论文列表详见 ResearchGateGoogle Scholar.

  1. Dai, B.*, Matsuzaki, S.S., Negishi, J.N., Xia, Z., Alam, M.K., Jiang, Z. (2024) Native fish assemblages in natural lakes across Japan: Endemism deterioration lasting centuries. Diversity and Distributions, 30, e13850. (封面文章,LINK)
  2. Dai, B., Chen, S., Wang, C., Jiang, Z.* (2024) Functional zeta diversity can better reveal fish metacommunity assembly process in a transitional floodplain. Ecological Indicators, 160, 111792. (LINK)
  3. Dai, B.*, Negishi, J.N., Fujii, K., Alam, M.K., Jiang, Z. (2023) Non-native fish species expand tacitly but rapidly toward upstream oxbow lakes along the longitudinal gradient. NeoBiota, 85, 101–123. (LINK)
  4. Xie, C., Dai, B., Wu, J., Liu, Y., Jiang, Z.* (2022) Initial recovery of fish faunas following the implementation of pen-culture and fishing bans in floodplain lakes along the Yangtze River. Journal of Environmental Management, 319, 115743. (LINK)
  5. 戴秉国, 王朝, 蒋忠冠*. (2021) 水位变化驱导的泛滥平原典型生境鱼类beta多样性动态. 水生态学杂志, 42(6): 85–91. (LINK)
  6. Jiang, Z., Dai, B.*, Wang, C., Xiong, W. (2020) Multifaceted biodiversity measurements reveal incongruent conservation priorities for rivers in the upper reach and lakes in the middle-lower reach of the largest river-floodplain ecosystem in China. Science of the Total Environment, 739, 140380. (LINK)
  7. Dai, B., Jiang, Z., Wang, C., Matsuzaki, S.S., Zhou, L. (2020) Abundance-based dissimilarity measurements reveal higher heterogeneity of fish communities in the lotic habitats of the Yangtze-Caizi transitional floodplain. Ecological Indicators, 112, 106122. (LINK)
  8. 王朝, 周立志, 戴秉国, 古辰, 蒋忠冠*. (2019) 水位洪枯变化对菜子湖江湖过渡带鱼类物种和功能多样性的影响. 湖泊科学, 31(05): 1403–1414. (LINK)
  9. Wang, C., Jiang, Z.*, Zhou, L., Dai, B., Song Z. (2019) A functional group approach reveals important fish recruitments driven by flood pulses in floodplain ecosystem. Ecological Indicators, 99, 130–139. (LINK)
  10. Jiang, Z., Xu, N., Liu, B.*, Zhou, L., Wang, J., Wang, C., Dai, B., Xiong, W. (2018) Metal concentrations and risk assessment in water, sediment and economic fish species with various habitat preferences and trophic guilds from Lake Caizi, Southeast China. Ecotoxicology and Environmental Safety, 157, 1–8. (LINK)

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