Incorporation of aquatic ecology to the hydrological investigation of ecosystems in the high Andes

Authors

  • Henrietta Hampel Grupo de Ciencias de la Tierra y del Ambiente, Dirección de Investigación, Universidad Cuenca https://orcid.org/0000-0003-2249-5369
  • Jenny Cocha Grupo de Ciencias de la Tierra y del Ambiente, Dirección de Investigación, Universidad Cuenca
  • Diego Vimos Grupo de Ciencias de la Tierra y del Ambiente, Dirección de Investigación, Universidad Cuenca

DOI:

https://doi.org/10.18537/mskn.01.01.07

Keywords:

aquatic ecosystems, high mountain, vegetation cover, ultraviolet radiation, hydrological connectivity, ecosystem functioning

Abstract

Ecosystem services in high mountains support the life of millions of people dependent on the well functioning of these ecosystems. Collection and interpretation of hydrologic data in South Ecuador has a long record but almost no ecological investigation has been carried out in the various aquatic ecosystems. Combined, hydrologic and ecological research would provide an integrated picture on the functioning and importance of high mountain ecosystems which in future could be the base of new projects and policies on protection and conservation measures at local and regional scale. This article describes an ongoing research with general objective the characterization of the structure of various aquatic ecosystems based on the sampling of different trophic levels and analysis of the limnology. More specific objectives are: (1) definition of the conservation status of high mountain lagoons; (2) analyzing the effect of vegetation cover on aquatic community structure; (3) assessing the impact of hydrological connectivity on the faunal composition of different ecosystems; and (4) examining the effect of ultraviolet radiation on the status of aquatic communities. Project activities cover: detailed planning of sampling activities, implementation of sampling campaigns for the collection of needed samples and information, laboratory work, data analyses using various statistical methods and publishing results in extension and scientific manuscripts. The project will improve the knowledge of the ecosystem functioning of high mountain ecosystems in South Ecuador.

 

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References

Alonso, C., V. Rocco, P. Barriga, M.A. Battini, H. Zagarese, 2004. Surface avoidance by freshwater zooplankton: Field evidence on the role of ultraviolet radiation. Limnol. Oceanogr., 49(1), 225-232.

Andrew, D.E., L.S. Clesceri, E.W. Rice, A.E. Greenberg, M.A.H. Franson, 2005. Standard Methods for the Examination of Water & Wastewater: Centennial Edition. American Public Health Association, 21, 1134 pp.

Barros, S., M.C. Carrasco, 2006. Estudio limnologico en la laguna de Surocucho (Cuenca hidrografica de Llaviuco). Report ETAPA, 42 pp.

Brendonck, L., B.J. Riddoch, 2000. Dispersal in the desert rock pool anostracan Branchipodopsis wolfi (Crustacea: Branchiopoda). Crustacean Issues, 12, 109-118.

Brendonck, L., W.D. Williams, 2000. Biodiversity in wetlands of dry regions (drylands). In Biodiversity in Wetlands: Assessment, Function and Conservation, Vol. 1, Gopal, B, W.J. Junk, J.A. Davis (Eds). Backhuys Publishers: Leiden, The Netherlands, 181-194.

Brendonck, L., L. De Meester, B.J. Riddoch, 2000. Regional structuring of genetic variation in short-lived rock pool populations of Branchipodopsis wolfi (Crustacea: Anostraca). Oecologia, 123, 506-515.

Cabrera, S., M. Lopez, B. Tartarotti, 1997. Phytoplankton and zooplankton response to ultraviolet radiation in a high-altitude Andean lake: short- versus long-term effects. J. Plankton Res., 19(2), 1565-1582.

Calado, A.J., S.F.P. Almeida, S.C. Craveiro, 2005. Phycological surveys and monitoring in Portugal - a summary. Algas - Boletine de la Sociedad Espanola de Ficologia, 36-41.

Celleri, R., J. Feyen, 2009. The hydrology of tropical Andean ecosystems: Importance, Knowledge status and Perspectives. Mt. Res. Dev., 29(4), 350-355.

Colin, R.T., B.J. Downes, K. Peacock, C.J. Arbuckle, 2004. Scale and the detection of land-use effects on morphology, vegetation and macroinvertebrate communities of grassland streams. Freshwater Biol., 49, 448-462.

Coronel, J.S., S. Declerck, M. Maldonado, F. Ollevier, L. Brendonck, 2004. Temporary shallow pools in the high-Andes ‘bofedal’ peat lands: a limnological characterization at different spatial scales. Archives des Sciences, 57, 85-96.

Coronel, J.S., S. Declerck, L. Brendonck, 2007. High-altitude peatland temporary pools in Bolivia house a high cladoceran diversity. Wetlands, 27(4), 1166-1174.

de Bicudo, C.E., M. Menezes, 2006. Generos de algas de águas continentais do Brasil. RIMA, 498 pp.

De Meester, L., S. Declerck, R. Stoks, G. Louette, F. Van De Meutter, T. De Bie, E. Michels, L. Brendonck, 2005. Ponds and pools as model systems in conservation biology, ecology and evolutionary biology. Aquat. Conserv., 15, 715-725.

Dominguez, E., H.R. Ferandez, 2009. Macroinvertebrados bentonicos sudamericanos: sistematica y biologia. Fundación Miguel Lillo, Tucuman, Argentina, 656 pp.

Dudgeon, D., 2000. Going with the flow: large-scale hydrological changes and prospects for riverine biodiversity in tropical Asia. BioScience, 50, 793-806.

Feminella, J.W., M.E. Power, V.W. Resh, 1989. Periphyton responses to invertebrate grazing and riparian canopy in three northern California coastal streams. Freshwater Biol., 22, 445-457.

Florencio, M., L. Serrano, C. Gómez-Rodríguez, A. Millán, C. Díaz-Paniagua, 2008. Inter- and intra-annual variations of macroinvertebrate assemblages are related to the hydroperiod in Mediterranean temporary ponds. Hydrobiologia, 634(1), 167-183.

Fuller, R.L., J.L. Roelofs, T.J. Fry, 1986. The importance of algae to stream invertebrates. J. N. Am. Benthol. Soc., 5, 290-296.

Häder, D.P., H.D. Kumar, R.C. Smith, R.C. Worrest, 2007. Effects of solar UV radiation on aquatic ecosystems and interactions with climate change. Photochem. Photobiol. Sci., 6, 267-285.

Jacobsen, D., A. Encalada, 1998. The macroinvertebrate fauna of Ecuadorian highland streams in wet and dry seasons. Arch. Hydrobiol., 142(1), 53-70.

Jacobsen, D., R. Schultz, A. Encalada, 1997. Structure and diversity of stream invertebrate assemblages: the influence of temperature with altitude and latitude. Freshwater Biol., 38, 247-261.

Jansson, R., C. Nilsson, B. Malmqvist, 2007. Restoring freshwater ecosystems in riverine landscapes: the roles of connectivity and recovery processes. Freshwater Biol., 52(4), 589-596.

Kundzewicz, Z.W., 2002. Ecohydrology-seeking consensus on interpretation of the notion. Hydrolog. Sci. J., 47(5), 799-804.

Mitsch, W.J., 1993. Ecological Engineering - a cooperative role with planetary life-support system. Environ. Sci. Technol., 27, 438-445.

Nelson, E., G. Mendoza, J. Regetz, S. Polasky, H. Tallis, D.R. Cameron, K.M.A. Chan, G.C. Daily, J. Goldstein, P.M. Kareiva, E. Lonsdorf, R. Naidoo, T.H. Ricketts, M.R. Shaw, 2009. Modeling multiple ecosystem services, biodiversity conservation, commodity production, and tradeoffs at landscape scales. Front. Ecol. Environ., 7(1), 4-11.

Oertli, B., J.D. Auderset, E. Castella, R. Juge, D. Cambin, J.B. Lachavanne, 2002. Does size matter? The relationship between pond area and biodiversity. Biol. Conserv., 104, 59-70.

Petts, G.E., Y. Morales-Chaves, J.P. Sadler, 2006. Linking hydrology and biology to assess the water needs of river ecosystems. Hydrol. Process., 20, 2247-2251.

Polis, G.A., D.R. Strong, 1996. Food web complexity and community dynamics. Am. Nat., 147(5), 813-846.

Pringle, C.M., 2001. Hydrological connectivity and the management of biological reserves: a global perspective. Ecol. Appl., 11, 981-998.

Ríos, S.L., R.C. Bailey, 2006. Relationship between riparian vegetation and stream benthic communities at three spatial scales. Hydrobiologia, 553, 153-160.

Riley, R.H., Townsend, C.R., Niyogi, D.K., Arbuckle, C.A., K.A. Peacock, 2003. Headwater stream response to grassland agricultural development in New Zealand. New Zealand Journal of Marine and Freshwater Research, 37, 389-403.

Sites, R.W., M.R. Willig, M.J. Linit, 2003. Macroecology of aquatic insects: A quantitative analysis of taxonomic richness and composition in the Andes mountains of Northern Ecuador. Biotropica, 35(2), 226-239.

Smirnov, N.N., 1996. Cladocera: the Chydoridae and Sayciinae (Chydoridae) of the world. Series: H. J. Dumont (ed.) Guides to the Identification of the Macroinvertebrates of the Continental Waters of the World. SPB Academic Publishing, Vol. 11, 197 pp.

Speekmann, C.L., S.M. Bollens, S.R. Avent, 2000. The effect of ultraviolet radiation on the vertical distribution and mortality of estuarine zooplankton. J. Plankton Res., 22(12), 2325-2350.

Sponseller, R.A., E.F. Benfield, H.M. Valett, 2001. Relationships between land use, spatial scale and stream macroinvertebrate communities. Freshwater Biol., 46, 1409-1424.

Sweeney, B.W., 1993. Effects of streamside vegetation on macroinvertebratecommunities of White Clay Creek in Eastern North America. P. Acad. Nat. Sci. Phila., 144, 291-340.

Townsend, C.R., Thompson, R.M., McIntosh, A.R., Kilroy, C., Edwards, E. M.R. Scarsbrook, 1998. Disturbance, resource supply and food-web architecture in streams. Ecology Letters, 1, 200-209.

Ward, J.V., 1998. Riverine landscapes: Biodiversity patterns, disturbance regimes and aquatic conservation. Biol. Conserv., 83(3), 269-278.

Williams, P., M. Whitfield, J. Biggs, S. Bray, G. Fox, P, Nicolet, D. Sear, 2004. Comparative biodiversity of rivers, streams, ditches and ponds in an agricultural landscape in Southern England. Biol. Conserv., 115, 329-341.

Zalewski, M., 2002. Ecohydrology - integrative science for sustainable water, environment and society. Ecohydrol. Hydroecol., 2(1-4), 3-10.

Zalewski, M., 2000. Ecohydrology. The scientific background to use ecosystem properties as management tools toward susyainability of water resources. Guest Editorial. Ecol. Eng., 16, 1-8.

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Published

2010-12-25

How to Cite

Hampel, H., Cocha, J., & Vimos, D. (2010). Incorporation of aquatic ecology to the hydrological investigation of ecosystems in the high Andes. Maskana, 1(1), 91–100. https://doi.org/10.18537/mskn.01.01.07

Issue

Vol. 1 No. 1 (2010)

Section

Research articles

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