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Details of the Faculty or Staff
  • Name:  Wenjie Wan
  • Title:  Associate Professor
  • Education:  PhD
  • TEL:  027-87700853
  • Email:  wanwenjie@wbgcas.cn
  • Address:  Wuhan Botanical Garden, Chinese Academy of Sciences No. 201 Jiufeng 1 Road, East Lake High-Tech Development Zone, Wuhan, Hubei, P. R. China
  • Research Divisions:  Research Center for Aquatic Plant

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    Major publications:

    • 2023
    1. Wan W, Gadd GM, He D, Liu W, Xiong X, Ye L, Cheng Y, Yang Y*. 2023. Abundance and diversity of eukaryotic rather than bacterial community relate closely to the trophic level of urban lakes. Environmental Microbiology. Accepted. Doi: 10.1111/1462-2920.16317
    2. Wan W, Grossart HP, He D, Liu W, Wang S, Yang Y*. 2023. Differentiation strategies for planktonic bacteria and eukaryotes in response to aggravated algal blooms in urban lakes. iMeta. Accepted. Doi:10.1002/imt2.84.
    3. Wan W, Gadd GM, Gu JD, Liu W, Chen P, Zhang Q, Yang Y*. 2023. Beyond biogeographic patterns: processes shaping the microbial landscape in soils and sediments along the Yangtze River. mLife. Accepted.
    4. Xiong X, Wan W*. 2023. Distinct distribution patterns of rare and abundant alkaline phosphatase-harboring bacteria in plateau wetlands. Ecological Indicators, 146: 109803.
    5. Chen P, Wan W*. 2023. Rare alkaline phosphatase-harboring bacteria mediate organic phosphorus mineralization during swine manure composting. Bioresource Technology, 368: 128335.
    6. Wu Q, Wan W*. 2023. Insight into application of phosphate-solubilizing bacteria promoting phosphorus availability during chicken manure composting. Bioresource Technology, 373: 128707.
    7. Cheng Y, Wan W*. 2023. Strong linkage between nutrient-cycling functional gene diversity and ecosystem multifunctionality during winter composting with pig manure and fallen leaves. Science of the Total Environment, 867: 161529.
    8. Cheng Y, Wan W*. 2023. Elevated salinity decreases soil ecosystem multifunctionality by shifting the bacterial community from K- to r-selected living strategy. Land Degradation and Development, 34: 1110–1119.
      9. 2022
    9. Cheng Y, Wan W*. 2022. Alkaline phosphomonoesterase-harboring bacteria facilitate phosphorus availability during winter composting with different animal manures. Journal of Cleaner Production, 376: 134299.
    10. He D, Wan W*. 2022. Distribution of culturable phosphate-solubilizing bacteria in soil aggregates and their potential for phosphorus acquisition. Microbiology Spectrum, 10: e00290–e00322.
      11. 2021
    11. Wan W, Grossart HP, He D, Yuan W, Yang Y*. 2021. Stronger environmental adaptation of rare rather than abundant bacterioplankton in response to dredging in eutrophic Lake Nanhu (Wuhan, China). Water Research, 190: 116751.
    12. Wan W, Gadd GM, Gu JD, He D, Liu W, Yuan W, Ye L, Yang Y*. 2021. Dredging alleviates cyanobacterial blooms by weakening diversity maintenance of bacterioplankton community. Water Research, 202: 117449.
    13. Wan W, Gadd GM, Yang Y*, Yuan W, Gu JD, Ye L, Liu W*. 2021. Environmental adaptation is stronger for abundant rather than rare microorganisms in wetland soils from the Qinghai-Tibet Plateau. Molecular Ecology, 30: 2390–2403.
    14. Wan W, Liu S, Li X, Xing Y, Chen W*, Huang Q*. 2021. Bridging rare and abundant bacteria with ecosystem multifunctionality in salinized agricultural soils: from community diversity to environmental adaptation. mSystems, 6: e01221-20.
    15. Wan W, He D, Li X, Xing Y, Liu S, Ye L, Njoroge DM, Yang Y*. 2021. Adaptation of phoD-harboring bacteria to broader environmental gradients at high elevations than at low elevations in the Shennongjia primeval forest. Geoderma, 401: 115210.
    16. Wan W, Hao X, Xing Y, Liu S, Zhang X, Li X, Chen W*, Huang Q*. 2021. Spatial differences in soil microbial diversity caused by pH-driven organic phosphorus mineralization. Land Degradation and Development, 32: 766–776.
    17. Wan W, He D, Li X, Xing Y, Liu S, Ye L, Yang Y*. 2021. Linking rare and abundant phoD-harboring bacteria with ecosystem multifunctionality in subtropical forests: From community diversity to environmental adaptation. Science of the Total Environment, 796: 148943.
    18. Wan W, Liu S, Li X, Xing Y, Chen W*, Huang Q*. 2021. Dispersal limitation driving phoD-harboring bacterial community assembly: A potential indicator for ecosystem multifunctionality in long-term fertilized soils. Science of the Total Environment, 754: 141960.
    19. He D, Wan W*. 2021. Phosphate-solubilizing bacterium Acinetobacter pittii gp-1 affects rhizosphere bacterial community to alleviate soil phosphorus limitation for growth of soybean (Glycine max). Frontiers in Microbiology, 12: 737116.
      20. Before 2020
    20. Wan W, Wang Y, Tan J, Qin Y, Zuo W, Wu H, He H, He D*. 2020. Alkaline phosphatase-harboring bacterial community and multiple enzyme activity contribute to phosphorus transformation during vegetable waste and chicken manure composting. Bioresource Technology, 297: 122406.
    21. Wan W, Li X, Han S, Wang L, Luo X, Chen W*, Huang Q*. 2020. Soil aggregate fractionation and phosphorus fraction driven by long-term fertilization regimes affect the abundance and composition of P-cyclingrelated bacteria. Soil and Tillage Research, 196: 104475.
    22. Wan W, Tan J, Wang Y, Qin Y, He H, Wu H, Zuo W, He D*. 2020. Responses of the rhizosphere bacterial community in acidic crop soil to pH: Changes in diversity, composition, interaction, and function. Science of the Total Environment, 700: 134418.
    23. Wan W, Zhang Y, Cheng G, Li X, Qin Y, He D*. 2020. Dredging mitigates cyanobacterial bloom in eutrophic Lake Nanhu: Shifts in associations between the bacterioplankton community and sediment biogeochemistry. Environmental Research, 188: 109799.
    24. Wan W, Xing Y, Qin X, Li X, Liu S, Luo X, Huang Q*, Chen W*. 2020. A manganese-oxidizing bacterial consortium and its biogenic Mn oxides for dye decolorization and heavy metal adsorption. Chemosphere, 253: 126627.
    25. Wan W, Qin Y, Wu H, Zuo W, He H, Tan J, Wang Y, He D*. Isolation and characterization of phosphorus solubilizing bacteria with multiple phosphorus sources utilizing capability and their potential for lead immobilization in soil. Frontiers in Microbiology, 11: 752.
    26. Wan W, He D*, Xue Z, Zhang Z. 2017. Specific mutation of transglutaminase gene from Streptomyces hygroscopicus H197 and characterization of microbial transglutaminase. Journal of Biosciences, 42: 537–546.
    27. Wan W, He D*, Xue Z. 2017. Removal of nitrogen and phosphorus by heterotrophic nitrification-aerobic denitrification of a denitrifying phosphorus-accumulating bacterium Enterobacter cloacae HW-15. Ecological Engineering, 99: 199–208.
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