GIS/remote sensing approach. J. Am. Water Resour. Assoc. , 43, 683697.CrossRefGoogle Scholar
FISRWG, 1998. Stream Corridor Restoration: Principles, Processes, and Practices, Federal Interagency Stream Restoration Working Group, USA.
Fleituch, T., 2003. Structure and functional organization of benthic invertebrates in a regulated stream. Int. Rev. Hydrobiol. , 88, 332344.CrossRefGoogle Scholar
Gordon, N.D., Mcmahon, T.A. and Finlayson, B.L., 1994. Stream hydrology, an introduction for ecologists , Wiley and Sons, New York.Google Scholar
Greenberg, A.E., Clesceri, L.S. and Eaton, A.D., 1992. Standard methods for the examination of water and wastewater , American Public Health Association, Washington.Google Scholar
Growns, I.O. and Growns, J.E., 2001. Ecological effects of flow regulation on macroinvertebrate and periphytic diatom assemblages in the Hawkesbury – Nepean River, Australia. Regul. Rivers Res. Manag. , 17, 275293.CrossRefGoogle Scholar
Grubbs, S.A. and Taylor, J.M., 2004. The influence of flow impoundment and river regulation on the distribution of riverine macroinvertebrates at Mammoth Cave National Park, Kentucky, U.S.A. Hydrobiol ., 520, 1928.CrossRefGoogle Scholar
Gumiero, B. and Salmoiraghi, G., 1998. Influence of an impoundment on benthic macroinvertebrate habitat utilization. Verh. Internat. Verein. Limnol. , 26, 20632069.Google Scholar
Harper, D.M., Smith, C., Kemp, J. and Crosa, G., 1998. The use of ‘functional habitats’ in the conservation, management and rehabilitation of rivers. In: Bretschko, G. and Helesic, J. (eds.), Advances in river bottom ecology , Backhuys Publishers, Leiden, 315326.Google Scholar
Hart, D.D., Johnson, T.E., Bushaw-Newton, K.L., Horwitz, R.J., Bednarek, A.T., Charles, D.F., Kreeger, D.A. and Velinsky, D.J., 2002. Dam removal: Challenges and opportunities for ecological research and river restoration. BioScience , 52, 669681.CrossRefGoogle Scholar
Lessard, J.L. and Hayes, D.B., 2003. Effects of elevated water temperature on fish and macroinvertebrate communities below small dams. River Res. Appl. , 19, 721732.CrossRefGoogle Scholar
Lopretto, E.C. and Tell, G., 1995. Ecosistemas de aguas continentales – Metodologías para su studio , Volumes II and III, Ediciones Sur, La Plata.Google Scholar
Lucas, M.C., Bubb, D.H., Jang, M., Ha, K. and Masters, J.E.G., 2008. Availability of and access to critical habitats in regulated rivers: effects of low-head barriers on threatened lampreys. Freshw. Biol. , 54, 621634.CrossRefGoogle Scholar
Luti, R., Bertran, M.A., Galera, F.M., Müller, N., Berzal, M., Nores, M., Herrera, M.A. and Barrera, J.C., 1979. Vegetación. In: Vázquez, J.V., Miatello, R.A. and Roqué, M.E. (dirs.), Geografía Física de la Provincia de Córdoba, Editorial Boldt , Buenos Aires, 318321.Google Scholar
Malmquist, H.L., Antonsson, T., Gudbergsson, G., Skülason, S. and Snorrason, S.S., 2000. Biodiversity of macroinvertebrates on rocky substrate in the surf zone of iceland lakes. Verh. Internat. Verein. Limnol. , 27, 121127.Google Scholar
Maloney, K.O., Dodd, H.R., Butler, S.E. and Wahl, D.H., 2008. Changes in macroinvertebrate and fish assemblages in a medium-sized river following a breach of a low head-dam. Freshw. Biol. , 53, 10551068.CrossRefGoogle Scholar
McCune, B. and Grace, J.B., 2002. Analysis of Ecological Communities , MjM Software, Oregon.Google Scholar
McCune, B. and Mefford, M.J., 1999. Multivariate Analysis of Ecological Data, Version 4.25 , MjM Software, Gleneden Beach.Google Scholar
Meixler, M. and Bain, M., 2003. Habitat fragmentation mapping, Department of Natural Resources, Cornell University, Available online at: http://hydroeco.cfe.cornell.edu/habfrag.htm.
Merritt, R.W. and Cummins, K.W., 1996. An introduction to the aquatic insects of North America , Third edn., Kendall/Hunt, Dubuque.Google Scholar
Merritt, R.W. and Cummins, K.W., 2006. Trophic relationships of macroinvertebrates. In: Hauer, F.R. and Lamberti, G.A. (eds.), Methods in stream ecology , Second edn., Academic Press, San Diego, 585601.Google Scholar
Palmer, M.A. and Poff, N.L., 1997. Heterogeneity in streams. The influence of environmental heterogeneity on patterns and processes in streams. J. North Am. Benthol. Soc. , 16, 169173.CrossRefGoogle Scholar
Poff, N.L. and Hart, D.D., 2002. How dams vary and why it matters for the emerging science of dam removal. BioScience , 52, 659668.CrossRefGoogle Scholar
Power, M.E., Dietrich, W.E. and Finlay, J.C., 1996. Dams and downstream biodiversity: potential food web consequences of hydrologic and geomorphic change. Environ. Manag. , 20, 887895.CrossRefGoogle ScholarPubMed
Principe, R.E., Raffaini, G.B., Gualdoni, C.M., Oberto, A.M. and Corigliano, M.C., 2007. Do hydraulic units define macroinvertebrate assemblages in mountain streams of central Argentina? Limnologica , 37, 323336.CrossRefGoogle Scholar
Protocolo HIDRI, 2006. Protocolo para la valoración de la calidad hidromorfológica de los rios, Agència Catalana de l'Aigua, Available online at: http://aca-eb.gencat.cat/aca/documents/ca/directiva_marc/manual_hidri_cas.pdf.
Reiser, D.W. and Peacock, R.T., 1985. A technique for assessing upstream fish passage problems at small-scale hydropower developments. In: Olson, F.W., White, R.G. and Hamre, R.H. (eds.), Symposium on small hydropower and fisheries , American Fisheries Society, Bethesda, 423432.Google Scholar
Rempel, L.L., Richardson, J.S. and Healey, M.C., 2000. Macroinvertebrate community structure along gradients of hydraulic and sedimentary conditions in a large, gravel-bed river. Freshw. Biol. , 45, 5763.CrossRefGoogle Scholar
Rosgen, D.L., 1996. Applied River Morphology – Wildland Hydrology Books , Pagosa Springs, Ft. Collins.Google Scholar
Rosgen, D.L., 1997. A geomorphological approach to restoration of incised rivers. In: Wang, S.S.Y., Langendoen, E.J. and Shields, F.D. Jr (eds.), Proceedings of the Conference on Management of Landscapes Disturbed by Channel Incision .Google Scholar
Rosgen, D.L., 2006. The Cross-Vane, W-Weir and J-Hook Vane structures and their description, design and application for stream stabilization and river restoration, Wildland Hydrology, Inc. Ft. Collins, Colorado, Available online at: http://www.wildlandhydrology.com/assets/The_Cross_Vane_W-Weir_and_J-Hook_Structures_Paper_Updated_2006.pdf.
Saila, S.B., Poyer, D. and Aube, D., 2005. Small dams and habitat quality in low order streams , Wood-Pawcatuck Watershed Association, Hope Valley. Google Scholar
Sharma, C.M., Sharma, S., Borgstrom, R. and Bryceson, I., 2005. Impacts of a small dam on macroinvertebrates: A case study in the Tinau River, Nepal. Aquat. Ecosyst. Health Manag. , 8, 267275.CrossRefGoogle Scholar
Skalak, K., Pizzuto, J. and Hart, D.D., 2009. Influence of small dams on downstream channel characteristics in Pennsylvania and Maryland: implications for the long-term geomorphic effects of dam removal. J. Am. Water Resour. Assoc. , 45, 97109.CrossRefGoogle Scholar
Ter Braak, C.J.F., 1986. Canonical correspondence analysis: a new eigenvector technique for multivariate direct gradient analysis. Ecology , 67, 11671179.CrossRefGoogle Scholar
Ter Braak, C.J.F. and Smilauer, P., 1998. CANOCO Reference Manual and User's Guide to Canoco for Windows: Software for Canonical Community Ordination (version 4) , Microcomputer Power, Ithaca, New York.Google Scholar
Thomson, J.R., Taylor, M.P., Fryirs, K.A. and Brierley, G.J., 2001. A geomorphological framework for river characterization and habitat assessment. Aquat. Conserv. , 11, 373389.CrossRefGoogle Scholar
Thomson, J.R., Taylor, M.P. and Brierley, G.J., 2003. Are River Styles ecologically meaningful? A test of the ecological significance of a geomorphic river characterization scheme. Aquat. Conserv. , 14, 2548.CrossRefGoogle Scholar
Tickner, D., Armitage, P.D., Bickerton, M.A. and Hall, K.A., 2000. Assessing stream quality using information on mesohabitat distribution and character. Aquat. Conserv. , 10, 170196.3.0.CO;2-U>CrossRefGoogle Scholar
Tomanova, S., Goitia, E. and Helešic, J., 2006. Trophic levels and functional feeding groups of macroinvertebrates in neotropical streams. Hydrobiol. , 556, 251264.CrossRefGoogle Scholar
Townsend, C.R., 1989. The patch dynamics concepts of stream community ecology. J. North Am. Benthol. Soc. , 8, 3650.CrossRefGoogle Scholar
Underwood, A.J., 1994. Spatial and temporal problems with monitoring. In: Calow, P. and Petts, E. (eds.), The Handbook of River , Blackwell, Oxford, 182204.
Vallania, A.E., Medina, A.I. and Sosa, M.E., 1998. Estructura de la comunidad de Trichoptera en un arroyo regulado de la provincia de San Luis, Argentina. Rev. Soc. Entomol. Argent. , 57, 711.Google Scholar
Vallania, A.E. and Corigliano, M.C., 2007. The effect of regulation caused by a dam on the distribution of the functional feeding groups of the benthos in the sub basin of the Grande River (San Luis, Argentina). Environ. Monit. Assess. , 124, 201209.CrossRefGoogle Scholar
Ward, J.V., 1982. Ecological aspects of stream regulation: responses in downstream lotic reaches. Water Pollut. Manag. Rev. (New Delhi), 2, 126.Google Scholar
Ward, J.V., 1992. Aquatic insect ecology – Biology and habitat , Willey and Sons, New York.Google Scholar
Ward, J.V. and Stanford, J.A., 1979. Ecological factors controlling stream zoobenthos with emphasis on thermal modification of regulated streams. In: Ward, J.V. and Stanford, J.A. (eds.), The ecology of regulated streams , Plenum Publishing Corporation, New York, 3555.CrossRefGoogle Scholar
Ward, J.V. and Stanford, J.A., 1995. The serial discontinuity concept: Extending the model to floodplain rivers. Regul. Rivers: Res. Manag. , 11, 105119.CrossRefGoogle Scholar
Zeilhofera, P. and de Moura, R.M., 2009. Hydrological changes in the northern Pantanal caused by the Manso dam: Impact analysis and suggestions for mitigation. Ecol. Eng. , 35, 105117.CrossRefGoogle Scholar
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