万文结,博士,特聘教授,硕士生导师,武汉工程大学第五层次人才
联系方式:wanwenjie@wit.edu.cn(邮箱)
教育经历:2020年6月毕业于华中农业大学农业微生物资源发掘与利用全国重点实验室,微生物学博士
工作经历:2020.07-2025.11,于中国科学院武汉植物园工作,任副研究员;2025年11月入职武汉工程大学环境生态与生物工程学院,任特聘教授
研究方向:围绕有机物资源化利用和生态环境修复等主题开展微生物地理分布格局与多样性维持机制、微生物多样性驱动的生态系统多功能性、磷循环相关微生物分布特征与功能潜力等研究
科研水平:主持国家自然科学基金青年基金和湖北省自然科学基金面上项目。以第一作者或通讯作者身份在Water Research、Molecular Ecology、Functional Ecology、Environmental Microbiology、mSystems、iMeta、mLife和Bioresource Technology等生态、环境和微生物期刊上发表了38篇英文文章。担任Agronomy客座编辑,为Nature Reviews Microbiology和Water Research等多个期刊审稿人
项目主持:
[1] 国家自然科学基金青年基金: 塑料附着生物膜对磷素固定的特性和生态学机制(基金编号: 42107147; 执行期: 2022.01–2024.12; 30万; 已结题)
[2] 湖北省自然科学基金面上项目: 湖滨植被缓冲带根际磷素截留及周转的机制(基金编号: 2024AFB855; 执行期: 2024.03–2026.03; 8万; 已结题)
荣誉奖励:
[1] 2019-2020年度华中农业大学农业微生物资源发掘与利用全国重点实验室优秀研究生
[2] 2021年度中国科学院武汉植物园明星员工
招生对象:热烈欢迎微生物学、环境科学、生态学和土壤学等背景的学生报考
代表论著:共发表61篇中英文文章,其中以第一作者或通讯作者发表37篇英文文章(17篇中科院1区,19篇中科院2区,1篇中科院4区)。详情请参见Researchgate和ORCID链接
Researchgate:
ORCID:
[1] Wan W, Grossart HP, Wu QL, Xiong X, Yuan W, Zhang W, Zhang Q, Liu W, Yang Y, 2025. Global meta-analysis deciphering ecological restoration performance of dredging: Divergent variabilities of pollutants and hydrobiontes. Water Research. 280, 123506. (第一作者, 中科院1区, JCR-Q1)
[2] Wan W, Grossart HP, Zhang W, Xiong X, Yuan W, Liu W, Yang Y, 2024. Lake ecological restoration of vegetation removal mitigates algal blooms and alters landscape patterns of water and sediment bacteria. Water Research. 267, 122516. (第一作者, 中科院1区, JCR-Q1)
[3] 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. (第一作者, 中科院1区, JCR-Q1)
[4] 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. (第一作者, 中科院1区, JCR-Q1)
[5] Yang Y, Zhang, W, Liu W, He D, Wan W*, 2023. Irreversible community difference between bacterioplankton generalists and specialists in response to lake dredging. Water Research. 243, 120344. (通讯作者, 中科院1区, JCR-Q1)
[6] 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. (第一作者, 中科院1区, JCR-Q1)
[7] Wan W, Gadd GM, Xiong X, Zhang W, Liu W, He D, Cheng Y, Yang Y, 2025. Stronger dispersal potential of alkaline phosphatase-encoding bacteria ensures higher organic phosphorus mineralization rate. Functional Ecology. 39, 756–769. (第一作者, 中科院1区, JCR-Q1)
[8] Xiong X, Wan W*, 2023. Distinct distribution patterns of rare and abundant alkaline phosphatase-harboring bacteria in plateau wetlands. Ecological Indicators. 146, 109803. (通讯作者, 中科院1区, JCR-Q1)
[9] Yang Y, Gadd GM, Gu JD, Zhang W, Zhang Q, Liu W, Wan W*, 2023. Spatial difference in phoD-harboring bacterial landscape between soils and sediments along the Yangtze River. Ecological Indicators. 153, 110447. (通讯作者, 中科院1区, JCR-Q1)
[10] 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. 2, e84. (第一作者, 中科院1区, JCR-Q1)
[11] 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-cycling-related bacteria. Soil and Tillage Research. 196, 104475. (第一作者, 中科院1区, JCR-Q1)
[12] 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. (第一作者, 中科院1区, JCR-Q1)
[13] Wu Q, Wan W*, 2023. Insight into application of phosphate-solubilizing bacteria promoting phosphorus availability during chicken manure composting. Bioresource Technology. 373, 128707. (通讯作者, 中科院1区, JCR-Q1)
[14] 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. (第一作者, 中科院1区, JCR-Q1)
[15] Chen P, Wan W*, 2023. Rare alkaline phosphatase-harboring bacteria mediate organic phosphorus mineralization during swine manure composting. Bioresource Technology. 368, 128335. (通讯作者, 中科院1区, JCR-Q1)
[16] Nie L, Wan W*, 2023. Nutrient-cycling functional gene diversity mirrors phosphorus transformation during chicken manure composting. Bioresource Technology. 386, 129504. (通讯作者, 中科院1区, JCR-Q1)
[17] 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. (通讯作者, 中科院1区, JCR-Q1)
[18] 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. 25, 661–674. (第一作者, 中科院2区, JCR-Q1)
[19] 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. (第一作者, 中科院2区, JCR-Q1)
[20] 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. 2, 89–100. (第一作者, 中科院2区, JCR-Q1)
[21] He W, Wan W, 2025. Strong nutrient limitation of rhizosphere microorganisms lowers vegetable yield sensitivity to fertilization regimes. Applied Soil Ecology. 215, 106418. (通讯作者, 中科院2区, JCR-Q1)
[22] 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. (通讯作者, 中科院2区, JCR-Q2)
[23] 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. (通讯作者, 中科院2区, JCR-Q2)
[24] 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. (第一作者, 中科院2区, JCR-Q2)
[25] 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. (通讯作者, 中科院2区, JCR-Q1)
[26] Wan W, Qin Y, Wu H, Zuo W, He H, Tan J, Wang Y, He D, 2020. 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. (第一作者, 中科院2区, JCR-Q1)
[27] 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. (第一作者, 中科院2区, JCR-Q1)
[28] 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. (第一作者, 中科院2区, JCR-Q1)
[29] 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. (第一作者, 中科院2区, JCR-Q1)
[30] 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. (通讯作者, 中科院2区, JCR-Q1)
[31] Yang Y, Wan W*, 2025. Water-logged composting with sealed system enhances phosphorus availability and changes ecological attributes of bacterial community. Journal of Environmental Management. 373, 123599. (通讯作者, 中科院2区, JCR-Q1)
[32] 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. (第一作者, 中科院2区, JCR-Q1)
[33] 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. (第一作者, 中科院2区, JCR-Q1)
[34] Wan W, Grossart HP, Xiong X, He D, Yang Y, 2025. Soil alkaline phosphatase-encoding bacteria relate closely to microbial biomass phosphorus in changing environments. Environmental Research. 282, 122078. (第一作者, 中科院2区, JCR-Q1)
[35] Wan W, Zhang W, Yu J, Xiong X, Yang Y, 2025. Lakeshore plant removal intensifies microbial phosphorus limitation and weakens multinutrient cycling-bacterial diversity relationship. Environmental Research. 285, 122492. (第一作者, 中科院2区, JCR-Q1)
[36] 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. (第一作者, 中科院4区, JCR-Q2)
[37] 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. (第一作者, 中科院2区, JCR-Q1)
[38] Yu J, Wan W*, Zhang W, Xiong X, Yang Y, 2026. Aquatic macrophytes alleviate algal blooms by synchronously mitigating sediment and nutrient resuspension. Environmental Research. 296, 123999. (通讯作者, 中科院2区, JCR-Q1)
