Abstract
Since historical times, natural ecosystems such as forests and wetlands are known to regulate water flow and maintain water quality. The past half a century however has witnessed unplanned and rapid development with widespread ecosystem degradation. Meanwhile water treatment and supply happens on an ad hoc basis that is neither sustainable nor affordable for most communities. The revival of an ecohydrological approach is called for, with increased use of ecosystem services in water resources management. The affordable and sustainable aspects of this approach make it especially pertinent for developing countries, given the increasing challenges posed by mounting population, consumption, and climate change. This chapter describes the general links between different ecosystems, hydrology, and water quality and outlines the steps in developing an ecohydrological approach. The next chapter describes case studies that have successfully incorporated an ecohydrological approach in different realms of water resources management in the developing world.
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References
Allan JD (2004) Landscapes and riverscapes: the influence of land use on stream ecosystems. Annu Rev Ecol Evol Syst 35:257–284
Bradshaw C, Sodhi NS, Peh KSH, Brook BW (2007) Global evidence that deforestation amplifies flood risk and severity in the developing world. Glob Chang Biol 13(11):2379–2395
Baker ME, Wiley MJ, Seelbach PW (2001) Gis-based hyirologic modeling of riparian areas: implications for stream water quality. JAWRA J Am Water Resour Assoc 37:1615–1628. doi: 10.1111/j.1752-1688.2001.tb03664.x
Breshears DD (2005) An ecologist’s perspective of ecohydrology. Bull Ecol Soc Am 86:296–300
Brocca L, Melone F, Moramarco T, Wagner W (2013) A new method for rainfall estimation through soil moisture observations. Geophys Res Lett 40(5):853–858. doi:10.1002/grl.50173
Brown A, Zhang L, McMahon TA, Western AW, Vertessy RA (2005) A review of paired catchment studies for determining changes in water yield resulting from alterations in vegetation. J Hydrol 310(1–4):28–61
Bruijnzeel LA (2001) Hydrology of tropical montane cloud forests: a reassessment. Land Use Water Resour Res 1:1.1–1.18
Cavelier J, Goldstein G (1989) Mist and fog interception in elfin cloud forests in Colombia and Venezuela. J Trop Ecol 5(03):309–322
Craig LS, Palmer MA, Richardson DC, Filoso S, Bernhardt ES, Bledsoe BP, Doyle MW, Groffman PM, Hassett BA, Kaushal SS, Mayer PM, Smith SM, Wilcock PR (2008) Stream restoration strategies for reducing river nitrogen loads. Front Ecol Environ 6:529–538
Crockford RH, Richardson DP (2000) Partitioning of rainfall into throughfall, stemflow and interception: effect of forest type, ground cover and climate. Hydrol Process Spec Issue Link Hydrol Ecol 14(16–17):2903–2920
D’Odorico P, Porporato A (2006) Dryland ecohydrology, eco-hydrology defined, William Nuttle. ISBN 1-4020-4261-2
Diaz RJ, Rosenberg R (2008) Spreading dead zones and consequences for marine ecosystems. Science 321:926–928
Dawson T (1998) Fog in the California Redwood Forest: ecosystem inputs and use by plants. Oecologia 117:476–485
Dickens C (2011) Critical analysis of environmental flow assessments of selected rivers in Tanzania and Kenya. IUCN ESARO Office/INR, Nairobi/Scottsville, viii+104 pp
Douglass JE (1966) Effects of species and arrangement of forests on evapotranspiration. In: Proceedings of a National Science Foundation advanced science seminar international symposium on forest hydrology held at The Pennsylvania State University, Pennsylvania Aug 29-Sept 10, 1965. Pergamon Press, Oxford/New York
Eamus D, Hatton T, Cook P, Colvin C (2006) Ecohydrology: vegetation function, water and resource management. Csiro Publishing, Melbourne, 360 pp
Elliott M, Burdon D, Hemingway KL, Apitz SE (2007) Estuarine, coastal and marine ecosystem restoration: confusing management and science: a revision of concepts. Estuar Coast Shelf Sci 74:349–366
Elser JJ, Bracken MES, Cleland EE, Gruner DS, Harpole WS, Hillebrand H, Ngai JT, Seabloom EW, Shurin JB, Smith JE (2007) Global analysis of nitrogen and phosphorus limitation of primary producers in freshwater, marine and terrestrial ecosystems. Ecol Lett 10(12):1135–1142. doi:10.1111/j.1461-0248.2007.01113.x
Forshay KJ, Stanley EH (2005) Rapid nitrate loss and denitrification in a temperate river floodplain. Biogeochemistry 75:43–64
Giambelluca TW, Gerold G (2011) Chapter 11: Hydrology and biogeochemistry of tropical montane cloud forests. In: Levia DF, Carlyle-Moses DE, Tanaka T (eds) Forest hydrology and biogeochemistry: synthesis of research and future directions, Ecological studies series, no. 216. Springer, Heidelberg
Hill A (1996) Nitrate removal in stream riparian zones. J Environ Qual 25(4):743–755
Hunt RJ, Wilcox DA (2003) Ecohydrology – why hydrologists should care. Ground Water 41(3):289
Hynes HBN (1970) The ecology of running waters. University Toronto Press, Toronto, xxiv+555 p
Isabirye M, Kimaro D, Semalulu O, De Meyer A, Magunda M, Poesen J, Deckers J (2014) Sediment generation and evaluation of vegetation buffer strips filters in the riparian zone of Lake Victoria. National Agricultural Research Laboratories, Uganda. http://www.narl.go.ug/index.php/publications/41-sediment-generation-and-evaluation-of-vegetation-buffer-strips-filters-in-the-riparian-zone-of-lake-victoria
Iyango L, Kiwazi F, Tindamanyire T, Kaganzi E, Busulwa H, Mafabi P (2012) Traditional wetland practices in rural communities in Uganda. Lake Victoria Environmental Management Project Phase I (LVEMP I) [120]. Available from the online repository of Lake Victoria Commission http://repository.lvbcom.org/handle/123456789/65
Jackson RB, Jobbagy E, Nosetto MD (2009) Ecohydrology bearings: invited commentary – ecohydrology in a human-dominated landscape. Ecohydrology 2:383–389
Jose S, Gillespie AR, George SJ, Kumar BM (1996) Vegetation responses along edge-to-interior gradients in a high altitude tropical forest in peninsular India. For Ecol Manag 87(1–3):51–62
Kadur S, Bawa K (2005) Sahyadris: India’s Western Ghats – a vanishing heritage. Ashoka Trust for Ecology and Environment, Bangalore. ISBN 9 780977 021109
Kendy E, le Quesne T (2014) Environmental flow policies: moving beyond good intentions. Report for International Rivers available at http://www.internationalrivers.org/resources/environmental-flow-policies-moving-beyond-good-intentions-1671. Accessed 28 Mar 2014
Khan ML, Khumbongmayum ADV, Tripathi RS (2008) The sacred groves and their significance in conserving biodiversity: an overview. Int J Ecol Environ Sci 34(3):277–291
Krishnaswamy J, Bonell M, Ventatesh B, Purandara BK, Lele S, Kiran MC, Reddy V, Badiger S, Rakesh KN (2012) The rain-runoff response of tropical humid forest ecosystems to use and reforestation in the Western Ghats of India. J Hydrol 472–473:216–237
Krishnaswamy J, Bonell M, Ventatesh B, Purandara BK, Lele S, Kiran MC, Reddy V, Badiger S (2013) The groundwater recharge response and hydrologic services of tropical humid forest ecosystems to use and reforestation: support for the “inflitration-evapotranspiration trade- off hypothesis”. J Hydrol 498:191–209
Lele S, Patil I, Badiger S, Menon A, Kumar R (2008) The economic impact of forest hydrological services on local communities: a case study from the Western Ghats of India. No 45, Working papers from The South Asian Network for Development and Environmental Economics, Kathmandu, Nepal
Malakoff D (1998) Restored wetlands flunk real-world test. Science 280(5362):371–372. doi:10.1126/science.280.5362.371
Malhotra KC, Gokhale Y, Das K (2001) Sacred groves of India: an annotated bibliography. Indian National Science Academy and Development Alliance, New Delhi. http://www.sacredland.org/media/Malhotra_Sacred-Groves-of-India.pdf
Malmqvist B, Rundle S (2002) Threats to the running water ecosystems of the world. Environ Conserv 2002:134–153. doi:10.1017/S0376892902000097
McClain ME (2008) Ecohydrology as a tool in the sustainable development of large tropical rivers. In: Harper D, Zalewski M, Pacini N (eds) Ecohydrology: processes, models and case studies. CABI, Oxfordshire
McClain ME, Boyer EW, Dent CL, Gergel SE, Grimm NB, Groffman PM, Hart SC, Harvey JW, Johnston CA, Mayorga E, McDowell WH, Pinay G (2003) Biogeochemical hot spots and hot moments at the interface of terrestrial and aquatic ecosystems. Ecosystems 6:301–312
McClain ME, Chicharo L, Fohrer M, Gavino N, Windhorst W, Zalewski M (2012) Training hydrologists to be ecohydrologists and play a leading role in environmental problem solving. Hydrol Earth Syst Sci 16:1685–1696
McClain ME, Subaluski AL, Anderson EP, Dessu SB, Melesse AM, Ndomba PM, Mtamba JOD, Tamatamah RA, Mligo C (2014) Comparing flow regime, channel hydraulics and biological communities to infer flow-ecology relationships in the Mara river of Kenya and Tanzania. Hydrol Sci J 59(3–4):1–19
Meher-Homji VM (1991) Probable impact of deforestation on hydrological processes. Clim Chang 19:163–173
Mitsch WJ, Gosselink JG (1993) Wetlands, 2nd edn. Van Nostrand Reinhold, New York, xii+722 pp. ISBN 0 442 00805 8
Moreira M, Sternberg L, Martinelli L, Victoria R, Barbosa E, Bonates L, Nepstad D (1997) Contribution of transpiration to forest ambient vapor based on isotopic measurements. Glob Chang Biol 3(5):439–450. doi:10.1046/j.1365-2486.1997.00082.x
Munishi PKT, Shear TH (2005) Rainfall interception and partitioning in afromontane rainforests of the Eastern Arc Mountains, Tanzania: implications for water conservation. J Trop For Sci 17(3):355–365
Naiman RJ, Dé camps H, Pollock M (1993) The role of riparian corridors in maintaining regional biodiversity. Ecol Appl 3(2):209–212
Nguyen AD, Savenije HHG (2006) Salt intrusion in multi-channel estuaries. Hydrol Earth Syst Sci 10:743–754
Nouri H, Beecham S, Kazemi F, Hassanli AM, Anderson S (2013) Remote sensing techniques for predicting evapotranspiration from mixed vegetated surfaces. Hydrol Earth Syst Sci Discuss 10:3897–3925. www.hydrol-earth-syst-sci-discuss.net/10/3897/2013/. doi:10.5194/hessd-10-3897-2013
Nuttle WK (2002) Eco-hydrology’s past and future in focus. Eos 83:205
Orr CH et al (2007) Effects of restoration and reflooding on soil denitrification in a leveled Midwestern floodplain. Ecol Appl 17(8):2365–2376
Ostroumov SA (2005) On some issues of maintaining water quality and self-purification. Water Resour 32(3):305–313
Ostroumov SA (2006) Biomachinery for maintaining water quality and natural water self-purification in marine and estuarine systems: elements of a qualitative theory. Int J Ocean Oceanogr 1(1):111–118. ISSN 0973-2667
Parida AK, Das AB (2005) Salt tolerance and salinity effects on plants: a review. Ecotoxicol Environ Saf 60(3):324–349
Pinay G, Roques L, Favre A (1993) Spatial and temporal profiles of denitrification in a riparian forest. J Appl Ecol 30:581–591
Poff NL, Allan JD, Bain MB, Karr JR, Prestegaard KL, Richter BD, Sparks RE, Stromberg JC (1997) The natural flow regime: a paradigm for river conservation and restoration. Bioscience 47(11):769–784
Powell GL, Matsumoto J, Brock DA (2002) Methods for determining minimum freshwater inflow needs of Texas bays and estuaries. Estuaries 25(6B):1262–1274
Putuhena WH, Cordery I (2000) Some hydrological effects of changing forest cover from eucalypts to Pinus radiate. Agric For Meteorol 100(1):59–72
Reed T, Carpenter SR (2002) Comparisons of P-yield, riparian buffer strips, and land cover in six agricultural watersheds. Ecosystems 5:568–577. doi:10.1007/s10021-002-0159-8
Reid A (2011) South Florida drinking water faces salt water threat. Sun Sentinel http://articles.sun-sentinel.com/2011-09-12/health/fl-saltwater-intrusion-20110912_1_saltwater-intrusion-saltwater-threat-drinking-water. Accessed 27 Mar 2014
Rodríguez-Iturbe I (2000) Ecohydrology: a hydrologic perspective of climate-soil-vegetation dynamics. Water Resour Res 36(1):3–9
Rodriguez-Iturbe I, Porporato A, Laio F, Ridolfi L (2001) Plants in water-controlled ecosystems: active role in hydrologic processes and response to water stress. I. Scope and general outline. Adv Water Resour 24:695–705
Saha AK, Sternberg LSLO, Miralles-Wilhelm F (2009) Linking water sources with foliar nutrient status in upland plant communities in the Everglades National Park, USA. Ecohydrology 2:42–54
Saha AK, Saha S, Sadle J, Jiang J, Ross MS, Price RM, Sternberg LS, Wendelberger KS (2011) Sea level rise and South Florida’s coastal forests. J Clim Change. doi:10.1007/s10584-011-0082-0
Saha AK, Moses C, Price R, Engel V, Smith TJ, Anderson G (2012) A hydrological budget (2002–2008) for a large subtropical wetland indicates seawater intrusion accompanies diminished freshwater flow. J Estuar Coast 35(2):459. doi:10.1007/s12237-011-9454-y
Schedlbauer JL, Oberbauer SF, Starr G, Jimenez KL (2011) Controls on sensible heat and latent energy fluxes from a short-hydroperiod Florida Everglades marsh. J Hydrol 411:331–341
Schindler DW (1977) Evolution of phosphorus limitation in lakes. Science 195:260–262
Setegn SG, Rayner D, Melesse AM, Dargahi B (2014) Climate Change Impact on Water Resources and adaptation strategies in the Blue Nile River Basin. Ch. 20. In: Melesse A, Abtew W, Setegn SG (eds) Nile River Basin: ecohydrological challenges, climate change and hydropolitics. Springer, Cham
Sheridan MJ, Nyamweru C (2007) African sacred groves: ecological dynamics and social change. Ohio University Press, Athens, 240 pp. ISBN 978-0-8214-1789-8
Shukla J, Nobre C, Sellers P (1990) Amazon deforestation and climate change. Science, New Series 247(4948):1322–1325
Soar P, Thorne CR (2001) Channel restoration design for Meandering Rivers. Report for US Army Corps of Engineers, Washington, DC
Sotthewes W (2008) Forcing on the salinity distribution in the Pangani estuary. Thesis report. University of Delft, Delft, The Netherlands, 82p
Tolley SG, Brosious BB, Peebles EB (2013) Recruitment of the Crabs Eurypanopeus depressus, Rhithropanopeus harrisii, and Petrolisthes armatus to Oyster Reefs: the influence of freshwater inflow. Estuar Coasts 36:820–833. doi:10.1007/s12237-013-9590-7
UNEP (2004) Integrated watershed management – ecohydrology & phytotechnology: a manual. United Nations Environment Program, Osaka, Japan. Available online at http://www.unep.org/ietc/Portals/136/Publications/Water&Sanitation/Integrated%20Watershed%20Management%20-%20Ecohydrology%20&%20Phytotechnology%20-%20Part%201%20&%202.pdf
UNICEF (2013) Water, sanitation and hygiene report. http://www.unicef.org/wash/. Accessed 31 Mar 2014
USGS (2013) Development of water-management system and impact on the hydrology of Southeastern Florida: assessment of saltwater intrusion. Circular 1275. United States Geological Survey. http://sofia.usgs.gov/publications/circular/1275/saltintrusion.html. Accessed 27 Mar 2014
Villalobos-Vega R (2010) Water table and nutrient dynamics in neotropical savannas and wetland ecosystems. Open access dissertations, Paper 389. http://scholarlyrepository.miami.edu/oa_dissertations/389
Walter RC, Merritts DJ (2008) Natural streams and the legacy of water-powered mills. Science 319:299–304
Wenger S (1999) A review of the scientific literature on riparian buffer width, extent and vegetation. Office of Public Service & Outreach, Institute of Ecology, University of Georgia, Athens
Xiang W (1993) A GIS method for riparian water quality buffer generation. Int J Geogr Inf Syst 7(1):57–70. doi:10.1080/02693799308901939
Zalewski M (2000) Ecohydrology – the scientific background to use ecosystem properties as management tools toward sustainability of water resources. Ecol Eng 16:1–8
Zedler P, Kircher J (2005) Wetland resources: status, trends, ecosystem services, and restorability. Annu Rev Environ Resour 30:39–74
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Saha, A.K., Setegn, S.G. (2015). Ecohydrology: Understanding and Maintaining Ecosystem Services for IWRM. In: Setegn, S., Donoso, M. (eds) Sustainability of Integrated Water Resources Management. Springer, Cham. https://doi.org/10.1007/978-3-319-12194-9_8
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