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Volume 30 Issue 3
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Article Navigation >  Acta Oceanologica Sinica  > 2011  >  (3): 84-91
LI Zhongqiao, WANG Xinyi, JIN Haiyan, JI Zhongqiang, BAI Youcheng. Variations in organic carbon loading of surface sediments from the shelf to the slope of the Chukchi Sea, Arctic Ocean[J]. Acta Oceanologica Sinica, 2017, 36(8): 131-136. doi: 10.1007/s13131-017-1026-y
Citation: XU Zhaoli, MA Zengling, WU Yumei. Peaked abundance of Calanus sinicus earlier shifted in the Changjiang River (Yangtze River) Estuary: a comparable study between 1959, 2002 and 2005[J]. Acta Oceanologica Sinica, 2011, (3): 84-91. doi: 10.1007/s13131-011-0122-7
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Peaked abundance of Calanus sinicus earlier shifted in the Changjiang River (Yangtze River) Estuary: a comparable study between 1959, 2002 and 2005

doi: 10.1007/s13131-011-0122-7

  • Key and Open Laboratory of Marine and Estuary Fisheries(Ministry of Agriculture), East China Sea Fisheries Research Institute, Chinese Academy of Fisheries Science, Shanghai 200090, China

  • Received Date: 2010-06-02
  • Rev Recd Date: 2011-02-14
    Abstract
  • The sea surface temperature (SST) of the East China Sea (ECS) increased in the past decades, which may have a great impact on the ecosystem of the ECS, including the changes in planktonpopulation structure. In this paper, the changes in peaked abundance of Calanus sinicus in the Changjiang River (Yangtze River) Estuary were compared between 1959 and 2002, based on the data collected from the seasonally oceanographic cruises and those performed in spring of 2005. It was much higher in spring compared with that in other seasons both in 1959 and 2002. Furthermore, in spring 2005, the time for occurrence and decrease of the peaked C. sinicus abundance advanced about one month, accompanying the increase in the sea surface water temperature (SST). It peaked in June and decreased in July in 1959, however, in 2005, it peaked in May and attenuated sharply in early June. The earlier decrease of peaked C. sinicus abundance may further deteriorate the ecosystem in the Changjiang River Estuary and north nearshore of the ECS.
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    1. Dekun Huang, Mengyao Dai, Hongyan Bao, et al. Rates of sedimentary organic carbon preservation in the Bering Sea and Chukchi Sea, and their response to climate change over the past 75 years. Palaeogeography, Palaeoclimatology, Palaeoecology, 2024. doi:10.1016/j.palaeo.2024.112297
    2. Weiwei Li, Zhongqiao Li, Zhuoyi Zhu, et al. Sources and degradation of organic matter in the surface sediments of the Chukchi Sea: insights from amino acids. Acta Oceanologica Sinica, 2023, 42(11): 9. doi:10.1007/s13131-023-2167-9
    3. Ann-Christine Zinkann, Matthew J. Wooller, Mary Beth Leigh, et al. Depth distribution of organic carbon sources in Arctic Chukchi Sea sediments. Deep Sea Research Part II: Topical Studies in Oceanography, 2022, 199: 105076. doi:10.1016/j.dsr2.2022.105076
    4. Natalia Szymańska, Magdalena Łącka, Katarzyna Koziorowska‐Makuch, et al. Foraminifera‐derived carbon contribution to sedimentary inorganic carbon pool: A case study from three Norwegian fjords. Geobiology, 2021, 19(6): 631. doi:10.1111/gbi.12460
    5. Dong Li, Jun Zhao, Chenggang Liu, et al. Comparison of sedimentary organic carbon loading in the Yap Trench and other marine environments. Journal of Oceanology and Limnology, 2020, 38(3): 619. doi:10.1007/s00343-019-8365-9
    6. Dong Li, Jun Zhao, Peng Yao, et al. Spatial heterogeneity of organic carbon cycling in sediments of the northern Yap Trench: Implications for organic carbon burial. Marine Chemistry, 2020, 223: 103813. doi:10.1016/j.marchem.2020.103813
    7. Zhongqiang Ji, Haiyan Jin, Ruediger Stein, et al. Distribution and Sources of Organic Matter in Surface Sediments of the Northern Bering and Chukchi Seas by Using Bulk and Tetraether Proxies. Journal of Ocean University of China, 2019, 18(3): 563. doi:10.1007/s11802-019-3869-7

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