Abstract
There are several aspects that may affect the water supplies in Iraq. Such factors may lead to severe changes affecting the land and human societies. These differ from ecohydrological methodology for the aquatic habitat administration to gain extreme advantage of the aquatic assets, through attempts to recover the aquatic carrying capacity, endeavors to resolve the water discrepancy owing to land use change in the catchment region. An effort to link ecohydrology and adversity risk lessening, particularly the gradually approaching ecosystem tragedy, is emphasized insight of focusing on the emerging chances in Iraq.
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References
Aarts BGW, Van den Brink FWB, Nienhuis PH (2004) Habitat loss as the main cause of the slow recovery of fish faunas of regulated large rivers in Europe: the transversal floodplain gradient. River Res Appl 20:3–23
Al-Ansari N (2013) Management of water resources in Iraq: perspectives and prognoses. Engineering 5(6):667–684
Al-Ansari N, Knutsson S (2011) Toward prudent management of water resources in Iraq. J Adv Sci Eng Res 1:53–67
Alobaidy AHMJ, Abid HS, Maulood BK (2010) Application of water quality index for assessment of Dokan lake ecosystem, Kurdistan region. Iraq J Water Res Prot 2(09):792
Al-Saadi HA, Al-Mousawi AH (1988) Some notes on the ecology of aquatic plants in the Al-Hammar marsh. Iraq Plant Ecol 75(3):131–133
Bain MB (1995) Habitat at the local scale: multivariate patterns for stream fishes. Bull Fr Peche Piscicult 337–339:165–177
Baird AJ, Wilby RL (1999) Eco-hydrology: plants and water in terrestrial and aquatic environments. Psychology Press
Burnham G, Lafta R, Doocy S, Roberts L (2006) Mortality after the 2003 invasion of Iraq: a cross-sectional cluster sample survey. Lancet 368(9545):1421–1428
Chrismadha T, Haryani GS, Fakhrudin M, Hehanussa PE (2011) The application of ecohydrology in lake management. In: Proc Nat. Sympos. Ecohydrology on Integrating Ecohydrological Principles for Good Water Governance (in Indonesian). Res. Centre for Limnology-LIPI, pp 25–44
Cummins KW (1974) Structure and function of stream ecosystems. Bioscience 24:631–641
Dam RA, Fluin J, Suparan P, van der Kaars S (2001) Palaeoenvironmental developments in the Lake Tondano area (N. Sulawesi, Indonesia) since 33,000 yr BP. Palaeogeogr Palaeoclimatol Palaeoecol 171(3):147–183
Donohue I, Molinos JG (2009) Impacts of increased sediment loads on the ecology of lakes. Biol Rev 84:517–531
Dunne T, Leopold LB (1978) Water in environmental planning. W. H. Freeman and Company, New York
Eagleson PS (2002) Ecohydrology: Darwinian expression of vegetation form and function. Cambridge University Press, Cambridge
Fakhrudin M, Haryani GS, Chrismadha T, Ridwansyah I (2009) Ecohydrology based Lake management: the case of lake Limboto, Gorontalo (in Indonesian). In: Proc. Natl. Conf. Lake in Indonesia, Denpasar, Ministry of Environment
Gibbs JP (2000) Wetland loss and biodiversity conservation. Conserv Biol 14(1):314–317
Grootjans A, Van Wirdum G, Kemmers R (1996) Ecohydrology in the Netherlands: principles of an application-driven interdisciplinary. Acta Botanica Neerlandica 45(4):491–516
Grossman GD, Moyle PB, Whittaker JO (1982) Stochasticity in structural and functional characteristics of an Indiana stream fish assemblage: a test of community theory. Am Nat 120:423–454
Haktanir K, Karaca A, Omar SM (2004) The prospects of the impact of desertification on Turkey, Lebanon, Syria and Iraq. In: Environmental challenges in the mediterranean 2000–2050. Springer, Dordrecht, pp 139–154
Hargono B, Pranoko W (2003) Problems and Constraints in the management plan of Lake Tempe, South Sulawesi, Indonesia. In: Proceedings of the Second Asia Pacific Training Workshop on Ecohydrology, LIPI/ UNESCO, 21–26 July, pp 47–58
Haryani GS (2008) Ecosystem based of inland water fishery management. In: Proceedings International Conference on Indonesian inland waters. Book 1: Keynote papers, Research Institute for Inland Fisheries, pp 77–84
Hassan R, Al-Ansari N, Ali AA, Ali SS, Knutsson S (2017) Bathymetry and siltation rate for Dokan reservoir, Iraq. Lakes Reserv Res Manage 22:179–189
Hoggarth DD, Cowan VJ, Halls AS, Aeron-Thomas M, McGregor JA, Garaway CA, Payne AI, Welcomme R (1996) Management guidelines for Asian floodplain river fisheries: Part 2: Summary of DFID research. Fisheries Technical Paper 384/2, F. Food and Agriculture Organization of the United Nations, Rome
Jawad L (2003) Impact of environmental change on the freshwater fish fauna of Iraq. Intern J Environ Stud 60(6):581–593
Jawad L (2013) Threatened freshwater fishes of Iraq, with remarks on their conservation status. Water Res Manage 3(2):27–36
Jones C, Sultan M, Yan E, Milewski A, Hussein M, Al-Dousari A, Al-Kaisy S, Becker R (2008) Hydrologic impacts of engineering projects on the Tigris- Euphrates system and its marshlands. J Hyd 353:59–75
Jørgensen SE (2016) Ecohydrology as an important concept and tool in environmental management. Ecohyd Hydrbiol 16(1):4–6
Maulood BK, Hinton GCF, Whitton BA, Al-Saadi HA (1981) On the algal ecology of the lowland Iraqi marshes. Hydrobiologia 80(3):269–276
Navjot S, Sodhi NS, Koh LP, Brook BW, Ng PKL (2004) Southeast Asian biodiversity: an impending disaster. Trends Ecol Evol 19:654–660
Nuttle WK (2002) Eco-hydrology’s past and future in focus. Eos, Transactions AGU 83(19):205–212
Opuszynski K (1980) The role of fisheries management in counteracting eutrophication processes. Dev Hydrobiol 2:263–269
Pouillly M, Barrera S, Rosales C (2006) Changes of taxonomic and trophic structure of fish assemblages along an environmental gradient in the upper Beni water shed (Bolivia). J Fish Biol 68:137–156
Rahi KA, Halihan T (2010) Changes in the salinity of the euphrates river system in Iraq. Reg Environ Change 10:27–35
Richardson CJ (2010) The status of Mesopotamian Marsh restoration in Iraq: A case study of transboundary water issues and internal water allocation problems. In: Towards new solutions in managing environmental crisis. Helsinki University, Helsinki, pp 59–72
Richardson CJ, Hussain NA (2006) Restoring the garden of Eden: an ecological assessment of the marshes of Iraq. AIBS Bull 56(6):477–489
Ridwansyah I, Aisyah S (2006). Hydrodynamic modeling in ecohydrology concept – integrating hydrological and limnological processes. In: Proc. Natl. Seminar on Limnology, Res. Centre for Limnology-LIPI, pp 1–15
Rietkerk M, Boerlijst MC, Van Langevelde F (2002) Self-organization of vegetation in arid ecosystems. Am Nat 160(4):524–530
Rodriguez-Iturbe I (2000) Ecohydrology: a hydrologic perspective of climate-soil vegetation dynamics. Water Reso Res 36(1):3–9
Rodriguez-Iturbe I, Porporato A, Laio F et al (2001) Plants in water-controlled ecosystems: active role in hydrologic processes and response to water stress. I. Scope and general outline. Advs Water Res 24(7):695–705
Salah AM, Al-Weshah R, Nelson EJ, Shammout MW (2006) Water resources management and modeling in Iraq, the Middle East, and the Nile Basin: towards knowledge transfer and capacity building. In: World environmental and water resource congress 2006: examining the confluence of environmental and water concerns, Omaha, pp 1–12
Sarkar UK, Bain MB (Mar. 2007) Priority habitats for the conservation of large river fishes in the Ganges river basin. Aquat Conserv 17:349–359
Sarkar UK, Gupta BK, Lakra WS (2010) Biodiversity, ecohydrology, threat status and conservation priority of the freshwater fishes of river Gomti, a tributary of river Ganga (India). Environmentalist 30(1):3–17
Saunders DL, Meeuwig JJ, Vincent ACJ (2002) Fresh water protected areas: strategies conservation. Conserv Biol 16(1):30–41
Schiemer F (2000) Fish as indicators for the assessment of the ecological integrity of large rivers. Hydrobiologia 422–423:178–271
Schneiders A, Verhaert E, Blust GD, Wils C, Bervoets L, Verheyen RF (1993) Towards an ecological assessment of watercourses. J Aquat Ecosyst Health 2:29–38
Sheldon AL (1968) Species diversity and longitudinal succession in stream fishes. Ecology 49:194–198
Toma JJ (2013) Limnological study of Dokan, Derbendikhan and Duhok lakes, Kurdistan region of Iraq. Open J Ecol 3(1):23
Van Breemen N (1995) How Sphagnum bogs down other plants. Trends Ecol Evol 10(7):270–275
Van der Schaaf S, Streefker JG (2002) Relationships between biotic and abiotic conditions. In: Schouten MGC (ed) Conservation and restoration of raised bogs: geological, hydrological and ecological studies. Dúchas, Dublin, pp 186–209
Wagner I, Breil P (2013) The role of ecohydrology in creating more resilient cities. Ecohydrol Hydrobiol 13:113–134
Wainwright J, Mulligan M, Thornes J (1999) Plants and water in drylands. In: Baird AJ, Wilby RL (eds) Ecohydrology. Routledge, London, pp 78–126
Welcomme R, Petr R (2004) Proceedings of the second international symposium on the management of large rivers for fisheries, vol 1. Food and Agriculture Organization of the United Nations, Regional Office for Asia and the Pacific, Bangkok
Wikramanayake ED, Moyle PB (1989) Ecological structure of tropical fish assemblages in wet-zone streams of Srilanka. J Zool (Lond) 218:503–526
Witte JPM, Meuleman JAM, Van der Schaaf S, Raterman B (2004) Eco-hydrology and biodiversity. In: Unsaturated zone modelling: Progress, challenges and applications. Kluwer, Dordrecht, NL, pp 301–329
Zalewski M (1998) Ecohydrology and fisheries management. Italian J Zool 65(S1):501–506
Zalewski M (2007) Ecohydrology – the use of water and ecosystem processes for healthy urban environments. In: International symposium on new directions in urban water management. UNESCO, Paris, pp 1–7
Zalewski M (2014) Ecohydrology and hydrologic engineering: regulation of hydrology-biota interactions for sustainability. J Hydrol Eng. https://doi.org/10.1061/(ASCE)HE.1943-5584.00009992014
Zalewski M, Janauer GA, Jolankai G (1997) Ecohydrology: a new paradigm for the sustainable use of aquatic resources. In: IHP-V Technical Documents in Hydrology no. 7. UNESCO, Paris
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Jawad, L.A. (2021). Ecohydrology in Iraq: Challenges and its Future Pathways. In: Jawad, L.A. (eds) Tigris and Euphrates Rivers: Their Environment from Headwaters to Mouth. Aquatic Ecology Series, vol 11. Springer, Cham. https://doi.org/10.1007/978-3-030-57570-0_10
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