Free Access
Ann. Limnol. - Int. J. Lim.
Volume 52
Page(s) 273 - 284
Published online 13 June 2016
  • Belkin I.M., 2009. Rapid warming of large marine ecosystems. Prog. Oceanogr., 81, 207–213. [CrossRef] [Google Scholar]
  • Chai C., Yu Z., Shen Z., Song X., Cao X. and Yao Y., 2009. Nutrient characteristics in the Yangtze River Estuary and the adjacent East China Sea before and after impoundment of the Three Gorges Dam. Sci. Total Environ., 407, 4687–4695. [CrossRef] [PubMed] [Google Scholar]
  • Chen Y.Q., Zhen G.X. and Zhu Q.Q., 1985. A preliminary study of the zooplankton in the Chanjiang Estuary area. Donghai Mar. Sci., 3, 53–61 (in Chinese). [Google Scholar]
  • Chen Y.Q., Xu Z.L., Wang Y.L., Hu F.X., Hu H. and Gu G.C., 1995. An ecological study on zooplankton in plume front zone of Changjiang (Yangtze) River estuarine area: I Biomass distribution of dominant species. J. Fishery Sci. China, 2, 49–58 (in Chinese). [Google Scholar]
  • Chen S., Chen B. and Su M., 2011. An estimation of ecological risk after dam construction in LRGR, China: changes on heavy metal pollution and plant distribution. Procedia Environ. Sci., 5, 153–159. [Google Scholar]
  • Chen Y., Liu R., Sun C., Zhang P., Feng C. and Shen Z., 2012. Spatial and temporal variations in nitrogen and phosphorous nutrients in the Yangtze River Estuary. Mar. Pollut. Bull., 64, 2083–2089. [Google Scholar]
  • Chen D., Dai Z., Xu R., Li D. and Mei X., 2015. Impacts of anthropogenic activities on the Changjiang (Yangtze) estuarine ecosystem (1998–2012). Acta Oceanol. Sin., 34, 86–93. [CrossRef] [Google Scholar]
  • Clarke K.R. and Warwick R.M., 2001. Changes in Marine Communities: An Approach to Statistical Analysis and Interpretation, Plymouth Marine Laboratory, Plymouth, 172 p. [Google Scholar]
  • Dai Z. and Liu J.T., 2013. Impacts of large dams on downstream fluvial sedimentation: an example of the Three Gorges Dam (TGD) on the Changjiang (Yangtze River). J. Hydrol., 480, 10–18. [CrossRef] [Google Scholar]
  • Dai Z., Du J., Zhang X., Su N. and Li J., 2011. Variation of riverine material loads and environmental consequences on the Changjiang (Yangtze) Estuary in recent decades (1955–2008). Environ. Sci. Technol., 45, 223–227. [CrossRef] [PubMed] [Google Scholar]
  • David V., Sautour B., Chardy P. and Leconte M., 2005. Long-term changes of the zooplankton variability in a turbid environment: the Gironde Estuary (France). Est. Coast. Shelf Sci., 64, 171–184. [CrossRef] [Google Scholar]
  • Dhivert E., Grosbois C., Coynel A., Lefèvre I. and Desmet M., 2015. Influences of major flood sediment inputs on sedimentary and geochemical signals archived in a reservoir core (Upper Loire Basin, France). Catena, 126, 75–85. [CrossRef] [Google Scholar]
  • Dong Z.J., Liu D.Y. and John K.K., 2010. Jellyfish blooms in China: dominant species, causes and consequences. Mar. Pollut. Bull., 60, 954–963. [CrossRef] [PubMed] [Google Scholar]
  • El Bastawesy M., Gabr S. and Mohamed I., 2014. Assessment of hydrological changes in the Nile River due to the construction of Renaissance Dam in Ethiopia. J. Remote Sens. Space Sci., Egypt, 18, 65–75. [Google Scholar]
  • Feng L., Hu C., Chen X. and Song Q., 2014. Influence of the Three Gorges Dam on total suspended matters in the Yangtze Estuary and its adjacent coastal waters: observations from MODIS. Remote Sens. Environ., 140, 779–788. [CrossRef] [Google Scholar]
  • Fernández-Urruzola I., Osma N., Packard T.T., Gómez M. and Postel L., 2014. Distribution of zooplankton biomass and potential metabolic activities across the northern Benguela upwelling system. J. Marine Syst., 140, 138–149. [CrossRef] [Google Scholar]
  • Friedl G. and Wuest A., 2002. Disrupting biogeochemical cycles-consequences of damming. Aquat. Sci., 64, 55–65. [Google Scholar]
  • Grasshoff K., Ehrhardt M. and Kremling K., 1983. Methods of Seawater Analysis (2nd edn), Weinheim, Verlag Chemie, US, 632p. [Google Scholar]
  • Guo P.Y., Shen H.T., Liu A.C., Wang J.H. and Yang Y.L., 2003. The species composition, community structure and diversity of zooplankton in Changjiang estuary. Acta Ecol. Sinica, 23, 892–900 (in Chinese). [Google Scholar]
  • Haghighi A.T., Marttila H. and Kløve B., 2014. Development of a new index to assess river regime impacts after dam construction. Global Planet. Change, 122, 186–196. [Google Scholar]
  • Hardman-Mountford N.J., 2000. Ecological Geography of the Sea, Alan Longhurst, Academic Press, San Diego and London, 542p. [Google Scholar]
  • Hays G., Richardson A. and Robinson C., 2005. Climate change and marine plankton. Trends Ecol. Evol., 20, 337–344. [CrossRef] [PubMed] [Google Scholar]
  • He Z.Z., Xue L.J. and Jin H.W., 2011. On feeding habits and trophic level of collichthys lucidus in inshore waters of northern East China Sea. Mar. Fish., 33, 265–273 (in Chinese). [Google Scholar]
  • Honggang Z., Baoshan C., Zhiming Z. and Xiaoyun F., 2012. Species diversity and distribution for zooplankton in the inter-tidal wetlands of the Pearl River estuary, China. Procedia Environ. Sci., 13, 2383–2393. [CrossRef] [Google Scholar]
  • Hughes I.I., 2000. Biological consequences of global warming: is the signal already apparent? Trends Ecol. Evol., 15, 56–61. [Google Scholar]
  • Humborg C., Ittekkot V., Cociasu A. and Bodungen B.V., 1997. Effect of Danube River dam on Black Sea biogeochemistry and ecosystem structure. Nature, 386, 385–388. [CrossRef] [Google Scholar]
  • Ikauniece A., 2001. Long-term abundance dynamics of coastal zooplankton in the Gulf of Riga. Environ. Int., 26, 175–181. [CrossRef] [PubMed] [Google Scholar]
  • Ji H.H. and Ye S.F., 2006. Ecological distribution characteristics of zooplankton and its relationship with environmental factors in the Changjiang River Estuary. Mar. Sci., 30, 23–30 (in Chinese). [Google Scholar]
  • Jiang Z.B., Liu J., Chen J., Chen Q., Yan X., Xuan J. and Zeng J., 2014. Responses of summer phytoplankton community to drastic environmental changes in the Changjiang (Yangtze River) Estuary during the past 50 years. Water Res., 54, 1–11. [CrossRef] [Google Scholar]
  • Kummu M. and Varis O., 2007. Sediment-related impacts due to upstream reservoir trapping, the lower Mekong River. Geomorphology, 85, 275–293. [CrossRef] [Google Scholar]
  • Lam-Hoai T., Guiral D. and Rougier C., 2006. Seasonal change of community structure and size spectra of zooplankton in the Kaw River estuary (French Guiana). Est. Coast. Shelf Sci., 68, 47–61. [CrossRef] [Google Scholar]
  • Li X.Y., Dong S.K., Zhao Q.H. and Liu S.L., 2010. Impacts of Manwan Dam construction on aquatic habitat and community in Middle Reach of Lancang River. Procedia Environ. Sci., 2, 706–712. [Google Scholar]
  • Liang D. and Uye S.I., 1996. Population dynamics and production of the planktonic copepods in a eutrophic inlet of the Inland Sea of Japan.111. Paracalanus sp. Mar. Biology, 127, 219–227. [Google Scholar]
  • Liu G.X., Chen H.J., Zhu Y.Z. and Qi Y.P., 2007. Study on the zooplankton community structure in the Changjiang River Estuary and adjacent sea area after the first-stage storage of the Three Gorges Project. Periodical Ocean Univ. China, 37, 789–794 (in Chinese). [Google Scholar]
  • Lorenzen C.J., 1967. A method for the continuous measurement of In vivo chlorophyll concentration. Deep-Sea Res., 13, 223–227. [Google Scholar]
  • Mialet B., Gouzou J., Azémar F., Maris T., Sossou C., Toumi N., Van Damme S., Meire P. and Tackx M., 2011. Response of zooplankton to improving water quality in the Scheldt estuary (Belgium). Est. Coast. Shelf Sci., 93, 47–57. [CrossRef] [Google Scholar]
  • Mikaelyan A.S., Malej A., Shiganova T.A., Turk V., Sivkovitch A.E., Musaeva E.I., Kogovšek T. and Lukasheva T.A., 2014. Populations of the red tide forming dinoflagellate Noctiluca scintillans (Macartney): a comparison between the Black Sea and the northern Adriatic Sea. Harmful Algae, 33, 29–40. [CrossRef] [Google Scholar]
  • Milliman J.D., 1997. Blessed dams or damned dams? Nature, 386, 325–327. [CrossRef] [Google Scholar]
  • Ocean Environmental Information, 2011. (National) Marine and Environment Monitor Center, 1–26 (in Chinese). Available online at: [Google Scholar]
  • Omori M., 1978. Zooplankton fisheries of the World: a review. Mar. Biol., 48, 199–205. [CrossRef] [Google Scholar]
  • Primo A.L., Azeiteiro U.M., Marques S.C., Martinho F. and Pardal M.Â., 2009. Changes in zooplankton diversity and distribution pattern under varying precipitation regimes in a southern temperate estuary. Est. Coast. Shelf Sci., 82, 341–347. [CrossRef] [Google Scholar]
  • Purcell J.E., Uye S. and Lo W.T., 2007. Anthropogenic causes of jellyfish blooms and their direct consequences for humans: a review. Mar. Ecol-Prog. Ser., 350, 153–174. [CrossRef] [Google Scholar]
  • Richardson A.J., Bakun A., Hays G.C. and Gibbons M.J., 2009. The jellyfish joyride: causes, consequences and management responses to a more gelatinous future. Trends Ecol. Evol., 24, 312–322. [CrossRef] [PubMed] [Google Scholar]
  • Shen H.T., 2001. Material Flux of the Changjiang Estuary. Ocean Press, Beijing (in Chinese). [Google Scholar]
  • Shi Z., 2004. Behavior of fine suspended sediment at the North passage of the Changjiang Estuary, China. J. Hydrol., 293, 180–90. [CrossRef] [Google Scholar]
  • State Oceanic Administration, 1991. Specifications for Oceanographic Survey, Standards Press of China, Beijing (in Chinese). [Google Scholar]
  • Stoner E.W., Layman C.A., Yeager L.A. and Hassett H.M., 2011. Effects of anthropogenic disturbance on the abundance and size of epibenthic jellyfish Cassiopea spp. Mar. Pollut. Bull., 62, 1109–1114. [CrossRef] [PubMed] [Google Scholar]
  • Sun J., Liu D.Y., Wang Z.L., Shi X.Y., Li R.X. and Zhu M.Y., 2003. Microzooplankton herbivory during red tide-frequent-occurrence period in spring in the East China Sea. Chinese J. Appl. Ecol., 14, 1073–1080 (in Chinese). [Google Scholar]
  • Taylor A.H., Allen J.I. and Clark P.A., 2002. Extraction of a weak climatic signal by an ecosystem. Nature, 416, 629–632. [CrossRef] [PubMed] [Google Scholar]
  • Tsutsumi H., 1987. Population dynamics of Capitella capitata (Polychaeta; Capitellidae) in an organically polluted cove. Mar. Ecol-Prog. Ser., 36, 139–140. [CrossRef] [Google Scholar]
  • Turkoglu M., 2013. Red tides of the dinoflagellate Noctiluca scintillans associated with eutrophication in the Sea of Marmara (the Dardanelles, Turkey)? Oceanologia, 55, 709–732. [CrossRef] [Google Scholar]
  • Uye S., 2008. Blooms of the giant jellyfish Nemopilema nomurai: a threat to the fisheries sustainability of the East Asian Marginal Seas. Plankton Benthos Res., 3(Suppl.), 125–131. [CrossRef] [Google Scholar]
  • Wang D., Lu J.J., Chen P. and Ma Y., 2014. Community characteristics of zooplankton in Qinzhou Bay. Acta Ecol. Sinica, 34, 141–147 (in Chinese). [CrossRef] [Google Scholar]
  • Wu H., Zhu J.R. and Choi B.H., 2010. Links between saltwater intrusion and subtidal circulation in the Changjiang Estuary: a model-guided study. Cont. Shelf Res., 30, 1891–1905. [CrossRef] [Google Scholar]
  • Xu R., Li Y.H., Li Z.E. and Wang J.H., 2009. Quantitative comparison of zooplankton in different habitats of the Changjiang Estuary. Acta Ecol. Sinica, 29, 1688–1696 (in Chinese). [Google Scholar]
  • Xu Y., Ishizaka J., Yamaguchi H., Siswanto E. and Wang S., 2013. Relationships of interannual variability in SST and phytoplankton blooms with giant jellyfish (Nemopilema nomurai) outbreaks in the Yellow Sea and East China Sea. J. Oceanogr., 69, 511–526. [CrossRef] [Google Scholar]
  • Xu Z.L., Wang Y.L., Chen Y.Q., Hu H., Han M.B. and Li X.H., 1995a. An ecological study on zooplankton in plume front zone of Changjiang (Yangtze) River estuarine area. III. Vertical distribution of dominant species. J. Fishery Sci. China, 2, 64–70 (in Chinese). [Google Scholar]
  • Xu Z.L., Wang Y.L., Chen Y.Q. and Shen H.T., 1995b. An ecological study on zooplankton in maximum turbid zone of estuarine area of Changjiang (Yangtze) River. J. Fishery Sci. China, 2, 39–48 (in Chinese). [Google Scholar]
  • Xu Z.L., Wang Y.L., Bai X.M. and Chen Y.Q., 1999. An ecological study on zooplankton in the Changjiang estuary. J. Fishery Sci. China, 6, 55–58 (in Chinese). [Google Scholar]
  • Xu Z.L., Hong B., Zhu M.Y. and Chen Y.Q., 2003. Ecological characteristics of zooplankton in frequent HAB areas of The East China Sea in spring. Chinese J. Appl. Ecol., 14, 1081–1085 (in Chinese). [Google Scholar]
  • Xu Z.L., Shen X.Q. and Ma S.W., 2005. Ecological characters of zooplankton dominant species in the waters near the Changjiang Estuary in spring and summer. Mar. Sci., 29, 13–19 (in Chinese). [Google Scholar]
  • Zhang F.Y., Tang J.L., Li D.J., Fang T. and Wang B., 2009. Zooplankton distribution and variation in the Yangtze Estuary and its adjacent waters in summer and autumn. Acta Hydrobiologica Sinica, 33, 1219–1225 (in Chinese). [CrossRef] [Google Scholar]
  • Zhang J., Yu Z.G., Liu S.M., Xu H. and Liu M.G., 1997. Dynamics of nutrient elements in three estuaries of North China: the Luanhe, Shuangtaizihe and Yalujiang. Estuaries, 20, 110–123 (in Chinese). [CrossRef] [Google Scholar]
  • Zhu Q.Q., 1988. An investigation on the ecology of zooplankton in changing estuary and Hangzhou bay. J. Fish. China, 12, 111–123 (in Chinese). [Google Scholar]
  • Zhu Y.Z., Liu L.S., Zheng B.H. and Wang Y., 2011. Relationship between spatial distribution of zooplankton and environmental factors in the Changjiang Estuary and its adjacent waters in spring. Mar. Sci., 35, 59–65 (in Chinese). [Google Scholar]

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