A comparison of zooplankton assemblages in Nansi Lake and Hongze Lake, potential influences of the East Route of the South-to-North Water Transfer Project, China

Nansi Lake and Hongze Lake are both water storage lakes along the East Route of the South-to-North Water Transfer project (ESNT). Frequent changes in hydrologic properties are responsible factors for controlling the zooplankton community assemblages in both lakes, so we studied the possible influenc...

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Bibliographic Details
Published in:Journal of oceanology and limnology 2021-03, Vol.39 (2), p.623-636
Main Authors: Divya, Kandathil Radhakrishnan, Zhao, Shasha, Chen, Yushun, Cheng, Fei, Zhang, Lei, Qin, Jiao, Arunjith, Thundiparambil Sathrajith, Schmidt, V. Bjorn, Xie, Songguang
Format: Article
Language:English
Subjects:
Aquatic crustaceans
Community structure
Earth and Environmental Science
Earth Sciences
Ecological distribution
Ecology
Environmental factors
Environmental gradient
Habitat preferences
Habitat selection
Hydrologic properties
Lakes
Littoral environments
Marine invertebrates
Oceanography
Phosphorus
Plankton
Protozoa
Rotifera
Species richness
Taxa
Water
Water storage
Water transfer
Zooplankton
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Summary:Nansi Lake and Hongze Lake are both water storage lakes along the East Route of the South-to-North Water Transfer project (ESNT). Frequent changes in hydrologic properties are responsible factors for controlling the zooplankton community assemblages in both lakes, so we studied the possible influence of water transfer and environmental factors on zooplankton community structure and abundance. Zooplankton assemblages were investigated seasonally for one year in both lakes; a total of 133 and 122 zooplankton taxa were identified in Nansi Lake and Hongze Lake, respectively. The most dominant rotifer species were littoral, e.g., Keratella tecta , Keratella valga and Lecane lunaris in Nansi Lake and Brachionus angularis , Brachionus forficula and Polyarthra vulgaris in Hongze Lake. Comparatively, Nansi Lake had a higher Shannon-Wiener diversity index value (5.13), while Hongze Lake had a higher species richness index (4.21). The average number of zooplankton across seasons in Nansi Lake (protozoa: 774±63 ind./L, rotifers: 4 817±212 ind./L, cladocerans: 896±14 ind./L, copepod: 435±42 ind./L) was comparatively lower than Hongze Lake (protozoa: 1 238±63 ind./L, rotifers: 6 576±112 ind./L, cladocerans: 1 013±20 ind./L, copepod: 534±25 ind./L). Canonical correspondence analysis identified differing environmental gradients that were most responsible for influencing zooplankton communities in the two lakes (Hongze Lake: NH 4 -N, total nitrogen, transparency and pH; Nansi: pH, temperature and total phosphorus). Frequent changes related to water transfer in lakes favoured the diversity of rotifers and protozoa communities. Zooplankton habitat preference, changes in community structure and opportunistic peaks and extinction of certain taxa were also observed in the study lakes.
ISSN:2096-5508
2523-3521
DOI:10.1007/s00343-020-9288-1