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Past History of Freshwater Zooplankton Research in South Korea and Korean Society of Limnology and Future Directions

한국하천호수학회를 통해 본 국내 담수 동물플랑크톤 연구의 역사와 현재, 미래의 연구 동향

  • Hyun-Woo, Kim (Department of Environmental Education, Sunchon National University) ;
  • Jeong, Hyun-Gi (National Institute of Environmental Research) ;
  • Choi, Jong-Yun (National Institute of Ecology) ;
  • Kim, Seong-Ki (National Institute of Ecology) ;
  • Jeong, Kwang-Seuk (Department of Nursing Science, Dongju College) ;
  • La, Geung-Hwan (Department of Environmental Education, Sunchon National University) ;
  • Oh, Hye-Ji (Department of Environmental Science and Engineering, Kyung Hee University) ;
  • Chang, Kwang-Hyeon (Department of Environmental Science and Engineering, Kyung Hee University)
  • Received : 2018.01.05
  • Accepted : 2018.03.24
  • Published : 2018.03.31

Abstract

This review summarizes the history of freshwater zooplankton research in Korean Society of Limnology and necessary future topics that are remain poorly investigated in South Korea based on main research topics of published articles focusing on lakes, reservoirs, rivers and wetland ecosystems. In Korea, a total 450 freshwater zooplankton species have been reported (85 species of cladocera, ca. 230 species of rotifera since 1939, and 138 species of copepoda), and they cover 10% of total zooplankton species list. In the present paper, we provide recent species list of zooplankton found in Korea and their taxonomic keys. Over periods of 45 years, there are 25 published papers for zooplankton biota in lentic ecosystems in Korean Journal of Ecology and Environment (KJEE). The ecology of zooplankton communities in rivers has focused on the mechanisms involved in regulating their abundance, diversity and spatio-temporal patterns of genus Bosmina and rotifers (genus Brachionus and Keratella) that are most frequently found from Korea. On the other hand, the studies on zooplankton in wetland has focused on Alona, Chydorus and Ceriodaphnia with special emphasis on their relationships with aquatic macrophytes. Even though studies on the freshwater ecosystem in Korea have a long history, a few of studies on zooplankton biota were conducted at rice paddy, Dumbeong and wetlands. During the last two decades, experimental advances in freshwater zooplankton ecology and understanding of structure and function of this biota were made from a series of articles mainly in journal of KJEE. For future studies, quantitative, experimental and interdisciplinary approaches would be key words to understand zooplankton ecology and their roles in aquatic ecosystems under changing environments, and we have suggested necessary zooplankton research fields and future directions.

Keywords

References

  1. Ahlgren, G., L. Lundstedt, M. Brett and C. Forsberg. 1990. Lipid composition and food quality of some freshwater phytoplankton for cladoceran zooplankters. Journal of Plankton Research 12: 809-818. https://doi.org/10.1093/plankt/12.4.809
  2. Allan, J.D. and M.M. Castillo. 2007. Stream Ecology. Springer, Dordrecht.
  3. Arbaciauskas, K. 2001. Life-history variation related to the first adult instar in daphnids derived from diapausing and subitaneous eggs. Hydrobiologia 442: 157-164. https://doi.org/10.1023/A:1017593131383
  4. Azam, F., T. Fenchel, J.G. Field, J.S. Gray, L.A. Meyer-Reil and F. Thingstad. 1983. The ecological role of water-column microbes in the sea. Marine Ecology Progress Series 10: 257-263. https://doi.org/10.3354/meps010257
  5. Baines, S.B. and M.L. Pace. 1991. The production of dissolved organic matter by phytoplankton and its importance to bacteria; patterns across marine and freshwater systems. Limnology and Oceanography 36: 1078-1090. https://doi.org/10.4319/lo.1991.36.6.1078
  6. Barata, C., J.C. Navarro, I. Varo, M.C. Riva, S. Arun and C. Porte. 2005. Changes in antioxidant enzyme activities, fatty acid composition and lipid peroxidation in Daphnia magna during the aging process. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 140: 81-90. https://doi.org/10.1016/j.cbpc.2004.09.025
  7. Bass, J.A.B., L.C.V. Pinder and D.V. Leach. 1997. Temporal and spatial variation in zooplankton populations in the River Great Ouse: an ephemeral food resource for larval and juvenile fish. River Research and Applications 13: 245-258.
  8. Becker, C. and M. Boersma. 2005. Differential effects of phosphorus and fatty acids on Daphnia magna growth and reproduction. Limnology and Oceanography 50: 388-397. https://doi.org/10.4319/lo.2005.50.1.0388
  9. Beklioglu, M., M. Telli and A.G. Gozen. 2006. Fish and mucus-dwelling bacteria interact to produce a kairomone that induces diel vertical migration. Freshwater Biology 51: 2200-2206. https://doi.org/10.1111/j.1365-2427.2006.01642.x
  10. Blancher II, E.C. 1984. Zooplankton-trophic state relationships in some north and central Florida lakes. Hydrobiologia 109: 251-263. https://doi.org/10.1007/BF00007743
  11. Boriss, H., M. Boersma and K.H. Wiltshire. 1999. Trimethylamine induces migration of waterfleas. Nature 398: 382.
  12. Boxshall, G.A. and D. Defaye. 2008. Global diversity of copepods (Crustacea: Copepoda) in freshwater. Hydrobiologia 595: 195-207. https://doi.org/10.1007/s10750-007-9014-4
  13. Brett, M.T., D.C. Muller-Navarra and J. Persson. 2009. Crustacean zooplankton fatty acid composition. Springer New York.
  14. Burks, R.L., E. Jeppesen and D.M. Lodge. 2001. Littoral zone structures as refugia for Daphnia against fish predation. Limnology and Oceanography 46: 230-237. https://doi.org/10.4319/lo.2001.46.2.0230
  15. Burks, R.L., D.M. Lodge, E. Jeppesen and T.L. Laudridsen. 2002. Diel horizontal migration of zooplankton: costs and benefits of inhabiting the littoral. Freshwater Biology 47: 343-365. https://doi.org/10.1046/j.1365-2427.2002.00824.x
  16. Burns, C.W. 1968. The relationship between body size of filter-feeding cladocera and the maximum size of particle ingested. Limnology and Oceanography 13: 675-678. https://doi.org/10.4319/lo.1968.13.4.0675
  17. Carpenter, S.R. and J.F. Kitchell. 1993. The trophic cascade in lakes. Cambridge University Press, New York.
  18. Carpenter, S.R., J.F. Kitchell and J.R. Hodgson. 1985. Cascading trophic interactions and lake productivity. Bioscience 35: 634-639. https://doi.org/10.2307/1309989
  19. Carrick, H.J., G.L. Fahnenstiel, E.F. Stoermer and R.G. Wetzel. 1991. The importance of zooplankton-protozoan trophic couplings in Lake Michigan. Limnology and Oceanography 36: 1335-1345. https://doi.org/10.4319/lo.1991.36.7.1335
  20. Chang, C.Y. 2009. Illustrated encyclopedia of fauna and flora of Korea, Vol. 42. Inland-water copepoda. Ministry of Education, Science and Engineering 1-687.
  21. Chang, C.Y. 2012. Invertebrate fauna of Korea, Vol. 21, No. 19. Continental cyclopoids-I. National Institute of Biological Resources (NIBR). Ministry of Environment 1-92.
  22. Chang, C.Y. 2013. Invertebrate fauna of Korea, Vol. 21, No. 26. Continental cyclopoids-II. National Institute of Biological Resources (NIBR). Ministry of Environment 1-110.
  23. Chang, C.Y. 2014. Invertebrate fauna of Korea, Vol. 21, No. 35. Continental calanoids. National Institute of Biological Resources (NIBR). Ministry of Environment 1-68.
  24. Chang, C.Y. and H.S. Kim. 1986. The freshwater Calanoida (Crustacea: Copepoda) of Korea. Animal Systematics, Evolution and Diversity 2: 49-62.
  25. Chang, C.Y. and G.S. Min, 2005. Key to the Korean freshwater cyclopoid copepods and their DNA taxonomy. Junghaeng-Sa Publish 1-153.
  26. Chang, C.Y. and H.J. Yoon. 2008. Nitokra copepods (Harpacticoida: Ameiridae) from Korea. Korean Journal of Systematic Zoology 24:115-127.
  27. Chang, K.H., D.I. Seo, S.M. GO, M. Sakamoto, G.S. Nam, J.Y. Choi, M.S. Kim, K.S. Jeong, G.H. La and H.W. Kim. 2016. Feeding behavior of crustaceans (Cladocera, Copepoda and Ostracoda): food selection measured by stable isotope analysis using R package SIAR in mesocosm experiment. Korean Journal of Ecology and Environment 49: 279-288. https://doi.org/10.11614/KSL.2016.49.4.279
  28. Chang, K.H., H. Doi, Y. Nishibe and S. Nakano. 2010. Feeding habits of omnivorous Asplanchna: comparison of diet composition among Asplanchna herricki, A. priodonta and A. girodi in pond ecosystems. Journal of Limnology 69: 209-216. https://doi.org/10.4081/jlimnol.2010.209
  29. Cho, K.S. 1965. A study on limnological condition and plankton of lake Paro. Teachers College Journal 2: 45-57.
  30. Cho, K.S. 1979. Limnological studies of Soyang multipled-purpose reservoir. (4) On the plankton succession of the first seven years after impounding. Research Bulletin of Kangwon National University 13: 185-191.
  31. Cho, K.S. 1986. Cladocera of a high moor in the Daeam Mountain. Korean Journal of Ecology and Environment 19: 57-61.
  32. Cho, K.S. and T. Mizuno. 1977. Comparison of limnological conditions and plankton communities in the Uiam Lake consisting of the two different river systems. Korean Journal of Ecology and Environment 10: 73-85.
  33. Choi, J.Y., G.H. La, K.S. Jeong, S.K. Kim, K.H. Chang and G.J. Joo. 2012. Classification by zooplankton inhabit character and freshwater microbial food web: importance of epiphytic zooplankton as energy source for high-level predator. Korean Journal of Ecology and Environment 45: 444-452.
  34. Choi, J.Y., S.K. Kim, S.W. Hong, K.S. Jeong, G.H. La and G.J. Joo. 2013a. Zooplankton community distribution and food web structure in small reservoirs: influence of land uses around reservoirs and littoral aquatic plant on zooplankton. Korean Journal of Ecology and Environment 46: 332-342.
  35. Choi, J.Y., G.H. La, S.K. Kim, K.S. Jeong and G.J. Joo. 2013b. Zooplankton community distribution in aquatic plants zone: influence of epiphytic rotifers and cladocerans in accordance with aquatic plants cover and types. Korean Journal of Ecology and Environment 46: 86-93. https://doi.org/10.11614/KSL.2013.46.1.086
  36. Choi, J.Y., K.S. Jeong, G.H. La, S.K. Kim and G.J. Joo. 2014a. Sustainment of epiphytic microinvertebrate assemblage in relation with different aquatic plant microhabitats in freshwater wetlands (South Korea). Journal of Limnology 73: 11-16.
  37. Choi, J.Y., S.-K. Kim, K.-H. Chang, M.-C. Kim, G.-H. La, G.-J. Joo and K.-S. Jeong. 2014b. Population growth of the cladoceran, Daphnia magna: a quantitative analysis of the effects of different algal food. PLOS ONE 9: 1-8.
  38. Choi, J.Y., K.S. Jeong and G.J. Joo. 2015. Rainfall as dominant driver of rotifer dynamics in shallow wetlands: Evidence from a long-term data record (Upo Wetlands, South Korea). International Review of Hydrobiology 100: 21-33. https://doi.org/10.1002/iroh.201401745
  39. Choi, J.Y., S.K. Kim, D.H. Kim and G.J. Joo. 2016a. Role of aquatic macrophytes as refuge of zooplankton on physical distribution (Summer Rainfall) in shallow wetlands. Ecology and Environment 49: 308-320.
  40. Choi, J.Y., S.-K. Kim, G.-H. La, K.-H. Chang, D.-K. Kim, K.-Y. Jeong, M.S. Park, G.-J. Joo, H.-W. Kim and K.-S. Jeong. 2016b. Effects of algal food quality on sexual reproduction of Daphnia magna. Ecology and Evolution 6: 2817-2832. https://doi.org/10.1002/ece3.2058
  41. Christofferson, K., B. Riemann, A. Klysner and M. Sondergaard. 1993. Potential role of fish predation and natural populations of zooplankton in structuring a plankton community in eutrophic lake water. Limnology and Oceanography 38: 561-573. https://doi.org/10.4319/lo.1993.38.3.0561
  42. Chung, C.E., H.B. Yoo and S.Y. Kim. 1990. A new record of the 3 species on freshwater Rotifera in Korea. Korean Journal of Ecology and Environment 23(4): 279-285.
  43. Chung, C.E., H.B. Yoo and S.Y. Kim. 1991. Rotifera from korean inland waters II. Colurellidae (Rotifera: Monogononta). Animal Systematics, Evolution and Diversity 7: 241-256.
  44. Chung, C.E., H.B. Yoo and S.Y. Kim. 1992a. Rotifera from Korean inland waters IV. Branchionus and Platyas of Brachionide (Rotifera; Monogononta). Animal Systematics, Evolution and Diversity 8: 35-56.
  45. Chung, C.E., H.B. Yoo and S.Y. Kim. 1992b. Rotifera from korean inland waters V. Keratella and Notholca of Branchionidae (Rotifera: Monogononta). Animal Systematics, Evolution and Diversity 8: 211-222.
  46. Chung, C.E., H.B. Yoo and S.Y. Kim. 1992c. Freshwater Rotifera of Korea IIL Farnily Notommatidae (Rotifera: Monogononta). Korean Journal of Ecology and Environment 25: 1-8.
  47. Chung, C.U., H.B. Yoo and S.Y. Kim. 1992. Ecological study on the Copepoda in Lake Naju. Korean Journal of Ecology and Environment 25: 73-87.
  48. Colbourne, J.K., M.E. Pfrender, D. Gilbert, W.K. Thomas, A. Tucker, T.H. Oakley, S. Tokishita, A. Aerts, G.J. Arnold, M.K. Basu, D.J. Bauer, C.E. Cáceres, L. Carmel, C. Casola, J.H. Choi, J.C. Detter, Q. Dong, S. Dusheyko, B.D. Eads, T. Fröhlich, K.A. Geiler-Samerotte, D. Gerlach, P. Hatcher, S. Jogdeo, J. Krijgsveld, E.V. Kriventseva, D. Kultz, C. Laforsch, E. Lindquist, J. Lopez, J.R. Manak, J. Muller, J. Pangilinan, R.P. Patwardhan, S. Pitluck, E.J. Pritham, A. Rechtsteiner, M. Rho, I.B. Rogozin, O. Sakarya, A. Salamov, S. Schaack, H. Shapiro, Y. Shiga, C. Skalitzky, Z. Smith, A. Souvorov, W. Sung, Z. Tang, D. Tsuchiya, H. Tu, H. Vos, M. Wang, Y.I. Wolf, H. Yamagata, T. Yamada, Y. Ye, J.R. Shaw, J. Andrews, T.J. Crease, H. Tang, S.M. Lucas, H.M. Robertson, P. Bork, E.V. Koonin, E.M. Zdobnov, I.V. Grigoriev, M. Lynch and J.L. Boore. 2011. The Ecoresponsive Genome of Daphnia pulex. Science 331: 555-561. https://doi.org/10.1126/science.1197761
  49. DeMott, W.R., R.D. Gulati and E. Van Donk. 2001. Daphnia food limitation in three hypereutrophic Dutch lakes: Evidence for exclusion of large-bodied species by interfering filaments of cyanobacteria. Limnology and Oceanography 46: 2054-2060. https://doi.org/10.4319/lo.2001.46.8.2054
  50. Eui, C., H. Bin and S. Yee. 1992. Rotifera from korean inland waters IV. Brachionus and Platyas of Brachionidae (Rotifera: Monogononta). Animal Systematics, Evolution and Diversity 8: 35-55.
  51. Fitzsimmons, J.M. and D.J. Innes. 2006. Inter-genotype variation in reproductive response to crowding among Daphnia pulex. Hydrobiologia 568: 187-205. https://doi.org/10.1007/s10750-006-0104-5
  52. Forro, L., N.M. Korovchinsky, A.A. Kotov and A. Petrusek. 2008. Global diversity of cladocerans (Cladocera; Crustacea) in freshwater. Hydrobiologia 595: 177-184. https://doi.org/10.1007/s10750-007-9013-5
  53. Gannon, J.E. and R.S. Stemberger. 1978. Zooplankton (especially crustaceans and rotifers) as indicator of water quality. Transactions of the American Microscopic Society 97: 16-35. https://doi.org/10.2307/3225681
  54. Gilbert, D.G., J.H. Choi, K. Mockaitis, J. Colbourne and M. Pfrender. 2016. Daphnia magna strain Xinb3, whole genome shotgun sequencing project (NCBI accession No. LRGB00000000).
  55. Gilbert, J.J. 2001. Spine development in Brachionus quadridentatus from an Australian billabong: genetic variation and induction by Asplanchna. Hydrobiologia 446/447: 19-28. https://doi.org/10.1023/A:1017560703180
  56. Gliwicz, Z.M. and C. Guisande. 1992. Family planning in Daphnia: resistance to starvation in offspring born to mothers grown at different food levels. Oecologia 91: 463-467. https://doi.org/10.1007/BF00650317
  57. Groendahl, S., M. Kahlert and P. Fink. 2017. The best of worlds: a combined approach for analyzing microalgal diversity via metabarcoding and morphology-based methods. PLoS ONE 12: e0172808. https://doi.org/10.1371/journal.pone.0172808
  58. Hairston, N.G. Jr. and C.M. Kearns. 2002. Temporal dispersal, ecological and evolutionary aspects of zooplankton egg banks and the role of sediment mixing. Integrative and Comparative Biology 42: 481-491. https://doi.org/10.1093/icb/42.3.481
  59. Harrel, S.L. and E.D. Dibble. 2001. Foraging efficiency of juvenile bluegill, Lepomis macrochirus, among different vegetated habitats. Environtal Biology of Fishes 62: 441-453. https://doi.org/10.1023/A:1012259922727
  60. Hazelwood, D.H. 1962. Temperature and photoperiod effects on cyclomorphosis in Daphnia. Limnology and Oceanography 7: 230-232. https://doi.org/10.4319/lo.1962.7.2.0230
  61. Hong, S., K.S. Cho and K.H. Ra. 1969. Studies on the chemical conditions and plankton in the Hwajin-po lake. Korean Journal of Ecology and Environment 2: 35-42.
  62. Horppila, J., P. Eloranta, A. Liljendahl-Nurminen, J. Niemisto and Z. Pekcan-Hekim. 2009. Refuge availability and sequence of predators determine the seasonal succession of crustacean zooplankton in a clay-turbid lake. Aquatic Ecology 43: 91-103. https://doi.org/10.1007/s10452-007-9158-3
  63. Hynes, H.B.N. 1970. The Ecology of Running Waters. University of Toronto Press: Toronto, Ontario; 555.
  64. Jan van Eck, N. and L. Waltman. 2010. Software survey: VOSviewer, a computer program for bibliometric mapping. Scientometrics 84(2): 523-538. https://doi.org/10.1007/s11192-009-0146-3
  65. Jeong, H.G., A.A. Kotov and W. Lee. 2012. A new species of the genus Ilyocryptus Sars, 1862 (Cladocera: Anomopoda: Ilyocryptidae) from the East Asian Palaearctic. Zootaxa 3475: 36-44.
  66. Jeong, H.G., A.A. Kotov and W. Lee. 2013. A new species of the genus Pleuroxus Baird (Cladocera: Anomopoda: Chydoridae) from Jeju Island, South Korea. Zootaxa 3666: 31-40. https://doi.org/10.11646/zootaxa.3666.1.3
  67. Jeong, H.G., A.A. Kotov and W. Lee. 2014. Checklist of the freshwater Cladocera (Crustacea: Branchiopoda) of South Korea. Proceedings of the Biological Society of Washington 127: 216-222. https://doi.org/10.2988/0006-324X-127.1.216
  68. Jeong, H.G., A.A. Kotov and W. Lee. 2015. Diversity of freshwater Cladoceran species (Crustacea: Branchiopoda) in South Korea. Journal of Ecology and Environment 38: 361-366. https://doi.org/10.5141/ecoenv.2015.037
  69. Jeppesen, E., J.P. Jensen, M. Sondergaard and T. Lauridsen. 1999. Trophic dynamics in turbid and clearwater lakes with special emphasis on the role of zooplankton for water clarity. Hydrobiologia 408/409: 217-231. https://doi.org/10.1023/A:1017071600486
  70. Jeppesen, E., J.P. Jensen, M. Sondergaard, T. Lauridsen, L.J. Pedersen and L. Jensen. 1997. Top-down control in freshwater lakes: the role of nutrient state, submerged macrophytes and water depth. Hydrobiologia 342/343: 151-164. https://doi.org/10.1023/A:1017046130329
  71. Jeppesen, E., P. Noges, T.A. Davidson, J. Haberman, T. Noges, K. Blank, T.L. Lauridsen, M. Sondergarrd, C. Sayer, R. Laugaste, L.S. Johansson, R. Bjerring and S.L. Amsinck. 2011. Zooplankton as indicators in lakes: a scientific-based plea for including zooplankton in the ecological quality assessment of lakes according to the European Water Framework Directive (WFD). Hydrobiologia 676: 279-297. https://doi.org/10.1007/s10750-011-0831-0
  72. Jeppesen, E., T.L. Lauridsen, T. Kairesalo and M.R. Perrow. 1998. Impact of submerged macrophytes on fish-zooplankton interactions in lakes. pp. 91-114. In: The Structuring Role of Submerged Macrophytes in Lakes (Jeppesen, E., M. Sondergaard, M. Sondergaard and K. Christoffersen eds.). Springer Verlag, New York.
  73. Johnsen, G.J. and P.J. Jakobsen. 1987. The effect of food limitation on vertical migration in Daphnia longispina. Limnology and Oceanography 32: 873-880. https://doi.org/10.4319/lo.1987.32.4.0873
  74. Joo, G.J. and A.K. Ward. 1991. Patterns of phytoplankton productivity in two morphologically different oxbow lakes in the Black Warrior River drainage in Alabama, USA. Report of the Suwa Hydrobiological Station Shinshu University 7: 81-90.
  75. Joo, G.J. and D.A. Francko. 1995. Limnological characterization of the tristate oxbow wetland (Ohio, Indiana). Ohio Journal of Science 95: 316-320.
  76. Joo, G.J., H.W. Kim, K. Ha and J.K. Kim. 1997. Long - Term Trend of the Eutrophication of the Lower Nakdong River. Korean of Ecology and Environment 30: 472-480.
  77. Kang, S.W. 1969. The zooplankters of Uiam Lake. Korean Journal of Ecology and Environment 2: 39-44.
  78. Kerfoot, W.C. 1978. Combat between predatory copepods and their prey: Cyclops, Epischura, and Bosmina. Limnology and Oceanography 23: 1089-1102. https://doi.org/10.4319/lo.1978.23.6.1089
  79. Kim, B.C., J.H. Park, W.M. Heo, B.J. Lim, G.S. Hwang, K.S. Choi and J.S. Choi. 2001. The limnological survey of major lakes in Korea (4): Lake Juam. Korean Journal of Ecology and Environment 34: 30-44.
  80. Kim, H.S. and C.Y. Chang. 1989. Freshwater cyclopoid copepods (Cyclopoida, Cyclopoida) of Korea. The Korean Journal of Systematic Zoology 5: 225-256.
  81. Kim, H.S. and C.Y. Chang. 1991. Acanthocyclops tokchokensis, a new cyclopoid copepod species from wells in Tokchok Island of Korea (Copepoda, Cyclopoida, Cyclopidae). The Korean Journal of Zoology 34: 300-306.
  82. Kim, H.S., D.S. Kong and S.J. Hwang. 2005. Characteristic community dynamics of phyto- and zooplankton in a shallow eutrophic reservoir. Korean Journal of Ecology and Environment 38: 18-29.
  83. Kim, H.W. and G.J. Joo. 2000. Differences of zooplankton development along a lake and a river stretch of the river Spree (Germany). Korean Journal of Ecology and Environment 33: 197-205.
  84. Kim, H.W. and H.Y. Lee. 2007. The differences of zooplankton dynamics in river ecosystems with and without estuary dam in river mouth. Korean Journal of Ecology and Environment 40: 273-284.
  85. Kim, H.W., J.Y. Choi, G.H. La, K.S. Jeong and G.J. Joo. 2010. Relationship between rainfall and zooplankton community dynamics in a riverine wetland ecosystem (Upo). Korean Journal of Ecology and Environment 43: 129-135.
  86. Kim, I.H. 1988. Key to the Korean freshwater Cladocera. The Korean Journal of Systematic Zoology 2: 43-65
  87. Kim, M.S., Y.J. Lee, B.H. Kim, S.J. Hwang, K.G. An, S.K. Park, H.Y. Ume and K.H. Shin. 2011. Control of cyanobacteria (Microcystis aeruginosa) blooms by floating aquatic plant (Iris pseudoacorus): an in situ mesocosm experiment using stable ($^{13}C$,$^{15}N$) isotopetracers. Korean Journal of Ecology and Environment 44: 280-291.
  88. Kim, S.H., K.I. Yoo and H.W. Nam. 1996. Studies on the ecology of a freshwater cladoceran Moina irrasa. Korean Journal of Ecology and Environment 29: 89-96.
  89. Kim, S.Y., C.E. Chung and H.B. Yoo. 1993. Rotifera from Korean inland waters VI. Anuraeopsis, Mytilina, Trichotria, Lophocaris, Dipleuchlanis of Brachionidae (Rotifera: Monogononta) The Korean Journal of Ecology and Environment 26: 293-303.
  90. Kim, W., S.Y. Moon and M.O. Song. 1991. The systematic study on the freshwater rotifer of Korea. The Korean Journal of Zoology 34: 548-556
  91. Koch, U., E. von Elert and D. Straile. 2009. Food quality triggers the reproductive mode in the cyclical parthenogen Daphnia (Cladocera). Oecologia 159: 317-324. https://doi.org/10.1007/s00442-008-1216-6
  92. Kofoid, C.A. 1903. The plankton of the Illinois River, 1894-1896, with introductory notes upon the hydrography of the Illinois River and its basin.
  93. Kong, D.S. 1997. Limnological and ecological characteristics of a river-reservoir (Paldang), Korea. Korean Journal of Ecology and Environment 30: 524-535.
  94. Kotov, A.A., H.G. Jeong and W. Lee. 2012. Cladocera (Crustacea: Branchiopoda) of the south-east of the Korean Peninsula, with twenty new records for Korea. Zootaxa 3368: 50-90.
  95. Kuczynska-Kippen, N. and B. Nagengast. 2006. The influence of the spatial structure of hydromacrophytes and differentiating habitat on the structure of rotifer and cladoceran communities. Hydrobiologia 559: 203-212. https://doi.org/10.1007/s10750-005-0867-0
  96. La, G.-H., J.-Y. Choi, K.-H. Chang, M.-H. Jang, G.-J. Joo and H.-W. Kim. 2014. Mating behavior of Daphnia: impacts of predation risk, food quantity, and reproductive phase of females. PLOS ONE 9:e104545. https://doi.org/10.1371/journal.pone.0104545
  97. Laforsch, C. and R. Tollrian. 2004a. Extreme helmet formation in Daphnia cucullata induced by small-scale turbulence. Journal of Plankton Research 26: 81-87. https://doi.org/10.1093/plankt/fbg114
  98. Laforsch, C. and R. Tollrian. 2004b. Inducible defenses in multipredator environments: cyclomorphosis in Daphnia cucullata. Ecology 85: 2302-2311. https://doi.org/10.1890/03-0286
  99. Lair, N. 2006. A review of regulation mechanisms of metazoan plankton in riverine ecosystems: aquatic habitat versus biota. River Research and Applications 22: 567-593. https://doi.org/10.1002/rra.923
  100. Lampert, W. 1993. Phenotypic plasticity of the size at first reproduction in Daphnia: the importance of maternal size. Ecology 74: 1455-1466. https://doi.org/10.2307/1940074
  101. Larsson, P. 1991. Intraspecific varialbility in response to stimuli for male and ephippia formation in Daphnia pulex. Hydrobiologia 225: 281-291. https://doi.org/10.1007/BF00028406
  102. Lass, S. and P. Spaak. 2003. Chemically induced anti-predator defences in plankton: a review. Hydrobiologia 491: 221-239. https://doi.org/10.1023/A:1024487804497
  103. Lee, E.J., A.N. Cho, O.B. Kwon and T.S. Ahn. 2009. The effect of artificial floating island to zooplankton and phytoplankton in Shingu Reservoir, Korea. Korean Journal of Ecology and Environment 42: 19-25.
  104. Lee, J.M. and C.Y. Chang. 2007. Two new species of Tropocyclops prasinus group (Copepoda: Cyclopidae) from South Korea. Integrative Biosciences 11:255-263. https://doi.org/10.1080/17386357.2007.9647342
  105. Lee, J.M., H.J. Yoon and C.Y. Chang, 2007. A faunistic study on the brackish-water calanoid copepods from South Korea The Korean Journal of Systematic Zoology 23: 135-154. https://doi.org/10.5635/KJSZ.2007.23.2.135
  106. Lee, J.Y., J.K. Kim, Y.K. Jung and B.C. Kim. 2010. Isotophic differences among zooplankton taxa and seasonal variation of zooplankton community coexisting with Microcystis. Korean Journal of Ecology and Environment 43: 1-10.
  107. Lee, J.Y., S.M. Jung, G. Jang and B.C. Kim. 2014. Spatial and temporal distribution characteristics of zooplankton appeared on early construction of pumped storage power plant dam. Korean Journal of Ecology and Environment 47: 57-65.
  108. Lee, S.J., J.H. Lee, J.I. Kim, G.H. La, M.A. Yeom, W.G. Shin, H.W. Kim, M.H. Jang and K.G. Ahn. 2009. Initial preliminary studies in National Long-Term Ecological Research (LTER) stations of Daechung Reservoir. Korean Journal of Ecology and Environment 42: 476-486.
  109. Loose, C.J. 1993. Lack of endogenous rhythmicity in Daphnia diel vertical migration. Limnology and Oceanography 38: 1837-1841. https://doi.org/10.4319/lo.1993.38.8.1837
  110. Machacek, J., I. Vanickova, J. Seda, M. Cordellier and K. Schwenk. 2013. Sexual reproduction of Daphnia in a deep temperate reservoir: the phenology and genetics of male formation. Hydrobiologia 715: 113-123. https://doi.org/10.1007/s10750-012-1419-z
  111. Manatunge, J., T. Asaeda and T. Priyadarshana. 2000. The influence of structural complexity on fish-zooplankton interactions: A study using artificial submerged macrophytes. Environmental biology of Fishes 58: 425-438. https://doi.org/10.1023/A:1007691425268
  112. McCauley, E., W.W. Murdoch, R.M. Nisbet and W.S.C. Gurney. 1990. The physiological ecology of Daphnia: development of a model of growth and reproduction. Ecology 71: 703-715. https://doi.org/10.2307/1940324
  113. McNaught, D.C. 1975. A hypothesis to explain succession from calanoids to cladocerans during eutrophication. Verhandlungen der Internationalen Vereinigung fur Theoretische und Angewandte Limnologie 19: 724-731.
  114. Melone, G. 1998. The rotifer corona by SEM. Hydrobiologia 387/388: 131-134.
  115. Michels, J. and S.B. Schnack-Schiel. 2005. Feeding in dominant Antarctic copepods - does the morphology of the mandibular gnathbases relate to diet? Marine Biology 146: 483-495. https://doi.org/10.1007/s00227-004-1452-1
  116. Moon, E.Y., Y.O. Kim, B.H. Kim, D.S. Kong and M.S. Han. 2004. Taxonomic and ecologic studies on ciliate plankton in Pal’tang Reservoir. Korean Journal of Ecology and Environment 37: 149-179.
  117. Muller-Navarra, D.C., M.T. Brett, S. Park, S. Chandra, A.P. Ballantyne, E. Zorita and C.R. Goldman. 2004. Unsaturated fatty acid content in seston and tropho-dynamic coupling in lakes. Nature 427: 69-72. https://doi.org/10.1038/nature02210
  118. Nandini, S. and S.S.S. Sarma. 2000. Lifetable demography of four cladoceran species in relation to algal food (Chlorella vulgaris) density. Hydrobiologia 435: 117-126. https://doi.org/10.1023/A:1004021124098
  119. Ning, J., M. Wang, C. Li and S. Sun. 2013. Transcriptome sequencing and de novo analysis of the copepod Calanus sinicus using 454 GS FLX. PLOS ONE 8: e63741. https://doi.org/10.1371/journal.pone.0063741
  120. Noh, S.Y. and M.S. Han. 2008. Carbon dynamics of plankton communities in Paldang Reservoir. Korean Journal of Ecology and Environment 41: 174-187.
  121. Oganjan, K., T. Virro and V. Lauringson. 2013. Food spectrum of the omnivorous rotifer in two large northeastern European lakes of different trophy. Oceanological and Hydrobiological Studies 42: 314-323.
  122. Oh, H.J., H.G. Jeong, G.S. Nam, Y. Oda, W. Dai, E.H. Lee, D.S. Kong, S.J. Hwang and K.H. Chang. 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. Animal Cells and Systems 21: 133-140. https://doi.org/10.1080/19768354.2017.1292952
  123. Oh, I.H. 1998. Ecological studies on Daechung Reservoir. Korean Journal of Ecology and Environment 31: 79-87.
  124. Pace, M.L. 1984. Zooplankton community structure, but not biomass, influences the phosphorus-chlorophyll a relationship. Canadian Journal of Fisheries and Aquatic Sciences 41: 1089-1096. https://doi.org/10.1139/f84-128
  125. Pace, M.L. 1986. An empirical analysis of zooplankton community size structure across lake trophic gradient. Limnology and Oceanography 31: 45-55. https://doi.org/10.4319/lo.1986.31.1.0045
  126. Pace, M.L., S.E.G. Findlay and D. Lints. 1992. Zooplankton in advective environments: the Hudson River community and a comparative analysis. Canadian Journal of Fisheries and Aquatic Sciences 49: 1060-1069. https://doi.org/10.1139/f92-117
  127. Parejko, K. and S. Dodson. 1990. Progress towards characterization of a predator/prey kairomone: Daphnia pulex and Chaoborus americanus. Hydrobiologia 198: 51-59. https://doi.org/10.1007/BF00048622
  128. Park, C.H., M.H. Park, D.H. Choi, H.J. Choi, J.H. Lee, M.H. Lee and S.J. Hwang. 2013. The effect of floating wetland on water quality improvement in a eutrophic lake. Korean Journal of Ecology and Environment 46: 116-127. https://doi.org/10.11614/KSL.2013.46.1.116
  129. Pejler, B. 1983. Zooplanktonic indicators of trophy and their food. Hydrobiologia 101: 111-114. https://doi.org/10.1007/BF00008662
  130. Perrow, M.R., A.J.D. Jowitt, J.H. Stansfield and G.L. Phillips. 1999. The practical importance of the interactions between fish, zooplankton and macrophytes in shallow lake restoration. Hydrobiologia 395/396: 199-210. https://doi.org/10.1023/A:1017005803941
  131. Pichlova, R. and Z. Brandl. 2003. Predatory impact of Leptodora kindtii on zooplankton community in the Slapy Reservoir. Hydrobiologia 504: 177-184. https://doi.org/10.1023/B:HYDR.0000008517.64246.fd
  132. Pijanowska, J. and A. Kowalczewski. 1997. Predator can induce swarming behaviour and locomotory responses in Daphnia. Freshwater Biology 37: 649-656. https://doi.org/10.1046/j.1365-2427.1997.00192.x
  133. Pinell-Alloul, B., J.A. Dowing, M. Perusse and G. Codin-Blumer. 1988. Spatial heterogeneity in freshwater zooplankton: variation with body size, depth, and scale. Ecology 69: 1393-1400. https://doi.org/10.2307/1941636
  134. Pohnert, G. and E. Von Elert. 2000. No ecological relevance of trimethylamine in fish - Daphnia interaction. Limnology and Oceanography 45: 1153-1156. https://doi.org/10.4319/lo.2000.45.5.1153
  135. Qin, J. and D.A. Culver. 1995. Effect of young-of-the-year walleye (Percidae: Stizostedion vitreum) on plankton dynamics and water quality in ponds. Hydrobiologia 297: 217-227. https://doi.org/10.1007/BF00019286
  136. Romare, P., E. Bergman and L.A. Hansson. 1999. The impact of larval and juvenile fish on zooplankton and algal dynamics. Limnology and Oceanography 44: 1655-1666. https://doi.org/10.4319/lo.1999.44.7.1655
  137. Rothhaupt, K.O. 1990. Differences in particle size-dependent feeding efficiencies of closely related rotifer species. Limnology and Oceanography 35: 16-23. https://doi.org/10.4319/lo.1990.35.1.0016
  138. Sakamoto, M., K.H. Chang and T. Hanazato. 2007. Plastic phenotypes of antennule shape in Bosmina longirostris controlled by physical stimuli from predators. Limnology and Oceanography 52: 2072-2078. https://doi.org/10.4319/lo.2007.52.5.2072
  139. Sakamoto, M., T. Nagata, J.Y. Ha, S. Kimijima, T. Hanazato and K.H. Chang. 2015. Inducible defenses as factor determining trophic pathways in a food web. Hydrobiologia 743: 15-25. https://doi.org/10.1007/s10750-014-1999-x
  140. Sato, T. 1939. Potamoplankton of the River Hang-gang in early winter. Japanese Journal of Limnology 10: 128-130 (in Japanese).
  141. Sato, T. 1941. Bio1ogica1 notes on the brackish water 1ake kodokoon the Japan Sea coast of Korea. Japanese Journal of Limnology 11: 85-88.
  142. Segers, H. 2007. A global checklist of the rotifers (Phylum Rotifera). Zootaxa 1564: 1-104.
  143. Segers, H. 2008. Global diversity of rotifers (Rotifera) in freshwater. Hydrobiologia 595: 49-59. https://doi.org/10.1007/s10750-007-9003-7
  144. Shiel, R.J. and G.G. Ganf. 1987. Inter- and intraspecific variations in limb morphology of some south-east Australian cladocerans: implications for particle capture. Hydrobiologia 145: 85-91. https://doi.org/10.1007/BF02530268
  145. Slusarczyc, M. 1999. Predator-induced diapause in Daphnia magna may require two chemical cues. Oecologia 119: 159-165. https://doi.org/10.1007/s004420050772
  146. Smolina, I., S. Kollias, E.F. Moller, P. Lindeque, A.Y. Sundaram, J.M. Fernandes and G. Hoarau. 2015. Contrasting transcriptome response to thermal stress in two key zooplankton species, Calanus finmarchicus and C. glacialis. Marine Ecology Progress Series 534: 79-93. https://doi.org/10.3354/meps11398
  147. Song, M.O. 1989. List of Korean species of freshwater Rotifera. The Korean Journal of Systematic Zoology 5: 257-268.
  148. Song, M.O. 2014. Eight new records of monogonont and bdelloid rotifers from Korea. Journal of Species Research 3: 53-62. https://doi.org/10.12651/JSR.2014.3.1.053
  149. Song, M.O. 2015. New Records of One Monogonont and 5 bdelloid Rotifers from Korea. Korean Journal of Environment and Biology 33: 140-147. https://doi.org/10.11626/KJEB.2015.33.2.140
  150. Song, M.O. and G.S. Min. 2015. A new species and ten new records of bdelloid rotifers from Korea. Zootaxa 3964: 211-227. https://doi.org/10.11646/zootaxa.3964.2.3
  151. Song, M.O. and H.S. Kim. 1989. Monogonont Rotifers (Monogononta; Rotifera) Inhabiting several Lowland swamps in Kyngsangnam-do, Korea. Animal Systematics, Evolution and Diversity 5: 139-157.
  152. Song, M.O. and W. Kim. 1992. Three Brackish water rotifers from Korea. Animal Systematics, Evolution and Diversity 8: 325-330.
  153. Song, M.O. and W. Kim. 1996a. Taxonomic study on the digonont Rotifers of Korea. Animal Systematics, Evolution and Diversity 12: 53-59.
  154. Song, M.O. and W. Kim. 1996b. Taxonomic study on the digonont Rotifers of Korea: six new records of philodinid rotifers. Animal Systematics, Evolution and Diversity 12: 349-358.
  155. Song, M.O. and W. Kim. 2000. Bdelloid rotifers from Korea. Hydrobiologia 439: 91-101. https://doi.org/10.1023/A:1004181414535
  156. Soo, H. and C. Young. 1989. Freshwater cyclopoid copepods (Cyclopoida, Cyclopidae) of Korea. Animal Systematics, Evolution and Diversity 5: 225-256.
  157. Sornes, T.A. and D.L. Aksnes. 2004. Predation efficiency in visual and tactile zooplanktivores. Limnology and Oceanography 49: 69-75. https://doi.org/10.4319/lo.2004.49.1.0069
  158. Sousa, W., J. Attayde, E. Rocha and E. Eskwazi-Santanna. 2008. The response of zooplankton assemblages to variations in the water quality of four man-made lakes in semi-arid northeastern Brazil. Journal of Plankton Research 30: 699-708. https://doi.org/10.1093/plankt/fbn032
  159. Spaak, P., A. Denk, M. Boersma and L.J. Weider. 2004. Spatial and temporal patterns of sexual reproduction in a hybrid Daphnia species complex. Journal of Plankton Research 26: 625-635. https://doi.org/10.1093/plankt/fbh064
  160. Spaak, P. and M. Boersma. 1997. Tail spine length in the Daphnia galeata complex: cost and benefits of induction by fish. Aquatic Ecology 31: 89-98. https://doi.org/10.1023/A:1009935100804
  161. Stansfield, J.H., M.R. Perrow, L.D. Tench, A.J. Jowitt and A.A. Taylor. 1997. Submerged macrophytes as refuges for grazing Cladocera against fish [-3pt] predation: observations on seasonal changes in relation to macrophyte cover and predation pressure. Hydrobiologia 342: 229-240.
  162. Stemberger, R.S. 1988. Reproductive cost and hydrodynamic benefits of chemically induced defenses in Keratella testudo. Limnology and Oceanography 33: 593-606. https://doi.org/10.4319/lo.1988.33.4.0593
  163. Stemberger, R.S. and J.J. Gilbert. 1985. Assessment of threshold food levels and population growth in planktonic rotifers. Archiv fur Hydrobiologie-Beiheft Ergebnisse der Limnologie 21:269-275.
  164. Sterner, R.W. and D.O. Hessen. 1994. Algal nutrient limitation and the nutrition of aquatic herbivores. Annual Review of Ecology and Systematics 25: 1-29. https://doi.org/10.1146/annurev.es.25.110194.000245
  165. Talling, J. 2003. Phytoplankton-zooplankton seasonal timing and the'clear-water phase'in some English lakes. Freshwater Biology 48: 39-52. https://doi.org/10.1046/j.1365-2427.2003.00968.x
  166. Thorp, J.H., A.R. Black, K.H. Haag and J.D. Wehr. 1994. Zooplankton assemblages in the Ohio River: seasonal, tributary, and navigation dam effects. Canadian Journal of Fisheries and Aquatic Sciences 51: 1634-1643. https://doi.org/10.1139/f94-164
  167. Tollrian, R. and C.D. Harvell. 1999. The ecology and evolution of inducible defenses. Princeton University Press, New Jersey.
  168. Tollrian, R. and E. Von Elert. 1994. Enrichment and purification of Chaoborus kairomone from water: further steps towards its chemical characteristics. Limnology and Oceanography 39: 788-796. https://doi.org/10.4319/lo.1994.39.4.0788
  169. Toth, L.G. and N.P. Zankai. 1985. Feeding of Cyclops vicinus (Uljanin) (Copepoda; Cyclopoida) in Lake Balaton on the basis of gut content. Hydrobiologia 122: 251-260. https://doi.org/10.1007/BF00018286
  170. Tranvik, L.J. 1992. Allochthonous dissolved organic matter as an energy source for pelagic bacteria and the concept of the microbial loop. Hydrobiologia 229: 107-114. https://doi.org/10.1007/BF00006994
  171. Turner, P.N. 1986. Some rotifers from Repub1ic of Korea. Hydrobio1ogia 137: 3-7. https://doi.org/10.1007/BF00004166
  172. Ueno, M. 1941. Introductory account of the bio1ogica1 survey of in1and waters of northen Tyosen (Korea). Japanese Journal of Limnology 11: 96-107.
  173. Van Dijk, G.M. and B. Van Zanten. 1995. Seasonal changes in zooplankton abundance in the lower Rhine during 1987-1991. Hydrobiologia 304: 29-38. https://doi.org/10.1007/BF02530701
  174. Vannote, R.L., G.W. Minshall, K.W. Cummins, J.R. Sedell and C.E. Cushing. 1980. The river continuum concept. Canadian Journal of Fisheries and Aquatic Sciences 37: 130-137. https://doi.org/10.1139/f80-017
  175. Von Elert, E. and C.J. Loose. 1996. Predator induced diel vertical migration in Daphnia; enrichment and preliminary chemical characterization of a kairomone exuded by fish. Journal of Chemical Ecology 22: 885-895. https://doi.org/10.1007/BF02029942
  176. Watanabe, Y. 1980. A study of the excretion and extracellular products of natural phytoplankton in Lake Nakanuma, Japan. International Review of Hydrobiology 65: 809-834. https://doi.org/10.1002/iroh.19800650606
  177. Weider, L.J. and H.B. Stich. 1992. Spatial and temporal heterogeneity of Daphnia in Lake Constance; intra- and interspecific comparisons. Limnology and Oceanography 37: 1327-1334. https://doi.org/10.4319/lo.1992.37.6.1327
  178. Winsor, G.L. and D.J. Innes. 2002. Sexual reproduction in Daphnia pulex (Crustacea: Cladocera): observations on male mating behaviour and avoidance of inbreeding. Freshwater Biology 47: 441-450. https://doi.org/10.1046/j.1365-2427.2002.00817.x
  179. Yamamoto, K. 1941a. The plankton of lake Fusenko of Northen Chosen (Korea). Japanese Journal of Limnology 11: 108-111.
  180. Yamamoto, K. 1953. Studies on the rotatorian fauna of Korea. Pacific Science 7: 151-164.
  181. Yamamoto, T. 1941b. The plankton of Tenti and Santien of Mt Hakuto. Japanese Journal of Limnology. 13: 167-170.
  182. Yin, X.W. and C.J. Niu. 2008. Predatory rotifer Asplanchna brightwellii mediated competition outcome between Brachionus calyciflorus and Brachionus patulus (Rotifera). Hydrobiologia 610: 131-138. https://doi.org/10.1007/s10750-008-9428-7
  183. Yoo, H.B. 1990. Ecological studies on the freshwater zooplanktonic rotifers in Lake Damyang. Korean Journal of Ecology and Environment 23: 1-13.
  184. Yoo, K.I. and B.J. Lim. 1992. Seasonal succession in the abundance and community structure of zooplankton in Pal’tang Reservoir. Korean Journal of Ecology and Environment 25: 89-97.
  185. Yoon, S.M. 2010. Branchiopods: Arthropoda: Branchiopoda: Anostraca, Notostraca, Spinicaudata, Laevicaudata, Ctenopoda, Anomopoda, Haplopoda. Invertebrate fauna of Korea 21: 1-156.
  186. Yoon, S.M. and W. Kim. 1992. A taxonomic study of genus Moina (Branchiopoda, Cladocera, Moinidae) of Korea. Korean Journal of Systematic Zoology 8: 89-105.
  187. Yoon, S.M. and W. Kim. 1993. Redescription of two chydorid species of genus Leydigia Kurz, 1875 (Branchiopoda, Anomopoda, Chydoridae) from Korea. Korean Journal of Zoology 36: 380-390.
  188. Yoon, S.M. and W. Kim. 1995. Alona quadrangularis (O.F. Muller, 1785) (Branchiopoda, Anomopoda, Chydoridae) in Korea. Korean Journal of Systematic Zoology 11: 265-274.
  189. Yoon, S.M. and W. Kim. 1997. Description of Bosmina longirostris (O.F. Müller) (Branchiopoda, Anomopoda, Bosminidae) in Korea, with notes on its ecology. Korean Journal of Biological Sciences 1: 435-445.
  190. Yoon, S.M., S.H. Kim and W. Kim. 1996. Description of Daphnia obtusa Kurz (Branchiopoda, Anomopoda, Daphniidae) in Korea, with notes on distribution and ecology. Korean Journal of Systematic Zoology 12: 359-374.