1. bookVolumen 14 (2014): Heft 2 (June 2014)
17 Mar 2011
4 Hefte pro Jahr
Uneingeschränkter Zugang

Factors affecting the distribution patterns of aquatic macrophytes

Online veröffentlicht: 30 Dec 2014
Volumen & Heft: Volumen 14 (2014) - Heft 2 (June 2014)
Seitenbereich: 75 - 81
17 Mar 2011
4 Hefte pro Jahr

Alahuhta J., 2011, Patterns of aquatic macrophytes in the boreal region: Implications for spatial scale issues and ecological assessment [Dissertation], Acta. Univ. Oul. A 577: 1-66.Search in Google Scholar

Allen E.D., Gorham R.R., 1973, Changes in the submerged macrophytes communities of Lake Wabamum as a result of thermal discharge, [in:] Reinelt E.R., Laycock A.H., Schultz W.M. (eds), Proc. Symp. Lakes of Western Canada, University of Alberta, Edmonton: 313-324.Search in Google Scholar

Anderson R.R., 1969, Temperarure and rooted aquatic plants, Chesapeake Sci.10: 157-164.10.2307/1350452Search in Google Scholar

Armstrong J., Afreen-Zobayed F., Blyth S., Armstrong W., 1999, Phragmites australis: Effects and survival and radial oxygen loss from roots, Aquat. Bot. 64(3-4): 275-289.10.1016/S0304-3770(99)00056-XSearch in Google Scholar

Arts G.H.P., 2002, Deterioration of Atlantic soft water macrophyte communities by acidification, eutrophication and alkalinisation, Aquat. Bot. 73: 373-393.10.1016/S0304-3770(02)00031-1Search in Google Scholar

Barko J.W., Smart R.M., 1981, Comparative influences of light and temperature on the growth and metabolism of selected submersed freshwater macrophytes, Ecol. Monogr. 51: 219-236.10.2307/2937264Search in Google Scholar

Barko J.W., Smart R.N., 1986, Sediment related mechanism of growth limitation in submerged macrophytes, Ecology 67: 1328-1340.10.2307/1938689Search in Google Scholar

Barko J.W., Adams M.S., Clesceri N.L., 1986, Environmental factors and their consideration in the management of submerged aquatic vegetation: A review, J. Aquat. Plant Manage. 24: 1-10.Search in Google Scholar

Barko J.W., Gunnison D., Carpenter S.R., 1991, Sediment interactions with aquatic macrophytes in freshwater, Hydrobiologia 595: 9-26.Search in Google Scholar

Barko J.W., Hardin D.G., Mathews M.S., 1982, Growth and morphology of submersed freshwater macrophytes in relation to light and temperature, Can. J. Botany 60: 877-887.10.1139/b82-113Search in Google Scholar

Barrat-Segretain M.H., 1996, Strategies of reproduction, dispersion, and competition in river plants: A review, Vegetatio 123:13-37.10.1007/BF00044885Search in Google Scholar

Beneberu G., Mengistou S., 2010, Oligo trophication trend in Lake Ziway, Ethiopia, SINET Ethiop. J. Sci. 32: 141-148.10.4314/sinet.v32i2.68865Search in Google Scholar

Bini L.M., Thomaz S.M., Murphy K.J., Camargo A.F.M., 1999, Aquatic macrophyte distribution in relation to water and sediment conditions in the Itaipu Reservoir, Brazil, Hydrobiologia 415: 147-154.10.1023/A:1003856629837Search in Google Scholar

Birk S., Willby N., 2010, Towards harmonization of ecological quality classification: establishing common grounds in European macrophyte assessment for rivers, Hydrobiologia 652: 149-163.10.1007/s10750-010-0327-3Search in Google Scholar

Boedeltje G., Smolders A.J.P., Roelofs J.G.M., Groenendael J.M.V., 2001, Constructed shallow zonesalong navigation canals: vegetation establishment and hange in relation to environmental characteristics, Aquat. Conserv. Mar. Freshw. Ecosyst. 11: 453-0471.10.1002/aqc.487Search in Google Scholar

Boylen C.W., Eichler L.W., Madsen J.D., 1999, Loss of native aquatic plant species in a community dominated by Eurasian watermilfoil, Hydrobiologia 415: 207-211.10.1023/A:1003804612998Search in Google Scholar

Capers R.S., 2003, Macrophyte colonization in a freshwater tidal wetland. Lyme, CT, USA, Aquat. Bot. 77: 325-338.10.1016/j.aquabot.2003.08.001Search in Google Scholar

Capers R.S., Selsky R., Bugbee G.J., 2010, The relative importance of local conditions and regional processes in structuring aquatic plant communities, Freshwater Biol. 55: 952-966.10.1111/j.1365-2427.2009.02328.xSearch in Google Scholar

Chambers P.A., 1982, Light, temperature and the induction of dormancy in Potamogeton crispus and Potamogeton obtusifolius [Unpublished Ph.D. Thesis], University of St. Andrews.Search in Google Scholar

Chambers P.A., 1987, Nearshore occurrence of submersed aquatic macrophytes in relation to wave action, Can. J. Fish. Aquat. Sci. 44: 1666-1669.10.1139/f87-204Search in Google Scholar

Chambers P.A., Kalff J., 1985, Depth distribution and biomass of submerged aquatic macrophyte communities in relation to Secchi depth, Can. J. Fish. Aquat. Sci. 42: 701-709.10.1139/f85-090Search in Google Scholar

Chambers P.A., Prepas E.E., 1988, Underwater spectral attenuation and its effect on the maximum depth of angiosperm colonization, Can. J. Fish. Aquat. Sci. 45: 1010-1017.10.1139/f88-124Search in Google Scholar

Chambers P.A., Prepas E.E., 1990, Competition and coexistence in submerged aquatic plant communities: the effects of species interactions versus abiotic factors, Freshwater Biol. 23: 541-550.10.1111/j.1365-2427.1990.tb00293.xSearch in Google Scholar

Chambers P.A., Lacoul P., Murphy K.J., Thomaz S.M., 2008, Global diversity of aquatic macrophytes in freshwater, Hydrobiologia 595: 9-26.10.1007/s10750-007-9154-6Search in Google Scholar

Connors L.M., Kiviat E., Groffman P.M., Ostfeld R., 2000, Muskrat (Ondatra zibethicus) disturbance to vegetation and potential net nitrogen mineralization and nitrification rates in a freshwater tidal marsh, Am. Midl. Nat. 143: 53-63.10.1674/0003-0031(2000)143[0053:MOZDTV]2.0.CO;2Search in Google Scholar

Coops H., Brink F.W.B., Velde V.G., 1996, Growth and morphological responses of four helophyte species in an experimental water-depht gradient, Aquat. Bot. 54: 11-24.10.1016/0304-3770(96)01025-XSearch in Google Scholar

Cronk J.K., Fennessy M.S., 2001, Wetland Plants: Biology and Ecology, Lewis Publ., Boca Raton, pp. 462.Search in Google Scholar

Dale H.M., 1986, Temperature and light: the determining factor in maximum depth distribution of aquatic macrophytes in Ontario,Canada, Hydrobiologia 133: 73-77.10.1007/BF00010804Search in Google Scholar

Dawson F.H., Szoszkiewicz K., 1999, Relationships of some ecological factors with the associations of vegetation in British rivers, Hydrobiologia 415: 117-122.10.1023/A:1003820308436Search in Google Scholar

Day R.T., Keddy P.A., McNeill J., Carleton T., 1988, Fertility and disturbance gradients: a summary model for riverine marsh vegetation, Ecology 69: 1044-1054.10.2307/1941260Search in Google Scholar

Dennison W.C., Orth R.J., Moore K.A., Stevenson J.C., Carter V., Kollar S., Bergstrom P.W., Batiuk R.A., 1993, Assessing water with submersed aquatic vegetation, BioSience 143: 86-94.10.2307/1311969Search in Google Scholar

Deribessa A., 2006, Groundwater and Surface Water Interaction and Geoenvironmental Changes in the Ziway Catchment [Unpublished M.Sc. Thesis], Addis Ababa University, Addis Ababa.Search in Google Scholar

Drew M. C., Lynch J. M., 1980, Soil anaerobiosis, microorganisms, and root function, Annu. Rev. Phytopathol. 18: 37-66.10.1146/annurev.py.18.090180.000345Search in Google Scholar

Duarte C.M., Kalff, J., Peters R.H., 1986, Pattern in biomass and cover of aquatic macrophytes in lakes, Can. J. Fish. Aquat. Sci. 43: 1900-1908.10.1139/f86-235Search in Google Scholar

Duarte C. M., Kalff J., 1987, Weight-density relationship in submerged macrophytes. The importance of light and plant geometry, Oecologia 72: 612-617.10.1007/BF0037899028312526Search in Google Scholar

Edvardsen A., Okland R.H., 2006, Variation in plant species composition in and adjacent to 64 Ponds in SE Norwegian agricultural landscapes, Aquat. Bot. 85: 92-102.10.1016/j.aquabot.2006.01.015Search in Google Scholar

Feldmann T., 2012, The structuring role of lake conditions for aquatic macrophytes [Ph.D. Thesis], Estonian University of Life Sciences, Tartu, pp. 182.Search in Google Scholar

Fernández-Aláez C., Fernández-Aláez M., Bécares E., 1999, Influence of water level fluctuation on the structure and composition of macrophyte vegetation in two small temporary lakes in the northwest of Spain, Hydrobiology 415: 155-162.10.1023/A:1003807905710Search in Google Scholar

Findlay C.S., Houlahan J., 1997, Anthropogenic correlates of species richness in southeastern Ontario wetlands, Conserv. Biol. 11: 1000-1009.10.1046/j.1523-1739.1997.96144.xSearch in Google Scholar

Frankouich T.A., Gainer E.E., Zieman J.C., Wachnick A.H., 2006, Spatial and temporal distribution of epiphytic diatoms growing on Thalassic testudinum Banks ex Konigh. Relationship to waters quality, Hydrobiology 560: 259-271.10.1007/s10750-006-0136-xSearch in Google Scholar

Gecheva G., Yurukova L., Cheshmedjiev S., 2013, Patterns of aquatic macrophyte species composition and distribution in Bulgarian rivers, Turk. J. Bot. 37: 99-110.10.3906/bot-1112-35Search in Google Scholar

Gopal B., 1987, Water Hyacinth: Biology, Ecology and Management, Elsevier, Amsterdam, p 471.Search in Google Scholar

Heegaard E., 2004, Trends in aquatic macrophyte species turnover in Northern Ireland - which factors determine the spatial distribution of local species turnover? Global Ecol. Biogeogr. 13(5): 397-408.10.1111/j.1466-822X.2004.00119.xSearch in Google Scholar

Heegaard E., Birks H.H., Gibson C.E., Smith S.J., Wolfe- Murphy S., 2001, Species-environmental relationships of aquatic macrophytes in Northern Ireland, Aquat. Bot. 70: 175-223.10.1016/S0304-3770(01)00161-9Search in Google Scholar

Heikkinen R.K., Leikola N., Fronzek S., Lampinen R., Toivonen H., 2009, Predicting distribution patterns and recent northward range shift of an invasive aquatic plant: Elodea canadensis in Europe, BioRisk 2: 1-32.10.3897/biorisk.2.4Search in Google Scholar

Heino J., Toivonen H., 2008, Aquatic plant biodiversity at high latitudes: patterns of richness and rarity in Finnish freshwater macrophytes, Boreal Env. Res. 13: 1-14.Search in Google Scholar

Hrivnak R., Otahelova H., Jarolimek I., 2006, Diversity of aquatic macrophytes in relation to environmental factors in the Slatina river (Slovakia), Biologia 61: 156-168.10.2478/s11756-006-0071-3Search in Google Scholar

Hrivnak R., Otahelova H., Valachovic M., 2009, Macrophyte distribution and ecological status of the Turiec river (Slovakia): changes after seven years. Arch. Biol. Sci., Belgrade 61(2): 297-306.10.2298/ABS0902297HSearch in Google Scholar

Hudon C., Lalonde S., Gagnon P., 2000, Ranking the effects of site exposure, plant growth form, water depth, and transparency on aquatic plant biomass, Can. J. Fish. Aquat. Sci., 57(Suppl. 1): 31-42.10.1139/f99-232Search in Google Scholar

Idestam-Almquist J., Kautsky L., 1995, Plastic responses in morphology of Potamogeton pectinatus L. to sediment and abovesediment conditions at two sites in the northern Baltic proper, Aquat. Bot. 52: 205-216.10.1016/0304-3770(95)00499-8Search in Google Scholar

Jaikumar M., Chellaiyan D., Kanagu L., Kumar P.S., Stella C., 2011, Distribution and succession of aquatic macrophytes in Chilka Lake, Indian J. Evol. Nat. Environ. 3(16): 499-508.Search in Google Scholar

James W.F., Barko J.W., 1990, Macrophyte influences on the zonation of sediment accretion and composition in a north-temperate reservoir, Arch. Hydrobiol. 2: 129-142.10.1127/archiv-hydrobiol/120/1990/129Search in Google Scholar

Jones J.I., Li W., Maberly S.C., 2003, Area, altitude and aquatic plant diversity, Ecography 26: 411-420.10.1034/j.1600-0587.2003.03554.xSearch in Google Scholar

Jones J.L., Colins A.L., Nada P.S., Sear D.A., 2010, The relationship between fire sediment and macrophytes in Rivers, River Res. Appl. 20: 111-125.Search in Google Scholar

Jylha K., Tuomenvirta H., Ruosteenoja K., 2004, Climate change projections for Finland during 21st century, Boreal Env. Res. 9: 127-152.Search in Google Scholar

Kaul S., 1982, Community architecture, biomass and production in some typical wetlands of Kashmir, Indian J. Ecol. 9: 320-329.Search in Google Scholar

Kaul V., 1971, Production and ecology of some macrophytes of Kashmir lakes, Hydrobiolgia 12: 63-69.Search in Google Scholar

Kaul V., Tristal C.L., Handoo J.K., 1978, Distribution and production of macrophytes in some aquatic bodies of Kashmir, [in:] Singh J.S., Gopal B. (eds), Glimpses of Ecology, Prakash Publishers, Jaipur: 313-334.Search in Google Scholar

Khedr A.H., El-Demerdash M.A., 1997, Distribution of aquatic plants in relation to environmental factors in the Nile Delta, Aquat. Bot. 56: 75-86.10.1016/S0304-3770(96)01090-XSearch in Google Scholar

Kors A., Vilbaste S., Kairo K., Pall P., Piirsoo K., Truu J., Viik M., 2012, Temporal changes in the composition of ma crophytes communities and environmental factors governing the distribution of aquatic plants in an unregulated lowland river, Emajogi, Estonia, Boreal Env. Res. 17: 460- 472.Search in Google Scholar

Kumar R., Pandit A. K., 2008, Effect of water level fluctuations on distribution of emergent vegetation in Hokerser wetland, Kashmir, Proc. Nat. Acad. Sci. India, Sect B, 78: 227-233.Search in Google Scholar

Lachavanne J.B., 1985, The influence of accelerated eutrophication on the macrophytes of Swiss lakes: Abundance and distribution. Verh. Internat. Verein. Limnol. 22: 2950-2955.10.1080/03680770.1983.11897809Search in Google Scholar

Lacoul P., 2004, Aquatic macrophyte distribution in response to physical and chemical environment of the lakes along an altitudinal gradient in the Himalayas, Nepal [Ph.D. Thesis], Dalhousie University, Halifax.Search in Google Scholar

Lacoul P., Freedman B., 2006, Environmental influences on aquatic plants in freshwater ecosystems, Environ. Rev. 14: 89-136.10.1139/a06-001Search in Google Scholar

Lambert S.J, 2007, The environmental range and tolerance limits of British stoneworts Charophytes [PhD Thesis], University of East Anglia, Norwich.Search in Google Scholar

Lodge D.M., 1991, Herbivory on freshwater macrophytes, Aquat. Bot. 41: 195-224.10.1016/0304-3770(91)90044-6Search in Google Scholar

Lodge D.M., Lorman J.G., 1987, Reductions in submersed macrophytes biomass and species richness by the crayfish Orconectes rusticus, Can. J. Fish. Aquat. Sci. 44: 591-597.10.1139/f87-072Search in Google Scholar

Lougheed V.L., Crosbie B., Chow-Fraser P., 2001, Primary determinants of macrophyte community structure in 62 marshes across the Great Lakes basin: latitude, land use, and water quality effects, Can. J. Fish. Aquat. Sci. 58: 1603-1612.10.1139/f01-102Search in Google Scholar

Luoto M., Virkkala R., Heikkinen R.K., 2007, The role of land cover in bioclimatic models depends on spatial resolution, Global Ecol. Biogeogr. 16(1): 34-42.10.1111/j.1466-8238.2006.00262.xSearch in Google Scholar

Maberly S.C., Madsen T.V., 2002, Freshwater angiosperm carbon concentrating mechanisms: processes and patterns, Func. Plant Biol. 29: 393-405.10.1071/PP0118732689484Search in Google Scholar

Magee T.K., Ernst T.L., Kentula M.E., Dwire K.A., 1999, Floristic comparison of freshwater wetlands in an urbanizing environment, Wetlands 19: 477-489.10.1007/BF03161687Search in Google Scholar

Makela S., Huitu E., Arvola L., 2004, Spatial patterns in aquatic vegetation composition and environmental covariates along chains of lakes in the Kokemäenjoki watershed, S. Finland, Aquat. Bot. 80: 253-269.10.1016/j.aquabot.2004.08.006Search in Google Scholar

Makin M.J., Kingham T.J., Waddams A.E., Birchall C.J., Eavis B.W., 1976, Prospects for irrigation development around Lake Ziway, Ethiopia, Land Res. Study Division, UK Ministry of Overseas Development, Report 26, Tolworth.Search in Google Scholar

Mir A.A., 2009, Composition and distribution of macrophytes in Hokersar - A wetland of international importance in Kashmir Himalaya, Int. J. Climate Change: Impacts and Responses 1(4): 23-35.10.18848/1835-7156/CGP/v01i04/37281Search in Google Scholar

Nekrasova G.F., Ronzhina D.A., Maleva M.G., P’yankov V.I., 2003, Photosynthetic Metabolism and Activity of Carboxylating Enzymes in Emergent, Floating, and Submerged Leaves of Hydrophytes, Russ. J. Plant Physiol. 50: 57-67.Search in Google Scholar

Nichols S.A., Shaw B.H., 1983, Physical, chemical and biological contril of aquatic macrophytes. Lake Restoration, Protection and Management, Proc.2nd Ann. Conf.Search in Google Scholar

N. Amer. Lk. Manage. Soc., Oct. 1982, Vancouver, EPA 404/5-83-001.U.S., EPA, Washington: 181-192.Search in Google Scholar

Nurminen L., 2003, Macrophyte species composition reflecting water quality changes in adjacent water bodies of Lake Hiidenvesi, Finland, Ann. Bot. Fenn. 40: 199-208. Search in Google Scholar

Pandit A.K., 1984, Role of macrophytes in the aquatic ecosystems and management of freshwater resources, J. Environ. Manage. 18: 73-78.Search in Google Scholar

Pandit A.K., 1992, Macrophytes as component of Dal Lake Ecosystem, [in:] Mishra R., Saksena D.N. (eds), Aquatic Ecology, Ashish Publ. House, New Delhi: 45-67.Search in Google Scholar

Pandit A.K., 2002, Freshwater biological resources of Kashmir Himalaya, [in:] Pandit A.K. (ed.), Natural Resources of Western Himalaya, Valley Book House, Srinagar: 123-174.Search in Google Scholar

Pandit A.K., 2008, Biodiversity of wetlands in Kashmir Himalaya, Proc. Nat. Acad. Sci. 78: 29-51.Search in Google Scholar

Pankhurst H., 2005, Patterns in the Distribution of Aquatic Macrophytes in Georgian Bay, Ontario, Final Report for Senior Honours Project Submitted to: Department of BiologyMcMaster University 1280 Main Street West. Hamilton, ON L8S 4K1.Search in Google Scholar

Partanen S., Luoto M., Hellsten S., 2009, Habitat level determinants of emergent macrophytes occurrence, extension and change in two large boreal lakes in Finland, Aquat. Bot. 90: 261-268.10.1016/j.aquabot.2008.11.001Search in Google Scholar

Rea T.E., Karapatakis D.J., Guy K.K., Pinder III J.E., Mackey Jr. H.E., 1998, The relative effects of water depth, fetch and other physical factors on the development of macrophytes in small southeastern US pond, Aquat. Bot. 61: 289-299.10.1016/S0304-3770(98)00069-2Search in Google Scholar

Riis T., Sand-Jensen K., Vestergaard O., 2000, Plant communities in lowland Danish streams: species composition and environmental factors, Aquat. Bot. 66: 255-272.10.1016/S0304-3770(99)00079-0Search in Google Scholar

Robledo D., Freile-Pelegrin Y., 2005, Seasonal variation in photosynthesis and biochemical composition of Caulerpa spp. Bryopsidales, Chlorophyta) from the Gulf of Mexico, Phycologia 44: 312-319.10.2216/0031-8884(2005)44[312:SVIPAB]2.0.CO;2Search in Google Scholar

Ronzhina D.A., Nekrasova G.F., P’yankov V.I., 2004, Comparative Characterization of the Pigment Complex in Emergent, Floating, and Submerged Leaves of Hydrophytes, Russ. J. Plant Physiol. 51: 21-27.10.1023/B:RUPP.0000011299.93961.8fSearch in Google Scholar

Rorslett B., 1991, Principal determinants of aquatic macrophyte richness in northern European lakes, Aquat. Bot. 39: 173-193.10.1016/0304-3770(91)90031-YSearch in Google Scholar

Rosset V., Lehmann A., Oertli B., 2010, Warmer and richer? Predicting the impact of climate warming on species richness in small temperate waterbodies, Glob. Change Biol. 16: 2376-2387.10.1111/j.1365-2486.2010.02206.xSearch in Google Scholar

Sand-Jensen K., 1989, Environmental variables and their effect on photosynthesis of aquatic plant communities, Aquat. Bot. 34: 5-26. Sand-Jensen K., 1990, Epiphyte shading - its role in resulting depth distribution of submerged aquatic macrophytes, Folia Geobot. Phytotax. 25: 315-320.10.1007/BF02913033Search in Google Scholar

Sand-Jensen K., 1998, Influence of submerged macrophytes on sediments composition and near-bed flow in lowland streams, Freshwater Biol. 39: 663-679.10.1046/j.1365-2427.1998.00316.xSearch in Google Scholar

Sand-Jensen K., Borum J., 1991, Interactions among phytoplankton, periphyton, and macrophytes in temperate freshwaters and estuaries, Aquat. Bot. 41: 137-176.10.1016/0304-3770(91)90042-4Search in Google Scholar

Sand-Jensen K., Riis T., Vestergaard O., Larsen S.E., 2000, Macrophyte decline in Danish lakes and streams over the past 100 years, J. Ecol. 88: 1030-1040.10.1046/j.1365-2745.2000.00519.xSearch in Google Scholar

Santamaria L., 2002, Why are most aquatic plants widely distributed? Dispersal, clonal growth and small-scale heterogeneity in a stressful environment, Acta Oecologica 23: 137-154.10.1016/S1146-609X(02)01146-3Search in Google Scholar

Sastroutomo S.S., 1980, Environmental control of turion formation in curly pondweed, Potamogeton crispus L., Physiol. Plant. 49: 261-264.10.1111/j.1399-3054.1980.tb02660.xSearch in Google Scholar

Sastroutomo S.S., 1981, Turion formation, dormancy and germination of curly pondweed, Potamogeton crispus L., Aquat. Bot. 10: 161-173.10.1016/0304-3770(81)90018-8Search in Google Scholar

Scheffer M., De Redelijkheid M.R., Noppert F., 1992, Distribution and dynamics of submerged vegetation in a chain of shallow Eutrophic lakes, Aquat. Bot, 42: 199-216.10.1016/0304-3770(92)90022-BSearch in Google Scholar

Scheffer M., Hosper S.H., Meijer M.L., Moss B., 1993, Alternative equilibria in shallow lakes, Trends Ecol. Evol. 8: 275-279.10.1016/0169-5347(93)90254-MSearch in Google Scholar

Scheffer M., Jeppesen E., 2007, Regime shifts in shallow lakes, Ecosystems 10: 1-3.10.1007/s10021-006-9002-ySearch in Google Scholar

Schwarz A.M., Hawes I., 1997, Effects of changing water clarity on characean biomass and species composition in a large oligotroophic lake, Aquat. Bot. 56: 169-181.10.1016/S0304-3770(96)01114-XSearch in Google Scholar

Sculthorpe C.D., 1967, The Biology of Aquatic Vascular Plants, Edward Arnold Ltd., London, pp. 610.Search in Google Scholar

Sculthorpe C.D., 1971, The Biology of Aquatic Vascular Plants, Edward Arnold Ltd., London, pp. 601.Search in Google Scholar

Shah M.A., Reshi Z.A., 2014, Characterization of alien aquatic flora of Kashmir Himalaya: implications for invasion management, Trop. Ecol. 55(2):143-157.Search in Google Scholar

Sikora L.J., Keeney D.R., 1983, Further aspects of soil chemistry under anaerobic conditions, [in:] Gore A.J.P. (ed.), Mires: swamp, bog, fen, and moor, Elsevier, Amsterdam: 247-256.Search in Google Scholar

Siraj S., Yousuf A.R., Parveen M., 2011, Spatio-temporal dynamics of macrophytes in relation to ecology of a Kashmir Himalayan Wetland, Int. Res. J. Biochem. Bioinformatics 1(4): 84-88.Search in Google Scholar

Smith J.E., 2011, Algae, [in:] Simberloff D., Rejmanek M. (eds) Encyclopedia of biological invasions, University of California Press, Los Angeles: 11-15.Search in Google Scholar

Solimini A.G., Cardoso A.C., Heiskanen A., 2006, Indicators and Method for Ecological Status Assessment under Water Framework Development, European Commission: Joint Reseach Center, EUR22314EN, Luxemburg.Search in Google Scholar

Sossey-Alaoui K., Rosillon F., 2013, Macrophytic Distribution and Trophic State of Some Natural and Impacted Watercourses - Belgium Wallonia, Int. J. Water Sci. 2(2): 1-11.10.5772/56609Search in Google Scholar

Spence D.H.N., 1982, The zonation of plants in freshwater lakes, Adv. Ecol. Res. 12: 37-125.10.1016/S0065-2504(08)60077-XSearch in Google Scholar

Tamire G., Mengistou S., 2012, Macrophyte species composition, distribution and diversity in relation to some physicochemical factors in the littoral zone of Lake Ziway, Ethiopia, Afr. J. Ecol. 51: 66-77.10.1111/aje.12007Search in Google Scholar

Toivonen H., Huttunen P., 1995, Aquatic macrophytes and ecological gradients in 57 small lakes in southern Finland, Aquat. Bot. 51: 197-221.10.1016/0304-3770(95)00458-CSearch in Google Scholar

Uedeme-Naa B., Gabriel U.U., Akinrotim O.A., 2011, The relationship between aquatic macrophytes and water quality in Nta-wogba stream, Port Harcourt, Nigeria, Cont. J. Fisheries Aquat. Sci. 5(2): 6-16.Search in Google Scholar

Vermaat J.E., De Bruyne R.J., 1993, Factors limiting the distribution of submerged waterplants in the lowland River Vecht .The Netherlands, Freshwater Biol. 30: 147-157.10.1111/j.1365-2427.1993.tb00795.xSearch in Google Scholar

Wetzel R., 1988, Water as an environment for plant life, [in:] Symoens J.J. (ed.), Vegetation of Inland Waters, Kluwer, Boston: 1-30.10.1007/978-94-009-3087-2_1Search in Google Scholar

Wetzel R.G., 2001, Limnology. Lake and river ecosystems, Academic Press, San Diego, pp. 1006.Search in Google Scholar

Wilson K.A., 2002, Impacts of the Invasive Rusty Crayfish (Orconectes rusticus) in Northern Wisconsin Lakes Zoology, University of Wisconsin, Madison, pp.194 Search in Google Scholar

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