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Volume 31 Issue 6
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Article Navigation >  Acta Oceanologica Sinica  > 2012  >  (6): 92-103
ZHANG Yufeng, WU Jinhao, SONG Lun, SONG Yonggang, YANG Meng, WANG Nianbin, HAN Jiabo, GUAN Daoming. Source apportionment and ecological risk assessment of PAHs in surface sediments from the Liaodong Bay, northern China[J]. Acta Oceanologica Sinica, 2018, 37(4): 12-21. doi: 10.1007/s13131-018-1179-3
Citation: CAI Lizhe, FU Sujing, YANG Jie, ZHOU Xiping. Distribution of meiofaunal abundance in relation to environmental factors in Beibu Gulf, South China Sea[J]. Acta Oceanologica Sinica, 2012, (6): 92-103. doi: 10.1007/s13131-012-0256-2
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Distribution of meiofaunal abundance in relation to environmental factors in Beibu Gulf, South China Sea

doi: 10.1007/s13131-012-0256-2
  • 1.

    College of the Environment & Ecology, Xiamen University, Xiamen 361102, China;Laboratory of Marine Biodiversity and Global Change, Xiamen University, Xiamen 361102, China

  • 2.

    College of the Environment & Ecology, Xiamen University, Xiamen 361102, China

  • Received Date: 2011-05-10
  • Rev Recd Date: 2011-09-21
    Abstract
  • This study aims to explore the distribution of meiofaunal abundance in relation to environmental factors in the Beibu Gulf, a natural semi-enclosed part of the South China Sea, surrounded by China and Vietnam. Meiofauna and ten benthic environmental factors were determined at 27 sampling stations in the Beibu Gulf in four surveys during 2006-2007. The results show a clear geographical trend in meiofaunal abundance, water depth, salinity and clay content. The meiofaunal abundance and the clay content decreased, whereas the water depth and the salinity increased from the north to the south of the Gulf. The percentage of meiofaunal abundance in the 0-2 cm layer increased, whereas in the 2-5 cm and 5-10 cm layers it decreased from the north to the south of the Gulf. Correlation analysis show significant negative correlations between meiofaunal abundance and water depth, benthic temperature, salinity and pH, but significant positive correlations between meiofaunal abundance and dissolved oxygen, chlorophyll a and clay content.
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    2. Jinhao Wu, Yufeng Zhang, Peng Zhang, et al. The trophodynamics of polycyclic aromatic hydrocarbons in marine food webs: The importance of trophic level span from insights into Liaodong Bay (China). Environmental Research, 2024, 263: 120202. doi:10.1016/j.envres.2024.120202
    3. Uzochukwu C. Ugochukwu, Chizoba Agu, Chika Jidere, et al. Effect of petroleum products depot on Nwaenebo-Emene river sediments, Enugu, Nigeria: contamination by PAHs and associated exposure risks to both humans and aquatic biota. International Journal of Environmental Analytical Chemistry, 2024, 104(17): 4993. doi:10.1080/03067319.2022.2115903
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    7. Ping Li, Larissa Dsikowitzky, Xiaoping Diao, et al. Unusual tin organics, DDX and PAHs as specific pollutants from dockyard work in an industrialized port area in China. Chemosphere, 2020, 243: 125284. doi:10.1016/j.chemosphere.2019.125284
    8. Xingpo Liu, Ziwei Chen, Jiangshuai Wu, et al. Sedimentary polycyclic aromatic hydrocarbons (PAHs) along the mouth bar of the Yangtze River Estuary: Source, distribution, and potential toxicity. Marine Pollution Bulletin, 2020, 159: 111494. doi:10.1016/j.marpolbul.2020.111494
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