学校主页
91糖心vlog传媒- 师资队伍- 专任教师- 进化与生态学系

进化与生态学系

孔维栋

教授,博士生导师,中国科学院“百人计划”

  • 联系方式

    邮箱:飞诲办辞苍驳蔼肠苍耻.别诲耻.肠苍
    电话:010-68902899

  • 招生方向

    硕士研究生招生:微生物生态学与碳氮循环过程
    博士研究生招生:环境微生物组学与全球变化

91糖心vlog传媒

教育及工作经历:

2023  至今:  91糖心vlog传媒 生命科学学院,教授、博士生导师

2019  至今:  南非比勒陀利亚大学(University of Pretoria)微生物生态与组学研究中心,兼职教授、博士生导师

2012–2023:  中国科学院青藏高原研究所,研究员、中国科学院百人计划、博士生导师

2006–2012:  美国普渡大学、迈阿密大学、美国加州大学旧金山分校博士后、副研究员

2006                    中国科学院生态环境研究中心,环境科学,博士

2003                    华南农业大学,环境工程,硕士

2000                    河北农业大学,土壤与农业化学,学士


研究领域

l 环境微生物组学:微生物多样性形成维持机制叁极(南极、北极、青藏高原)土壤微生物多样性与群落构建

l 微生物群落功能与生态修复:干旱区与冻土土壤微生物生态及碳氮循环过程、微生物-植物互作、微生物与生态系统健康

l 全球变化:土壤微生物群落对全球变化的响应与适应


学术任职:

担任Global Change BiologyFEMS Microbiology EcologyJournal of Plant EcologySoil Ecology LettersFrontiers in Microbiology、生态学杂志等期刊编委;应邀担任国际微生物生态学会年会(ISME192024年)分会主席;中国土壤学会土壤生物与生化分会委员、中国生态学会高寒生态分会委员。


代表性成果*通讯作者)

  1. Varliero, G., Lebre, P. H., Adams, B., Chown, S. L., Convey, P., Dennis, P. G., Fan, D. D., Ferrari, B., Frey, B., Hogg, I. D., Hopkins, D. W., Kong, W. D., Makhalanyane, T., Matcher, G., Newsham, K. K., Stevens, M. I., Weigh, K. V., Cowan, D. A.*, 2024. Biogeographic survey of soil bacterial communities across Antarctica. Microbiome 12(1): 9.

  2. Nshimiyimana, J. B., Zhao, K., Wang, W. Y.*, Kong, W. D.*, 2024. Diazotrophic abundance and community structure associated with three meadow plants on the Qinghai-Tibet Plateau. Frontiers in Microbiology 14: 1292860.

  3. Zhang, S. Y., Fan, D. D., Wu, J. S., Zhang, X. Z., Zhuang, X. L., Kong, W. D.*, 2024. The interaction of climate, plant, and soil factors drives putative soil fungal pathogen diversity and community structure in dry grasslands. Environmental Microbiology Reports 16(1): 1-13.

  4. Chen, X.*, Wang, J. J., Jin, J., Zheng, Z. Q., Kong, W. D., Cheng, W. H., Zhang, J. F., Liang, L. W., Yang, Y., Emslie, S., Liu, X. D., 2024. Microbial hydrogenation of cholesterol to coprostanol by anaerobic bacteria: evidence from Antarctic lacustrine sediment. Biogeochemistry. in press.

  5. 樊丹丹, 孔维栋*, 2024. 围栏对青藏高原不同类型草地土壤原核微生物多样性的影响. 生态学报 44(2): 651-661.

  6. 张韶阳,樊丹丹,孔维栋*2024. 增温对干旱区土壤微生物多样性及其固碳功能的影响. 生态学杂志.

  7. Khan, A., Kong, W. D.*, Khan, S., Nawab, J., 2023. Community succession and drivers of CO2-fixing microbes in recently deglaciated soils on the Tibetan Plateau. Journal of Soils and Sediments 23(4): 1901-1912.

  8. Tang, Y. Z., Fan, D. D., Guo, W., Kong, W. D.*, 2023. Controls on diversity of core and indicative microbial subcommunities in Tibetan Plateau grassland soils. FEMS Microbiology Ecology 99(7): fiad059.

  9. Khan, A., Kong, W. D.*, Khan, S., Nawab, J., Khan, M. I., 2023. Diversity and succession of chemolithoautotrophic microbial community along a recently deglaciation chronosequence on the Tibetan Plateau. FEMS Microbiology Ecology 99(7): fiad066.

  10. Fan, D. D., Ji, M. K., Wu, J. S., Chen, H., Jia, H. Z., Zhang, X. Z., Zhuang, X. L., Kong, W. D.*, 2023. Grazing does not influence soil arbuscular mycorrhizal fungal diversity, but increases their interaction complexity with plants in dry grasslands on the Tibetan Plateau. Ecological Indicators 148: 110065.

  11. Zhao, J., Fan, D. D., Guo, W., Wu, J. S., Zhang, X. Z., Zhuang, X. L., Kong, W. D.*, 2023. Precipitation drives soil protist diversity and community structure in dry grasslands. Microbial Ecology 86(4): 2293-2304.

  12. 周天祺, 孔维栋*, 陈昊, 2023. 青藏高原草地土壤微生物研究进展. 生态学杂志 42(4): 983-990.

  13. Ray, A. E., Zaugg, J., Benaud, N., Chelliah, D. S., Bay, S., Wong, H. L., Leung, P. M., Ji, M., Terauds, A., Montgomery, K., Greening, C., Cowan, D. A., Kong, W. D., Williams, T. J., Hugenholtz, P., Ferrari, B. C.*, 2022. Atmospheric chemosynthesis is phylogenetically and geographically widespread and contributes significantly to carbon fixation throughout cold deserts. The ISME Journal 16(11): 2547-2560.

  14. Wang, F., Kong, W. D.*, Ji, M. K., Zhao, K., Chen, H., Yue, L. Y., Dong, X. B., 2022. Grazing greatly reduces the temporal stability of soil cellulolytic fungal community in a steppe on the Tibetan Plateau. Journal of Environmental Sciences 121: 48-57.

  15. Chen, H., Kong, W. D.*, Shi, Q., Wang, F., He, C., Wu, J. S., Lin, Q., Zhang, X. Z., Zhu, Y. G., Liang, C., Luo, Y., 2022. Patterns and drivers of the degradability of dissolved organic matter in dryland soils on the Tibetan Plateau. Journal of Applied Ecology 59(3): 884-894.

  16. Ji, M. K., Kong, W. D.*, Jia, H. Z., Delgado-Baquerizo, M., Zhou, T. Q., Liu, X. D., Ferrari, B. C., Malard, L., Liang, C., Xue, K., Makhalanyane, T. P., Zhu, Y. G., Wang, Y. F., Pearce, D. A., Cowan, D. A., 2022. Polar soils exhibit distinct patterns in microbial diversity and dominant phylotypes. Soil Biology and Biochemistry 166: 108550.

  17. Ji, M. K., Kong, W. D.*, Jia, H. Z., Ding, C., Anesio, A. M., Wang, Y. F., Zhu, Y. G.*, 2022. Similar heterotrophic communities but distinct interactions supported by red and green-snow algae in the Antarctic Peninsula. New Phytologist 233(3): 1358-1368.

  18. 樊丹丹, 刘艳娇, 曹慧丽, 陈昊, 孔维栋, 李香真*, 2022. 围栏工程对退化草地土壤理化性质和微生物群落的影响. 科技导报 40(3): 41-51.

  19. Liu, X. R.*, Tang, Z. M., Zhang, Q. W., Kong, W. D.*, 2021. The contrasting effects of biochar and straw on N2O emissions in the maize season in intensively farmed soil. Environmental Science and Pollution Research 28: 29806–29819.

  20. Yue, L. Y., Kong, W. D.*, Li, C. G., Zhu, G. B., Zhu, L. P., Makhalanyane, T. P., Cowan, D. A., 2021. Dissolved inorganic carbon determines the abundance of microbial primary producers and primary production in Tibetan Plateau lakes. FEMS Microbiology Ecology 97(2): fiaa242.

  21. Chen, X., Liu, X. D.*, Jia, H. Z., Jin, J., Kong, W. D., Huang, Y. S.*, 2021. Inverse hydrogen isotope fractionation indicates heterotrophic microbial production of long-chain n-alkyl lipids in desolate Antarctic ponds. Geobiology 19(4): 394-404.

  22. Bosch, J., Varliero, G., Hallsworth, J. E., Dallas, T. D., Hopkins, D., Frey, B., Kong, W. D., Lebre, P., Makhalanyane, T. P., Cowan, D. A.*, 2021. Microbial anhydrobiosis. Environmental Microbiology 23(11): 6377-6390.

  23. Liu, J. B., Kong, W. D.*, Xia, P. H., Zhu, C. M., Li, X. Z., 2021. Prokaryotic community succession in bulk and rhizosphere soils along a high-elevation glacier retreat chronosequence on the Tibetan Plateau. Frontiers in Microbiology 12: 736407.

  24. Chen, H., Wang, F., Kong, W. D.*, Jia, H. Z., Zhou, T. Q., Xu, R., Wu, G. J., Wang, J. B., Wu, J. S., 2021. Soil microbial CO2 fixation plays a significant role in terrestrial carbon sink in a dryland ecosystem: A four-year small-scale field-plot observation on the Tibetan Plateau. Science of The Total Environment 761: 143282.

  25. Khan, A., Kong, W. D.*, Ji, M. K., Yue, L. Y., Xie, Y., Liu, J. B., Xu, B. Q., 2020. Disparity in soil bacterial community succession along a short time-scale deglaciation chronosequence on the Tibetan Plateau. Soil Ecology Letters 2(2): 83-92.

  26. Ji, M. K., Kong, W. D.*, Stegen, J., Yue, L. Y., Wang, F., Dong, X. B., Cowan, D. A., Ferrari, B. C., 2020. Distinct assembly mechanisms underlie similar biogeographical patterns of rare and abundant bacteria in Tibetan Plateau grassland soils. Environmental Microbiology 22(6): 2261-2272.

  27. Fan, D. D., Kong, W. D.*, Wang, F., Yue, L. Y., Li, X. Z., 2020. Fencing decreases microbial diversity but increases abundance in grassland soils on the Tibetan Plateau. Land Degradation & Development 31(17): 2577-2590.

  28. Ji, M. K., Kong, W. D.*, Liang, C., Zhou, T. Q., Jia, H. Z., Dong, X. B., 2020. Permafrost thawing exhibits a greater influence on bacterial richness and community structure than permafrost age in Arctic permafrost soils. The Cryosphere 14: 3907-3916.

  29. Ray, A. E., Zhang, E., Terauds, A., Ji, M. K., Kong, W. D., Ferrari, B. C.*, 2020. Soil microbiomes with the genetic capacity for atmospheric chemosynthesis are widespread across the poles and are associated with moisture, carbon, and nitrogen limitation. Frontiers in Microbiology 11: 1936.

  30. Chen, H., Zhao, X. R.*, Lin, Q. M., Li, G. T., Kong, W. D., 2020. Spring watering interactively improves aboveground net primary productivity and soil microbial biomass in a semi-arid grassland of China. Catena 189: 104478.

  31. Kong, W. D.*, Liu, J. B., Ji, M. K., Yue, L. Y., Kang, S. C., Morgan-Kiss, R. M., 2019. Autotrophic microbial community succession from glacier terminus to downstream waters on the Tibetan Plateau. FEMS Microbiology Ecology 95(6): fiz074.

  32. Yue, L. Y., Kong, W. D.*, Ji, M. K., Liu, J. B., Morgan-Kiss, R. M., 2019. Community response of microbial primary producers to salinity is primarily driven by nutrients in lakes. Science of The Total Environment 696: 134001.

  33. Khan, A., Kong, W. D.*, Muhammad, S., Wang, F., Zhang, G. S., Kang, S. C., 2019. Contrasting environmental factors drive bacterial and eukaryotic community successions in freshly deglaciated soils. FEMS Microbiology Letters 366: fnz229.

  34. Xu, Z. H., Fan, W. G., Wei, H. J., Zhang, P., Ren, J. H., Gao, Z. C., Ulgiati, S., Kong, W. D., Dong, X. B.*, 2019. Evaluation and simulation of the impact of land use change on ecosystem services based on a carbon flow model: A case study of the Manas River Basin of Xinjiang, China. Science of The Total Environment 652: 117-133.

  35. Xu, Z. H., Wei, H. J., Fan, W. G., Wang, X. C., Zhang, P., Ren, J. H., Lu, N. C., Gao, Z. C., Dong, X. B.*, Kong, W. D., 2019. Relationships between ecosystem services and human well-being changes based on carbon flow—A case study of the Manas River Basin, Xinjiang, China. Ecosystem Services 37: 100934.

  36. Ji, M. K., Kong, W. D.*, Yue, L. Y., Wang, J. B., Deng, Y., Zhu, L. P., 2019. Salinity reduces bacterial diversity, but increases network complexity in Tibetan Plateau lakes. FEMS Microbiology Ecology 95(12): fiz190.

  37. Chen, H., Zhao, X. R.*, Lin, Q. M., Li, G. T., Kong, W. D., 2019. Using a combination of PLFA and DNA-based sequencing analyses to detect shifts in the soil microbial community composition after a simulated spring precipitation in a semi-arid grassland in China. Science of The Total Environment 657: 1237-1245.

  38. 刘金波, 孔维栋*, 王君波, 刘晓波, 张国帅, 康世昌, 2019. 纳木错湖水体固碳微生物数量、群落结构及其驱动因子. 生态学报 39(8): 2772-2783.

  39. Tian, J., He, N. P., Kong, W. D., Deng, Y., Feng, K., Green, S. M., Wang, X. B., Zhou, J. Z., Kuzyakov, Y., Yu, G. R.*, 2018. Deforestation decreases spatial turnover and alters the network interactions in soil bacterial communities. Soil Biology and Biochemistry 123: 80-86.

  40. Zhao, K., Kong, W. D.*, Wang, F., Long, X. E., Guo, C. Y., Yue, L. Y., Yao, H. Y., Dong, X. B., 2018. Desert and steppe soils exhibit lower autotrophic microbial abundance but higher atmospheric CO2 fixation capacity than meadow soils. Soil Biology and Biochemistry 127: 230-238.

  41. 高静, Muhanmmad, S., 岳琳艳, 何永涛, 斯确多吉, 张宪州, 孔维栋*, 2018. 藏北高原草甸土壤固碳微生物群落特征随海拔和季节的变化. 生态学报 38(11): 3816-3824.

  42. 郭春燕, 岳琳艳, 赵康, 邢鹏, 孔维栋*, 2018. 水样保存方法对青藏高原湖泊可培养微生物的影响. 生态学杂志 37(8): 2541-2548.

  43. Zhao, K., Kong, W. D.*, Khan, A., Liu, J. B., Guo, G. X., Muhanmmad, S., Zhang, X. Z., Dong, X. B., 2017. Elevational diversity and distribution of ammonia-oxidizing archaea community in meadow soils on the Tibetan Plateau. Applied Microbiology and Biotechnology 101(18): 7065-7074.

  44. 潘晓悦, 王晓, 郭光霞, 孔维栋*, 2017. 增温与降水变化对青藏高原高寒草甸土壤nirS反硝化菌群落丰度和群落结构的影响. 生态学报 37(23): 7938-7946.

  45. Zhang, B. C., Kong, W. D., Wu, N., Zhang, Y. M.*, 2016. Bacterial diversity and community along the succession of biological soil crusts in the Gurbantunggut Desert, Northern China. Journal of Basic Microbiology 56(6): 670-679.

  46. Liu, J. B., Kong, W. D.*, Zhang, G. S., Khan, A., Guo, G. X., Zhu, C. M., Wei, X. J., Kang, S. C., Morgan-Kiss, R. M., 2016. Diversity and succession of autotrophic microbial community in high-elevation soils along deglaciation chronosequence. FEMS Microbiology Ecology 92(10): fiw160.

  47. Morgan-Kiss, R. M.*, Lizotte, M. P., Kong, W. D., Priscu, J. C., 2016. Photoadaptation to the polar night by phytoplankton in a permanently ice-covered Antarctic lake. Limnology and Oceanography 61(1): 3-13.

  48. Guo, G. X.*, Kong, W. D.*, Liu, J. B., Zhao, J. X., Du, H. D., Zhang, X. Z., Xia, P. H., 2015. Diversity and distribution of autotrophic microbial community along environmental gradients in grassland soils on the Tibetan Plateau. Applied Microbiology and Biotechnology 99(20): 8765-8776.

  49. Dolhi, J. M., Teufel, A. G., Kong, W. D., Morgan-Kiss, R. M.*, 2015. Diversity and spatial distribution of autotrophic communities within and between ice-covered Antarctic lakes (McMurdo Dry Valleys). Limnology and Oceanography 60(3): 977-991.

  50. Shen, M. G., Zhang, G. X.*, Cong, N., Wang, S. P., Kong, W. D., Piao, S. L., 2014. Increasing altitudinal gradient of spring vegetation phenology during the last decade on the Qinghai–Tibetan Plateau. Agricultural and Forest Meteorology 189-190: 71-80.

  51. Kong, W. D., Li, W., Romancova, I., Prasil, O., Morgan-Kiss, R. M.*, 2014. An integrated study of photochemical function and expression of a key photochemical gene (psbA) in photosynthetic communities of Lake Bonney (McMurdo Dry Valleys, Antarctica). FEMS Microbiology Ecology 89(2): 293-302.

  52. Lynch, S. V.*, Goldfarb, K. C., Wild, Y. K., Kong, W. D., De Lisle, R. C., Brodie, E. L., 2013. Cystic fibrosis transmembrane conductance regulator knockout mice exhibit aberrant gastrointestinal microbiota. Gut Microbes 4(1): 41-47.

  53. Shen, M. G.*, Sun, Z. Z., Wang, S. P., Zhang, G. X., Kong, W. D., Chen, A. P., Piao, S. L., 2013. No evidence of continuously advanced green-up dates in the Tibetan Plateau over the last decade. Proceedings of the National Academy of Sciences 110(26): E2329.

  54. 孔维栋*, 2013. 极地陆域微生物多样性研究进展. 生物多样性 4(21): 456-457.

  55. Kong, W. D.*, Li, C. G., Dolhi, J. M., Li, S. Y., He, J. Z., Qiao, M.*, 2012. Characteristics of oxytetracycline sorption and potential bioavailability in soils with various physical–chemical properties. Chemosphere 87(5): 542-548.

  56. Wild, Y. K., Goldfarb, K., De Lisle, R. C., Kong, W. D., Brodie, E., Lynch, S., 2012. Cystic fibrosis transmembrane regulator knockout mice exhibit aberrant Gastrointestinal Microbiota. Gastroenterology 142: S674.

  57. Kong, W. D., Ream, D. C., Priscu, J. C., Morgan-Kiss, R. M.*, 2012. Diversity and expression of RubisCO genes in a perennially ice-covered Antarctic lake during the polar night transition. Applied and Environmental Microbiology 78(12): 4358-4366.

  58. Kong, W. D., Dolhi, J. M., Chiuchiolo, A., Priscu, J., Morgan-Kiss, R. M.*, 2012. Evidence of form II RubisCO (cbbM) in a perennially ice-covered Antarctic lake. FEMS Microbiology Ecology 82(2): 491-500.

  59. Scanlan, P. D., Buckling, A., Kong, W. D., Wild, Y., Lynch, S. V., Harrison, F.*, 2012. Gut dysbiosis in cystic fibrosis. Journal of Cystic Fibrosis 11(5): 454-455.

  60. Schwarzer, C., Fu, Z., Patanwala, M., Hum, L., Lopez-Guzman, M., Illek, B., Kong, W. D., Lynch, S. V., Machen, T. E.*, 2012. Pseudomonas aeruginosa biofilm-associated homoserine lactone C12 rapidly activates apoptosis in airway epithelia. Cellular Microbiology 14(5): 698-709.

  61. Bielewicz, S., Bell, E., Kong, W. D., Friedberg, I., Priscu, J. C., Morgan-Kiss, R. M.*, 2011. Protist diversity in a permanently ice-covered Antarctic Lake during the polar night transition. The ISME Journal 5(9): 1559-1564.

  62. Li, C. G., Li, X. M., Kong, W. D., Wu, Y., Wang, J. G.*, 2010. Effect of monoculture soybean on soil microbial community in the Northeast China. Plant and Soil 330(1): 423-433.

  63. Kong, W. D., Nakatsu, C. H.*, 2010. Optimization of RNA extraction for PCR quantification of aromatic compound degradation genes. Applied and Environmental Microbiology 76(4): 1282-1284.

  64. Chen, X. P., Kong, W. D., He, J. Z., Liu, W. J., Smith, S. E., Smith, F. A., Zhu, Y. G.*, 2008. Do water regimes affect iron-plaque formation and microbial communities in the rhizosphere of paddy rice? Journal of Plant Nutrition and Soil Science 171(2): 193-199.

  65. Kong, W. D.*, Zhu, Y. G., Fu, B. J., Han, X. Z., Zhang, L., He, J. Z.*, 2008. Effect of long-term application of chemical fertilizers on microbial biomass and functional diversity of a black soil. Pedosphere 18(6): 801-808.

  66. Kong, W. D., Zhu, Y. G.*, Liang, Y. C., Zhang, J., Smith, F. A., Yang, M., 2007. Uptake of oxytetracycline and its phytotoxicity to alfalfa (Medicago sativa L.). Environmental Pollution 147(1): 187-193.

  67. Kong, W. D., Zhu, Y. G.*, Fu, B. J., Marschner, P., He, J. Z., 2006. The veterinary antibiotic oxytetracycline and Cu influence functional diversity of the soil microbial community. Environmental Pollution 143(1): 129-137.

  68. Kong, W. D., Chen, B. D., Nan, Z. B., Christie, P., 2005. Soil microbial community: understanding the belowground network for sustainable grassland management. Grassland: A Global Resource: 209-217.

  69. 孔维栋, 朱永官*, 傅伯杰, 陈保冬, 童依平, 2004. 农业土壤微生物基因与群落多样性研究进展. 生态学报 24(12): 2894-2900.

  70. 孔维栋, 刘可星, 廖宗文*, 朱永官, 王碧玲, 2005. 不同腐熟程度有机物料对土壤微生物群落功能多样性的影响. 生态学报 25(9): 2291-2296.

  71. 孔维栋, 刘可星, 廖宗文*, 2004. 有机物料种类及腐熟水平对土壤微生物群落的影响. 应用生态学报 15(3): 487-492.


主持项目:

在研项目

1. 国家自然科学基金委员会,中美国际重点合作项目, Dimensions合作研究项目:极地与高山土壤微生物多样性形成的基因、进化和功能机制研究, 2021-2026298万元,项目主持

2. 科技部,重点研发计划-政府间国际科技创新合作项目,中国-沙特阿拉伯干旱区农业微生物联合实验室, 2022-2025350万元,项目主持

3. 国家自然科学基金委员会,重点项目,我国典型冻土区土壤有机碳形成和转化的微生物机制及其对增温的响应,2023-2027100万元(总额298万元),课题主持

4. 国家自然科学基金委员会,面上项目,增温对青藏高原草地土壤固碳微生物群落及其固碳潜力的影响研究,2022-202556万元,项目主持

已结题项目

5. 中国科学院,先导专项,数字地球专项A:叁极微生物时空分布,2018-2023530万,子课题主持

6. 国家自然科学基金委员会,面上项目,青藏高原草地土壤固碳微生物群落及其固碳能力研究,2018-202163万元,项目主持

7. 中国科学院,前沿科学重点研究项目,青藏高原草地土壤固碳微生物多样性、固碳潜力及其对气候变化和放牧的响应,2016-2021250万元,项目主持

8. 国家自然科学基金委员会,面上项目,青藏高原典型湖泊总微生物群落与固碳微生物功能群特征研究,2015-2018105万元,项目主持

9. 科技部,基础资源调查专项,西藏地区高原湿地湖泊耐盐耐辐射微生物资源调查及多样性研究,2015-201965万元,子课题主持

10. 中国科学院,百人计划项目,2013-2016200万元,项目主持


野外考察与国际合作

多次组织和参与青藏高原、南北极、非洲-阿拉伯干旱区微生物生态观测网(AADMEN)科学考察;与美国、南非、沙特阿拉伯、澳大利亚、英国、丹麦、纳米比亚等国际知名大学和研究机构开展了深入的实质性合作研究,并被多所大学聘为客座教授并担任研究生指导委员会委员。