This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Allan, J.D. (1976). Life history patterns in zooplankton. Am. Nat. 110(971): 165–180. DOI: 10.1086/283056.AllanJ.D.1976Life history patterns in zooplanktonAm. Nat11097116518010.1086/283056Open DOISearch in Google Scholar
Alvani, J., Boustani, F., Tabiee, O. & Hashemi, M. (2011). The effects of human activity in Yasuj Area on the health of Stream city. Int. J. Soc. Behav. Educ. Econ. Bus. Ind. Eng. 50: 341–345.AlvaniJ.BoustaniF.TabieeO.&HashemiM.2011The effects of human activity in Yasuj Area on the health of Stream cityInt. J. Soc. Behav. Educ. Econ. Bus. Ind. Eng50341345Search in Google Scholar
Angelidis, M.O., Markantonatos, P.G. & Bacalis N.C. (1995). Impact of human activities on the quality of river water: the case of Evrotas River catchment basin, Greece. Environ. Monit. Assess. 35(2): 137–153. DOI: 10.1007/BF00633711.AngelidisM.O.MarkantonatosP.G.&BacalisN.C.1995Impact of human activities on the quality of river water: the case of Evrotas River catchment basin, GreeceEnviron. Monit. Assess35213715310.1007/BF0063371124202273Open DOISearch in Google Scholar
Arndt, H. (1993). Rotifers as predators on components of the microbial web (bacteria, heterotrophic flagellates, ciliates) – a review. In J.J. Gilbert, E. Lubzens & M.R. Miracle (Eds.), Rotifer Symposium VI (pp. 231–246). Dordrecht: Springer.ArndtH.1993Rotifers as predators on components of the microbial web (bacteria, heterotrophic flagellates, ciliates) – a reviewGilbertJ.J.LubzensE.&MiracleM.R.Rotifer Symposium VI231246DordrechtSpringer10.1007/978-94-011-1606-0_31Search in Google Scholar
Balvay, G. & Laurent, M. (1990). Long-term quantitative evolution of rotifers during the eutrophication in Lake Geneva. Aquat. Sci. 52(2): 162–175.BalvayG.&LaurentM.1990Long-term quantitative evolution of rotifers during the eutrophication in Lake GenevaAquat. Sci52216217510.1007/BF00902378Search in Google Scholar
Balvay, G. (1989). Evolution of rotifer biocenosis during changes of the trophic state in Lake Geneva and comparison with Lake Constance. Rev. Des Sci. De L'Eau/J. Water Sci. 2(4): 739–753.BalvayG.1989Evolution of rotifer biocenosis during changes of the trophic state in Lake Geneva and comparison with Lake ConstanceRev. Des Sci. De L'Eau/J. Water Sci24739753Search in Google Scholar
Bays, J.S. & Crisman, T.L. (1983). Zooplankton and trophic state relationships in Florida lakes. Can. J. Fish. Aquat. Sci. 40(10): 1813–1819. DOI: 10.1139/f83-210.BaysJ.S.&CrismanT.L.1983Zooplankton and trophic state relationships in Florida lakesCan. J. Fish. Aquat. Sci40101813181910.1139/f83-210Open DOISearch in Google Scholar
Beaver, J.R. & Crisman, T.L. (1990). Use of microzooplankton as an early indicator of advancing cultural eutrophication. Verh. Internat. Verein. Theor. Angew. Limnol. 24(1): 532–537. DOI: 10.1080/03680770.1989.11898794.BeaverJ.R.&CrismanT.L.1990Use of microzooplankton as an early indicator of advancing cultural eutrophicationVerh. Internat. Verein. Theor. Angew. Limnol24153253710.1080/03680770.1989.11898794Open DOISearch in Google Scholar
Bogdan, K.G., Gilbert, J.J. & Starkweather, P.L. (1980). In situ clearance rates of planktonic rotifers. In H.J. Dumont & J. Green (Eds.), Rotatoria (pp. 73–77). Dordrecht: Springer.BogdanK.G.GilbertJ.J.&StarkweatherP.L.1980In situ clearance rates of planktonic rotifersDumontH.J.&GreenJ.Rotatoria7377DordrechtSpringer10.1007/978-94-009-9209-2_14Search in Google Scholar
Boo, K.O., Kwon, W.T. & Baek, H.J. (2006). Change of extreme events of temperature and precipitation over Korea using regional projection of future climate change. Geophys. Res. Lett. 33(1). DOI: 10.1029/2005GL023378.BooK.O.KwonW.T.&BaekH.J.2006Change of extreme events of temperature and precipitation over Korea using regional projection of future climate changeGeophys. Res. Lett33110.1029/2005GL023378Open DOISearch in Google Scholar
Buikema, Jr A.L., Cairns, J. & Sullivan, G.W. (1974). Rotifers as monitors of heavy metal pollution in water Bulletins, Virginia Water Resources Research Center.BuikemaJr A.L.CairnsJ.&SullivanG.W.1974Rotifers as monitors of heavy metal pollution in waterBulletins, Virginia Water Resources Research CenterSearch in Google Scholar
Castro, B.B., Antunes, S.C., Pereira, R., Soares, A.M. & Goncalves, F. (2005). Rotifer community structure in three shallow lakes: seasonal fluctuations and explanatory factors. Hydrobiologia 543(1): 221–232. DOI: 10.1007/s10750-004-7453-8.CastroB.B.AntunesS.C.PereiraR.SoaresA.M.&GoncalvesF.2005Rotifer community structure in three shallow lakes: seasonal fluctuations and explanatory factorsHydrobiologia543122123210.1007/s10750-004-7453-8Open DOISearch in Google Scholar
Cèrèghino, R. & Park, Y.S. (2009). Review of the self-organizing map (SOM) approach in water resources: commentary. Environ. Model. Softw. 24: 945–947. DOI: 10.1016/j.envsoft.2009.01.008.CèrèghinoR.&ParkY.S.2009Review of the self-organizing map (SOM) approach in water resources: commentaryEnviron. Model. Softw2494594710.1016/j.envsoft.2009.01.008Open DOISearch in Google Scholar
Chae, B.S. & Yang, H.J. (1999). Microphysogobio rapidus a new species of gudgeon (Cyprinidae, Pisces) from Korea, with revised key to species of the genus Microphysogobio of Korea. Korean J. Biol. Sci. 3(1): 17–21.ChaeB.S.&YangH.J.1999Microphysogobio rapidus a new species of gudgeon (Cyprinidae, Pisces) from Korea, with revised key to species of the genus Microphysogobio of KoreaKorean J. Biol. Sci31172110.1080/12265071.1999.9647460Search in Google Scholar
Chen, X., Zhang, Z.C., Chen, X.H. & Shi, P. (2009). The impact of land use and land cover changes on soil moisture and hydraulic conductivity along the karst hillslopes of southwest China. Environ. Earth Sci. 59(4): 811–820. DOI: 10.1007/s12665-009-0077-6.ChenX.ZhangZ.C.ChenX.H.&ShiP.2009The impact of land use and land cover changes on soil moisture and hydraulic conductivity along the karst hillslopes of southwest ChinaEnviron. Earth Sci59481182010.1007/s12665-009-0077-6Open DOISearch in Google Scholar
Chon, T.S., Park, Y.S., Moon, K.H. & Cha, E.Y. (1996). Patternizing communities by using an artificial neural network. Ecol. Modell. 90: 69–78. DOI: 10.1016/0304-3800(95)00148-4.ChonT.S.ParkY.S.MoonK.H.&ChaE.Y.1996Patternizing communities by using an artificial neural networkEcol. Modell90697810.1016/0304-3800(95)00148-4Open DOISearch in Google Scholar
Dejen, E., Vijverberg, J., Nagelkerke, L.A. & Sibbing, F.A. (2004). Temporal and spatial distribution of microcrustacean zooplankton in relation to turbidity and other environmental factors in a large tropical lake (L. Tana, Ethiopia). Hydrobiologia 513(1–3): 39–49. DOI: 10.1023/B:hydr.0000018163.60503.b8.DejenE.VijverbergJ.NagelkerkeL.A.&SibbingF.A.2004Temporal and spatial distribution of microcrustacean zooplankton in relation to turbidity and other environmental factors in a large tropical lake (LTana, Ethiopia). Hydrobiologia5131–3394910.1023/B:hydr.0000018163.60503.b8Open DOISearch in Google Scholar
Devetter, M. (1998). Influence of environmental factors on the rotifer assemblage in an artificial lake. Hydrobiologia 387: 171–178. DOI: 10.1023/A:1017050011995.DevetterM.1998Influence of environmental factors on the rotifer assemblage in an artificial lakeHydrobiologia38717117810.1023/A:1017050011995Open DOISearch in Google Scholar
Duggan, I.C., Green, J.D. & Shiel, R.J. (2001). Distribution of rotifers in North Island, New Zealand, and their potential use as bioindicators of lake trophic state. In L. Sanoamuang, H. Segers, R.J. Shiel & R.D. Gulati (Eds.), Rotifera IX (pp. 155–164.). Dordrecht: Springer.DugganI.C.GreenJ.D.&ShielR.J.2001Distribution of rotifers in North Island, New Zealand, and their potential use as bioindicators of lake trophic stateSanoamuangL.SegersH.ShielR.J.&GulatiR.D.Rotifera IX155164DordrechtSpringer10.1007/978-94-010-0756-6_22Search in Google Scholar
Duggan, I.C., Green, J.D. & Shiel, R.J. (2002). Distribution of rotifer assemblages in North Island, New Zealand, lakes: relationships to environmental and historical factors. Freshw. Biol. 47(2): 195–206. DOI: 10.1046/j.1365-2427.2002.00742.x.DugganI.C.GreenJ.D.&ShielR.J.2002Distribution of rotifer assemblages in North Island, New Zealand, lakes: relationships to environmental and historical factorsFreshw. Biol47219520610.1046/j.1365-2427.2002.00742.xOpen DOISearch in Google Scholar
Edmondson, W.T. (1965). Reproductive rate of planktonic rotifers as related to food and temperature in nature. Ecol. Monogr. 35(1): 61–111. DOI: 10.2307/1942218.EdmondsonW.T.1965Reproductive rate of planktonic rotifers as related to food and temperature in natureEcol. Monogr3516111110.2307/1942218Open DOISearch in Google Scholar
Elliott, J.I. (1977). Seasonal changes in the abundance and distribution of planktonic rotifers in Grasmere (English Lake District). Freshw. Biol. 7(2): 147–166. DOI: 10.1111/j.1365-2427.1977.tb01665.x.ElliottJ.I.1977Seasonal changes in the abundance and distribution of planktonic rotifers in Grasmere (English Lake District)Freshw. Biol7214716610.1111/j.1365-2427.1977.tb01665.xOpen DOISearch in Google Scholar
Erdoğan, S. & Güher, H. (2005). The Rotifera fauna of Gala Lake (Edirne-Turkey). Pak. J. Biol. Sci. 8(11): 1579–1583.ErdoğanS.&GüherH.2005The Rotifera fauna of Gala Lake (Edirne-Turkey)Pak. J. Biol. Sci8111579158310.3923/pjbs.2005.1579.1583Search in Google Scholar
Fielding, A.H. (1999). An introduction to machine learning methods. In A. Fielding (Ed.), Machine learning methods for ecological applications Massachusetts, Kluewer Academic Publishers.FieldingA.H.1999An introduction to machine learning methodsFieldingA.Machine learning methods for ecological applicationsMassachusettsKluewer Academic Publishers10.1007/978-1-4615-5289-5Search in Google Scholar
Frost, T.M., Carpenter, S.R. & Kratz, T.K. (1992). Choosing ecological indicators: effects of taxonomic aggregation on sensitivity to stress and natural variability. In D.H. McKenzie, D.E. Hyatt & V.J. McDonald (Eds.), Ecological indicators (pp. 215–227). Boston, MA, Springer.FrostT.M.CarpenterS.R.&KratzT.K.1992Choosing ecological indicators: effects of taxonomic aggregation on sensitivity to stress and natural variabilityMcKenzieD.H.HyattD.E.&McDonaldV.J.Ecological indicators215227Boston, MASpringer10.1007/978-1-4615-4659-7_15Search in Google Scholar
Gannon, J.E. & Stemberger, R.S. (1978). Zooplankton (especially crustaceans and rotifers) as indicators of water quality. Trans. Am. Microsc. Soc. 97(1): 16–35. DOI: 10.2307/3225681.GannonJ.E.&StembergerR.S.1978Zooplankton (especially crustaceans and rotifers) as indicators of water qualityTrans. Am. Microsc. Soc971163510.2307/3225681Open DOISearch in Google Scholar
Gao, H.D., Zhang, S.S., Zhao, R.F. & Zhu, L.C. (2018). Plankton community structure analysis and water quality bioassessment in Jiulong Lake. IOP Conf. Ser. Earth Environ. Sci. 199(2): 022031. DOI: 10.1088/1755-1315/199/2/022031.GaoH.D.ZhangS.S.ZhaoR.F.&ZhuL.C.2018Plankton community structure analysis and water quality bioassessment in Jiulong LakeIOP Conf. Ser. Earth Environ. Sci199202203110.1088/1755-1315/199/2/022031Open DOISearch in Google Scholar
Gao, Y., Lai, Z.N., Wang, G.J., Liu, Q.F. & Yu, E.M. (2019). Distribution of Zooplankton Population in Different Culture Ponds from South China. Nat. Environ. Pollut. Technol. 18(1): 81–88.GaoY.LaiZ.N.WangG.J.LiuQ.F.&YuE.M.2019Distribution of Zooplankton Population in Different Culture Ponds from South ChinaNat. Environ. Pollut. Technol1818188Search in Google Scholar
Gasol, J.M., Simons, A.M. & Kalff, J. (1995). Patterns in the top-down versus bottom-up regulation of heterotrophic nanoflagellates in temperate lakes. J. Plankton Res. 17(10): 1879–1903. DOI: 10.1093/plankt/17.10.1879.GasolJ.M.SimonsA.M.&KalffJ.1995Patterns in the top-down versus bottom-up regulation of heterotrophic nanoflagellates in temperate lakesJ. Plankton Res17101879190310.1093/plankt/17.10.1879Open DOISearch in Google Scholar
Gilbert, J.J. & Bogdan, K.G. (1981). Selectivity of Polyarthra and Keratella for flagellate and aflagellate cells. Verh. Internat. Verein. Theor. Angew. Limnol. 21(3): 1515–1521. DOI: 10.1080/03680770.1980.11897224.GilbertJ.J.&BogdanK.G.1981Selectivity of Polyarthra and Keratella for flagellate and aflagellate cellsVerh. Internat. Verein. Theor. Angew. Limnol2131515152110.1080/03680770.1980.11897224Open DOISearch in Google Scholar
Giraudel, J.L. & Lek, S. (2001). A comparison of self-organizing map algorithm and some conventional statistical methods for ecological community ordination. Ecol. Modell. 146: 329–339. DOI: 10.1016/S0304-3800(01)00324-6.GiraudelJ.L.&LekS.2001A comparison of self-organizing map algorithm and some conventional statistical methods for ecological community ordinationEcol. Modell14632933910.1016/S0304-3800(01)00324-6Open DOISearch in Google Scholar
Goethals, P. & De Pauw, N. (2001). Development of a concept for integrated ecological river assessment in Flanders, Belgium. J. Limnol. 60(1s): 7–16.GoethalsP.&De PauwN.2001Development of a concept for integrated ecological river assessment in Flanders, BelgiumJ. Limnol601s71610.4081/jlimnol.2001.s1.7Search in Google Scholar
Grady, S.J. & Mullaney, J.R. (1998). Natural and human factors affecting shallow water quality in surficial aquifers in the Connecticut, Housatonic, and Thames River Basins Vol. 4. US Department of the Interior, US geological Survey.GradyS.J.&MullaneyJ.R.1998Natural and human factors affecting shallow water quality in surficial aquifers in the Connecticut, Housatonic, and Thames River Basins Vol. 4. US Department of the InteriorUS geological SurveySearch in Google Scholar
Grau, H.R., Aide, T.M., Zimmerman, J.K., Thomlinson, J.R., Helmer, E. et al. (2003). The ecological consequences of socioeconomic and land-use changes in postagriculture Puerto Rico. BioScience 53(12): 1159–1168. DOI: 10.1641/0006-3568(2003)053[1159:TECOSA]2.0.CO;2.GrauH.R.AideT.M.ZimmermanJ.K.ThomlinsonJ.R.HelmerE.et al2003The ecological consequences of socioeconomic and land-use changes in postagriculture Puerto RicoBioScience53121159116810.1641/0006-3568(2003)053[1159:TECOSA]2.0.CO;2Open DOISearch in Google Scholar
Große, W. (1996). Pressurised ventilation in floating-leaved aquatic macrophytes. Aquat. Bot. 54(2–3): 137–150. DOI: 10.1016/0304-3770(96)01041-8.GroßeW.1996Pressurised ventilation in floating-leaved aquatic macrophytesAquat. Bot542–313715010.1016/0304-3770(96)01041-8Open DOISearch in Google Scholar
Gupta, N., Pandey, P. & Hussain, J. (2017). Effect of physicochemical and biological parameters on the quality of river water of Narmada, Madhya Pradesh, India. Water Sci. 31(1): 11–23. DOI: 10.1016/j.wsj.2017.03.002.GuptaN.PandeyP.&HussainJ.2017Effect of physicochemical and biological parameters on the quality of river water of Narmada, Madhya Pradesh, IndiaWater Sci311112310.1016/j.wsj.2017.03.002Open DOISearch in Google Scholar
Haney, J.F. & Hall, D.J. (1973). Sugar‐coated Daphnia A preservation technique for Cladocera 1. Limnol. Oceanogr. 18(2): 331–333. DOI: 10.4319/lo.1973.18.2.0331.HaneyJ.F.&HallD.J.1973Sugar‐coated Daphnia A preservation technique for Cladocera 1Limnol. Oceanogr18233133310.4319/lo.1973.18.2.0331Open DOISearch in Google Scholar
Hessen, D.O. & Nilssen, J.P. (1985). Factors controlling rotifer abundances in a norwegian eutrophic lake: an experimental study. Ann. Limnol. Int. J. Limnol. 21(2): 97–105. DOI: 10.1051/limn/1985017.HessenD.O.&NilssenJ.P.1985Factors controlling rotifer abundances in a norwegian eutrophic lake: an experimental studyAnn. Limnol. Int. J. Limnol2129710510.1051/limn/1985017Open DOISearch in Google Scholar
Jackson, L.E., Kurtz, J.C. & Fisher, W.S. (2000). Evaluation guidelines for ecological indicators. NC, US Environmental Protection Agency, Office of Research and Development.JacksonL.E.KurtzJ.C.&FisherW.S.2000Evaluation guidelines for ecological indicators. NC, US Environmental Protection Agency, Office of Research and DevelopmentSearch in Google Scholar
Jafari, N., Nabavi, M.S. & Akhavan, M. (2011). Ecological investigation of zooplankton abundance in the river Haraz, Northeast Iran: impact of environmental variables. Arch. Biol. Sci. 63(3): 785–798. DOI: 10.2298/ABS1103785J.JafariN.NabaviM.S.&AkhavanM.2011Ecological investigation of zooplankton abundance in the river Haraz, Northeast Iran: impact of environmental variablesArch. Biol. Sci63378579810.2298/ABS1103785JOpen DOISearch in Google Scholar
Kang, E.J., Yang, H., Lee, H.H., Cho, Y.C., Kim, E.O. et al. (2007). Ecology and early life history of endangered freshwater fish, Pseudobagrus brevicorpus (Pisces: Bagridae). Korean J. Environ. Biol. 25(4): 378–384.KangE.J.YangH.LeeH.H.ChoY.C.KimE.O.et al2007Ecology and early life history of endangered freshwater fish, Pseudobagrus brevicorpus (Pisces: Bagridae)Korean J. Environ. Biol254378384Search in Google Scholar
King, J.G. & Mace, Jr A.C. (1974). Effects of recreation on water quality. J. Water Pollut. Control Fed. 46: 2453–2459.KingJ.G.&MaceJr A.C.1974Effects of recreation on water qualityJ. Water Pollut. Control Fed4624532459Search in Google Scholar
Kohonen, T. (1982). Self-organized formation of topologically correct feature maps. Biol. Cybern. 43: 59–69. DOI: 10.1007/BF00337288.KohonenT.1982Self-organized formation of topologically correct feature mapsBiol. Cybern43596910.1007/BF00337288Open DOISearch in Google Scholar
Kohonen, T. (1997). Self-organizing Maps New York, Springer.KohonenT.1997Self-organizing MapsNew York, Springer10.1007/978-3-642-97966-8Search in Google Scholar
Koste, W. (1978). Rotatoria: die Rädertiere Mitteleuropas (2rd ed). Berlin and Stuttgart, Gebruder Borntraeger.KosteW.1978Rotatoria: die Rädertiere Mitteleuropas (2rd ed)Berlin and StuttgartGebruder BorntraegerSearch in Google Scholar
Kuczynski, D. (1987). The rotifer fauna of Argentine Patagonia as a potential limnological indicator. Hydrobiologia 150(1): 3–10. DOI: 10.1007/BF00006605.KuczynskiD.1987The rotifer fauna of Argentine Patagonia as a potential limnological indicatorHydrobiologia150131010.1007/BF00006605Open DOISearch in Google Scholar
Larsson, P. & Lampert, W. (2011). Experimental evidence of a low‐ oxygen refuge for large zooplankton. Limnol. Oceanogr. 56(5): 1682–1688. DOI: 10.4319/lo.2011.56.5.1682.LarssonP.&LampertW.2011Experimental evidence of a low‐ oxygen refuge for large zooplanktonLimnol. Oceanogr5651682168810.4319/lo.2011.56.5.1682Open DOISearch in Google Scholar
Lee, J.Y., Choi, Y.K., Kim, H.S. & Yun, S.T. (2005). Hydrologic characteristics of a large rockfill dam: Implications for water leakage. Eng. Geol. 80(1–2): 43–59. DOI: 10.1016/j.enggeo.2005.03.002.LeeJ.Y.ChoiY.K.KimH.S.&YunS.T.2005Hydrologic characteristics of a large rockfill dam: Implications for water leakageEng. Geol801–2435910.1016/j.enggeo.2005.03.002Open DOISearch in Google Scholar
Mäemets, A. (1983). Rotifers as indicators of lake types in Estonia. Hydrobiologia 104(1): 357–361. DOI: 10.1007/BF00045991.MäemetsA.1983Rotifers as indicators of lake types in EstoniaHydrobiologia104135736110.1007/BF00045991Open DOISearch in Google Scholar
Mizuno, T. & Takahashi, E. (1999). An illustration guide to freshwater zooplankton in Japan. Simizu: Tokai University.MizunoT.&TakahashiE.1999An illustration guide to freshwater zooplankton in JapanSimizuTokai UniversitySearch in Google Scholar
Nandini, S., Ramírez-García, P. & Sarma, S.S.S. (2005). Seasonal variations in the species diversity of planktonic rotifers in Lake Xochimilco, Mexico. J. Freshw. Ecol. 20(2): 287–294. DOI: 10.1080/02705060.2005.9664968.NandiniS.Ramírez-GarcíaP.&SarmaS.S.S.2005Seasonal variations in the species diversity of planktonic rotifers in Lake Xochimilco, MexicoJ. Freshw. Ecol20228729410.1080/02705060.2005.9664968Open DOISearch in Google Scholar
Odum, H.T. (1994). Ecological and general systems: An introduction to systems ecology Colorado University Press, USA.OdumH.T.1994Ecological and general systems: An introduction to systems ecologyColorado University PressUSASearch in Google Scholar
Ogbeibu, A.E. & Oribhabor, B.J. (2002). Ecological impact of river impoundment using benthic macro-invertebrates as indicators. Water Res. 36(10): 2427–2436. DOI: 10.1016/S0043-1354(01)00489-4.OgbeibuA.E.&OribhaborB.J.2002Ecological impact of river impoundment using benthic macro-invertebrates as indicatorsWater Res36102427243610.1016/S0043-1354(01)00489-4Open DOISearch in Google Scholar
Oh, H.J., Jeong, H.G., Nam, G.S., Oda, Y., Dai, W. et al. (2017). Comparison of taxon-based and trophi-based response patterns of rotifer community to water quality: applicability of the rotifer functional group as an indicator of water quality. Anim. Cells Syst. 21(2): 133–140. DOI: 10.1080/19768354.2017.1292952.OhH.J.JeongH.G.NamG.S.OdaY.DaiW.et al2017Comparison of taxon-based and trophi-based response patterns of rotifer community to water quality: applicability of the rotifer functional group as an indicator of water qualityAnim. Cells Syst21213314010.1080/19768354.2017.1292952613835530460061Open DOISearch in Google Scholar
Olajire, A.A. & Imeokparia, F.E. (2001). Water quality assessment of Osun River: studies on inorganic nutrients. Environ. Monit. Assess. 69(1): 17–28. DOI: 10.1023/A:1010796410829.OlajireA.A.&ImeokpariaF.E.2001Water quality assessment of Osun River: studies on inorganic nutrientsEnviron. Monit. Assess691172810.1023/A:1010796410829Open DOISearch in Google Scholar
Ooms-Wilms, A.L. (1991). Ingestion of fluorescently labelled bacteria by rotifers and cladocerans in Lake Loosdrecht as measures of bacterivory: preliminary results. Mem. Ist. ital. Idrobiol. 48: 269–278.Ooms-WilmsA.L.1991Ingestion of fluorescently labelled bacteria by rotifers and cladocerans in Lake Loosdrecht as measures of bacterivory: preliminary resultsMem. Ist. ital. Idrobiol48269278Search in Google Scholar
Pace, M.L. (1986). An empirical analysis of zooplankton community size structure across lake trophic gradients 1. Limnol. Oceanogr. 31(1): 45–55. DOI: 10.4319/lo.1986.31.1.0045.PaceM.L.1986An empirical analysis of zooplankton community size structure across lake trophic gradients 1Limnol. Oceanogr311455510.4319/lo.1986.31.1.0045Open DOISearch in Google Scholar
Pappas, E.A., Smith, D.R., Huang, C., Shuster, W.D. & Bonta, J.V. (2008). Impervious surface impacts to runoff and sediment discharge under laboratory rainfall simulation. Catena 72(1): 146–152. DOI: 10.1016/j.catena.2007.05.001.PappasE.A.SmithD.R.HuangC.ShusterW.D.&BontaJ.V.2008Impervious surface impacts to runoff and sediment discharge under laboratory rainfall simulationCatena72114615210.1016/j.catena.2007.05.001Open DOISearch in Google Scholar
Pourriot, R. (1997). Food and feeding habits of rotifera. Arch. Hydrobiol. Ergebn. Limnol. 8: 243–260.PourriotR.1997Food and feeding habits of rotiferaArch. Hydrobiol. Ergebn. Limnol8243260Search in Google Scholar
Singh, U.B., Ahluwalia, A.S., Sharma, C., Jindal, R. & Thakur, R.K. (2013). Planktonic indicators: a promising tool for monitoring water quality (early-warning signals). Ecol. Environ. Conserv. 19(3): 793–800.SinghU.B.AhluwaliaA.S.SharmaC.JindalR.&ThakurR.K.2013Planktonic indicators: a promising tool for monitoring water quality (early-warning signals)Ecol. Environ. Conserv193793800Search in Google Scholar
Sládeček, V. (1983). Rotifers as indicators of water quality. Hydrobiologia 100(1): 169–201. DOI: 10.1007/BF00027429.SládečekV.1983Rotifers as indicators of water qualityHydrobiologia100116920110.1007/BF00027429Open DOISearch in Google Scholar
Snell, T.W., Moffat, B.D., Janssen, C. & Persoone, G. (1991). Acute toxicity tests using rotifers. III. Effects of temperature, strain, and exposure time on the sensitivity of Brachionus plicatilisEnviron. Toxicol. Water Qual. 6(1): 63–75. DOI: 10.1002/tox.2530060106.SnellT.W.MoffatB.D.JanssenC.&PersooneG.1991Acute toxicity tests using rotifersIII. Effects of temperature, strain, and exposure time on the sensitivity of Brachionus plicatilis Environ. Toxicol. Water Qual61637510.1002/tox.2530060106Open DOISearch in Google Scholar
Snyder, P.K., Delire, C. & Foley, J.A. (2004). Evaluating the influence of different vegetation biomes on the global climate. Clim. Dyn. 23(3–4): 279–302. DOI: 10.1007/s00382-004-0430-0.SnyderP.K.DelireC.&FoleyJ.A.2004Evaluating the influence of different vegetation biomes on the global climateClim. Dyn233–427930210.1007/s00382-004-0430-0Open DOISearch in Google Scholar
Søndergaard, M. & Jeppesen, E. (2007). Anthropogenic impacts on lake and stream ecosystems, and approaches to restoration. J. Appl. Ecol. 44(6): 1089–1094. DOI: 10.1111/j.1365-2664.2007.01426.x.SøndergaardM.&JeppesenE.2007Anthropogenic impacts on lake and stream ecosystems, and approaches to restorationJ. Appl. Ecol4461089109410.1111/j.1365-2664.2007.01426.xOpen DOISearch in Google Scholar
Suthar, S., Sharma, J., Chabukdhara, M. & Nema, A.K. (2010). Water quality assessment of river Hindon at Ghaziabad, India: impact of industrial and urban wastewater. Environ. Monit. Assess. 165(1–4): 103–112. DOI: 10.1007/s10661-009-0930-9.SutharS.SharmaJ.ChabukdharaM.&NemaA.K.2010Water quality assessment of river Hindon at Ghaziabad, India: impact of industrial and urban wastewaterEnviron. Monit. Assess1651–410311210.1007/s10661-009-0930-9Open DOISearch in Google Scholar
Uriarte, E.A. & Martín, F.D. (2005). Topology preservation in SOM. Int. J. Appl. Math. Comput. Sci. 1(1): 19–22.UriarteE.A.&MartínF.D.2005Topology preservation in SOMInt. J. Appl. Math. Comput. Sci111922Search in Google Scholar
Vesanto, J. & Alhoniemi, E. (2000). Clustering of the self-organizing map. IEEE Trans. Neural Netw. 11: 586–600. DOI: 10.1109/72.846731.VesantoJ.&AlhoniemiE.2000Clustering of the self-organizing mapIEEE Trans. Neural Netw1158660010.1109/72.846731Open DOISearch in Google Scholar
Walz, N. (1995). Rotifer populations in plankton communities: energetics and life history strategies. Experientia 51(5): 437–453. DOI: 10.1007/BF02143197.WalzN.1995Rotifer populations in plankton communities: energetics and life history strategiesExperientia51543745310.1007/BF02143197Open DOISearch in Google Scholar
Wang, S.B., Xie, P. & Geng, H. (2010). The relative importance of physicochemical factors and crustacean zooplankton as determinants of rotifer density and species distribution in lakes adjacent to the Yangtze River, China. Limnologica 40(1): 1–7. DOI: 10.1016/j.limno.2009.03.001.WangS.B.XieP.&GengH.2010The relative importance of physicochemical factors and crustacean zooplankton as determinants of rotifer density and species distribution in lakes adjacent to the Yangtze River, ChinaLimnologica4011710.1016/j.limno.2009.03.001Open DOISearch in Google Scholar
Watson, F., Vertessy, R., McMahon, T., Rhodes, B. & Watson, I. (2001). Improved methods to assess water yield changes from paired-catchment studies: application to the Maroondah catchments. For. Ecol. Manage. 143(1–3): 189–204. DOI: 10.1016/S0378-1127(00)00517-X.WatsonF.VertessyR.McMahonT.RhodesB.&WatsonI.2001Improved methods to assess water yield changes from paired-catchment studies: application to the Maroondah catchmentsFor. Ecol. Manage1431–318920410.1016/S0378-1127(00)00517-XOpen DOISearch in Google Scholar
Wetzel, R.G. & Likens, G.E. (2000). Limnological Analyses. NY, Springer-Verlag.WetzelR.G.&LikensG.E.2000Limnological AnalysesNY, Springer-Verlag10.1007/978-1-4757-3250-4Search in Google Scholar
Xi, Y.L., Dong, L.L., Ge, Y.L. & Liu, G.Y. (2004). Resting egg production of Brachionus calyciflorus (Rotifera) at different water temperatures. J. Freshw. Ecol. 19(4): 567–573. DOI: 10.1080/02705060.2004.9664736.XiY.L.DongL.L.GeY.L.&LiuG.Y.2004Resting egg production of Brachionus calyciflorus (Rotifera) at different water temperaturesJ. Freshw. Ecol19456757310.1080/02705060.2004.9664736Open DOISearch in Google Scholar
Yang, X., Ren, L., Singh, V.P., Liu, X., Yuan, F. et al. (2012). Impacts of land use and land cover changes on evapotranspiration and runoff at Shalamulun River watershed, China. Hydrol. Res. 43(1–2): 23–37. DOI: 10.2166/nh.2011.120.YangX.RenL.SinghV.P.LiuX.YuanF.et al2012Impacts of land use and land cover changes on evapotranspiration and runoff at Shalamulun River watershed, ChinaHydrol. Res431–2233710.2166/nh.2011.120Open DOISearch in Google Scholar
Yin, L., Ji, Y., Zhang, Y., Chong, L. & Chen, L. (2018). Rotifer community structure and its response to environmental factors in the Backshore Wetland of Expo Garden, Shanghai. Aquac. Fish. 3(2): 90–97. DOI: 10.1016/j.aaf.2017.11.001.YinL.JiY.ZhangY.ChongL.&ChenL.2018Rotifer community structure and its response to environmental factors in the Backshore Wetland of Expo Garden, ShanghaiAquac. Fish32909710.1016/j.aaf.2017.11.001Open DOISearch in Google Scholar
Yoshida, T., Urabe, J. & Elser, J.J. (2003). Assessment of ‘top-down’and ‘bottom-up’forces as determinants of rotifer distribution among lakes in Ontario, Canada. Ecol. Res. 18(6): 639–650. DOI: 10.1111/j.1440-1703.2003.00596.xYoshidaT.UrabeJ.&ElserJ.J.2003Assessment of ‘top-down’and ‘bottom-up’forces as determinants of rotifer distribution among lakes in Ontario, CanadaEcol. Res18663965010.1111/j.1440-1703.2003.00596.xOpen DOISearch in Google Scholar
