个人简历

白娥，教授，博士生导师。国家自然科学基金委“杰出青年”基金获得者。主要从事土壤地理学和全球变化生态学研究，采用稳定性同位素技术研究土壤生物地球化学循环。先后主持科技部青年973项目等国家级项目十余项，在Nature Communications, Science Advances等SCI期刊发表论文100余篇，授权专利2项，担任Global Change Biology、Ecology Letters、Global Biogeochemical Cycles等期刊副主编或编委。曾连续两次获得中国科学院优秀导师奖，中国科学院百篇优博指导教师。 教育背景 1996.09-2000,06，南开大学环境科学系，学士学位 2001.08-2007,06，Ecosystem Science & Management, Texas A&M Uniersity，博士学位 工作经历 2007.09–2008.01，Department of Ecosystem Science & Management, Texas A&M University, 博士后 2008.01–2010.02，Department of Land, Air and Water Resources, University of California, 博士后 2010.02–2018.12，中国科学院沈阳应用生态研究所, 研究员 2018.12 -至今， 东北师范大学地理科学学院, 教授 2019.09 -至今， 东北师范大学地理科学学院, 院长 2022.12 -至今， 吉林省第十四届人民代表大会常务委员会委员，环境与资源保护委员会委员 获奖与荣誉 • 国家自然科学基金杰出青年科学基金获得者(2023) • 东北师范大学首届“卓越青年研究生导师” (2023) • 中国科技期刊卓越行动计划年度优秀审稿人(2022) • 吉林省“长白山学者”特聘领军人才(2021) • 中国地理学会青年科技奖(2019) • 吉林省第七批拔尖创新人才(2019) • 吉林省享受第十五批省政府津贴专家（省突贡）(2019) • 中国科学院优秀导师奖(2015、2016) • 国家自然科学基金优秀青年科学基金获得者(2015) • 中国生态学会第四届青年科技奖(2015) • 中共中央组织部“万人计划”青年拔尖人才(2014) • 中国科学院百人计划 (2010) • Tom Slick Fellow, Texas A&M University (2005-2006) • Wasko Fellow, Texas A&M University (2005-2006) • Regents Fellow, Texas A&M University (2001-2002) 承担项目 • 2024-2028: 土壤微生物驱动的养分循环，国家自然科学基金委杰出青年基金，42325101， 项目负责人 • 2022-2026: 东北天然次生林生态产品形成和维持的凋落物-土壤微生物作用机制，重点研发项目《东北森林生态产品供给能力提升技术及示范》子课题，2022YFF1300501，子课题负责人 • 2019-2024: 重大生态工程的温室气体效应，重点研发项目《典型脆弱区生态工程气候效应及其适应全球变化对策研究》课题《重大生态工程的温室气体效应》，2019YFA0607301，课题负责人 已结题项目 • 2020-2023: 活性氮在森林土壤中的存留机制，国家自然科学基金委面上项目，41971058， 项目负责人 • 2016-2020：同位素示踪微生物氮在森林土壤中的去向，中科院前沿科学重点研究计划，QYZDB-SSW-DQC006，项目负责人 • 2016-2020：中国北方森林和草地生态系统碳氮耦合循环与碳源汇效应研究，国家重点研发计划，2016YFA060080，课题骨干 • 2015-2019：中组部万人计划“青年拔尖”人才资助计划，项目负责人 • 2016-2018：全球变化生态学研究，国家自然科学基金委优青项目，31522010，项目负责人 • 2014-2018：森林生态系统活性氮循环机制及其环境效应研究，科技部青年973项目，2014CB954400，项目负责人 • 2014-2018：土壤-微生物系统功能及其调控土壤生物，中国科学院战略性先导科技专项（B类），XDB15010301，课题骨干 • 2012-2014: CO2升高对温带森林土壤氮循环多过程的影响机制，国家自然科学基金委面上项目，41175138， 项目负责人 • 2011-2015: 天然森林和草地土壤固碳功能与固碳潜力研究，科技部973项目，2011CB403202，课题骨干 • 2012-2014: 新碳在大气-植物-土壤系统中的分配机制-应用同位素脉冲标记技术，国家自然科学基金委青年项目，31100326，项目负责人 • 2010-2014: 全球变化背景下东北森林生态系统的氮循环和反硝化作用研究，中科院百人计划项目，KZCX2-YWBR-20，项目负责人 已发表SCI论文 1) Fan, X.#, Qu, Y.*, Zhang, J., Bai, E.* (2024). China's vegetation restoration programs accelerated vegetation greening on the Loess Plateau. Agricultural and Forest Meteorology, 350: 109994 2) Gao, D.#, Luster, J., Zürcher, A., Arend, M., Bai, E., Gessler, A., Rigling, A., Schaub, M., Hartmann, M., Werner, R., Joseph, J., Poll, C., Hagedorn, F.* (2024). Drought resistance and resilience of rhizosphere communities in forest soils from the cellular to ecosystem scale - insights from 13C pulse labeling. New Phytologist. doi: 10.1111/nph.19612 3) Wang, H.#, Gao, D.#, Hu, G., Xu, W., Zhuge, Y., Bai, E.* (2024). Drying-rewetting events enhance the priming effect on soil organic matter mineralization by maize straw addition. Catena, 238:07872. 4) Qu, L.#, Wang, C.#, *, Manzoni, S., Dacal, M., Maestre, F., Bai, E. (2024). Stronger compensatory thermal adaptation of soil microbial respiration with higher substrate availability. The ISME Journal. 18(1), wrae025. 5) Gao, D.#, Bai, E.*, Wasner, D. and Hagedorn, F. (2024). Global prediction of soil microbial growth rates and carbon use efficiency based on the metabolic theory of ecology. Soil Biology and Biochemistry, 190: 109315. 6) Wang, X.#, Wang, C.#, *, Fan, X.#, Sun, L.#, Sang, C.#, Jiang, P., Fang, Y. and Bai, E.* (2024). Mineral composition controls the stabilization of microbially derived carbon and nitrogen in soils: Insights from an isotope tracing model. Global Change Biology, 30(1): 17156-17156. 7) Liu, B.#, Fan, X.#, Meng, D.#, Liu, Z., Gao, D.#, Chang, Q.#, Bai, E.* (2024). Ectomycorrhizal trees rely on nitrogen resorption less than arbuscular mycorrhizal trees globally. Ecology Letters, 27(1): e14346. 8) Fan, X. #, Bai, E.*, Zhang, J., Wang, X., Yuan, W., Piao, S. (2023). The carbon transfer from plant to soil is more efficient in less productive ecosystems. Global Biogeochemical Cycles, 37(8): e2023GB007727. 9) Yang, Q.#, Liu, Z., Bai, E. * (2023). Comparison of carbon and nitrogen accumulation rate between bog and fen phases in a pristine peatland with the fen-bog transition. Global Change Biology, 29(6):6350–6366. 10) Zhang, K., Liu, R.*, Bai, E.*, Zhao, Z., Peyrotty, G., Fathy, D., Chang, Q., Liu, Z., Yang, K., Xu, C., Liu, Z. (2023). Biome responses to a hydroclimatic crisis in an Early Cretaceous (Barremian-Aptian) subtropical inland lake ecosystem, Northwest China. Palaeogeography, Palaeoclimatology, Palaeoecology, 6教育背景 1996.09-2000,06，南开大学环境科学系，学士学位 2001.08-2007,06，Ecosystem Science & Management, Texas A&M Univ22, 111596. 11) Yang, Q.#, Liu, Z., Houlton, B. Z., Gao, D.#, Chang, Q., Li, H., Fan, X.#, Liu, B.#, & Bai, E.* (2023). Isotopic evidence for increased carbon and nitrogen exchanges between peatland plants and their symbiotic microbes with rising atmospheric CO2 concentrations since 15,000 cal. year BP. Global Change Biology, 29:1939–1950. 12) Sun, L.#, Li, J., Qu, L.#, Wang, X.#, Sang, C.#, Wang, J., Sun, M., Wanek, W., Moorhead, D., Bai, E., Wang, C.#,* (2023). Phosphorus limitation reduces microbial nitrogen use efficiency by increasing extracellular enzyme investments, Geoderma, 432,116416. 13) Zhang, X., Pei, G., Zhang, T., Fan, X., Liu, Z., Bai, E.* (2023). Erosion effects on soil microbial carbon use efficiency in the mollisol cropland in northeast China. Soil Ecology Letters, 5, 230176. 14) Chang, Q., Xu, W., Peng, B.#, Jiang, P., Li, S#., Wang, C.#, Bai, E.* (2022). Dynamic and allocation of recently assimilated carbon in Korean pine (Pinus koraiensis) and birch (Betula platyphylla) in a temperate forest. Biogeochemistry 160, 395–407. 15) Gao, D.#, Bai, E.*, Wang, S., Zong, S., Liu, Z., Fan, X.#, Zhao, C. and Hagedorn, F. (2022). Three-dimensional mapping of carbon, nitrogen, and phosphorus in soil microbial biomass and their stoichiometry at the global scale. Global Change Biology, 28, 6728–6740. 16) Liu, B.#, Gao, D.#, Chang, Q., Liu, Z., Fan, X.#, Meng, D.#, Bai, E.* (2022). Leaf enzyme plays a more important role in leaf nitrogen resorption efficiency than soil properties along an elevation gradient. Journal of Ecology, 110, 2603–2614. 17) Ji, W., Huang, Y., Qian, X., Bai, E., Smith, CK, Li, Z.* (2022). Conversion from farmland to orchards has minor effects on nitrogen biological processes in deep loess deposits. Agriculture, Ecosystems & Environment, 338, 108111. 18) Harris, E., Yu, L., Wang, Y., Mohn, J., Henne, S., Bai, E., Barthel, M., Bauters, M., Boeckx, P., Dorich, C., Farrell, M., Krummel, P., Loh, Z., Reichstein, M., Six, J., Steinbacher, M., Wells, N., Bahn, M., Rayner, P. (2022). Warming and redistribution of nitrogen inputs drive an increase in terrestrial nitrous oxide emission factor. Nature Communications, 13, 4310. 19) Cong, Y., Saurer, M., Bai, E., Siegwolf, R., Gessler, A., Liu, K., Han, H., Dang, Y., Xu, W., He, H.*, Li, M.* (2022). In situ 13CO2 labeling reveals that alpine treeline trees allocate less photoassimilates to roots compared with low-elevation trees. Tree Physiology, tpac048. 20) Wang, Z.#, Yang, J.#, Wang, C.#, Bai, E.* (2022). Oxygen gas derived oxygen does not affect the accuracy of 18O-labelled water approach for microbial carbon use efficiency. Soil Biology and Biochemistry. 168: 108649. 21) Yang, Q.#, Li, H., Zhao, H.*, Chambers, F., Bu, Z., Bai, E., Xu, G. (2022). Plant assemblages-based quantitative reconstruction of past mire surface wetness: A case study in the Changbai Mountains region, Northeast China. Catena. 216: 106412. 22) Cao, Y.#, Liu, X., Wang, C., Bai, E., Wu, N*. (2022). Climate-controlled biogeochemical cycle of rare earth elements in soil of northern China. Ecological Processes. 11, 1. 23) Gurmesa, G., Wang, A., Li, S., Peng, S., Vries, W., Gundersen, P, Ciais, P. Phillips, O., Hobbie, E., Zhu, W., Nadelhoffer, K., Xi, Y., Bai, E., Sun, T., Chen, D., Zhou, W., Zhang, Y., Guo, Y., Zhu, J., Duan, L., Li, D., Koba, K., Du, E., Zhou, G., Han, X., Han, S., Fang, Y. (2022). Retention of deposited ammonium and nitrate and its impact on the global forest carbon sinks. Nature Communications. 13, 880. 24) Liu, Z., Liu, S., Gao, D.*, Li, Y., Tian, Y., Bai, E.* (2022). An optical sensing platform for beta glucosidase activity using protein inorganic hybrid nanoflowers. Journal of Fluorescence. 32, 669–680. 25) Chen, Y., Zhang, Y., Bai, E., Piao, S., Chen, N., Zhao, G., Zheng, Z., Zhu, Y. (2021). The stimulatory effect of elevated CO2 on soil respiration is unaffected by N addition. Science of the Total Environment. 813(311):151907. 26) Sang, C.#, Xia, Z.*, Sun, L.#, Sun, H., Jiang, P., Wang, C.#, *, Bai, E. (2021). Responses of soil microbial communities to freeze–thaw cycles in a Chinese temperate forest. Ecological Processes. 10, 66. 27) Sun, J., Wang, C.#, *, Yu, H., Liu, D., Houlton, B., Wang, S., Zeng, X.*, Bai, E., Fang, Y., Jia, Y. (2021). Biotic and abiotic controls on dinitrogen production in coastal sediments. Global Biogeochemical Cycles. doi: 10.1029/2021GB007069 28) Wang, X.#, Dai, W., Filley, T., Wang, C.#, Bai, E.* (2021). Aboveground litter addition for five years changes the chemical composition of soil organic matter in a temperate deciduous forest. Soil Biology and Biochemistry. 161: 108381. 29) Gao, D.#, Liu, Z.*, Bai, E.* (2021). Effects of in situ freeze-thaw cycles on winter soil respiration in mid-temperate plantation forests. Science of the Total Environment. 793: 148567. 30) Gao, D.#, Bai, E.*, Yang, Y., Zong, S., Hagedorn, F. (2021). A global meta-analysis on freeze-thaw effects on soil carbon and phosphorus cycling. Soil Biology and Biochemistry. 159: 108283. 31) Zhang, Y.*, Pan, B., Lam, S.*, Bai, E., Hou, P., Chen, D. (2021). Predicting the ratio of nitrification to immobilization to reflect the potential risk of nitrogen loss worldwide. Environmental Science and Technology, 55(11):7721-7730. 32) Dai, W., Peng, B.#, Liu, J. #, Wang, C.#, Wang, X.#, Jiang, P, Bai E.* (2021). Four years of litter input manipulation changes soil microbial characteristics in a temperate mixed forest. Biogeochemistry. 154:371–383. 33) Fan, X.#, Gao, D.#, Zhao, C., Wang, C.#, Qu, Y., Zhang, J., Bai E.* (2021). Improved model simulation of soil carbon cycling by representing the microbially derived organic carbon pool. The ISME Journal. 15: 2248–2263. 34) Wang, C.#, Qu, L.#, Yang, L., Liu, D., Morrissey, E., Miao, R., Liu, Z., Wang, Q., Fang, Y., Bai, E.* (2021). Large-scale importance of microbial carbon use efficiency and necromass to soil organic carbon. Global Change Biology. 27: 2039-2048. 35) Gao, D.#, Joseph, J., Werner, R.A., Brunner, I., Zurcher, A., Hug, C., Wang, A., Zhao, C., Bai, E., Meusburger, K., Gessler, A., Hagedorn, F.* (2021). Drought alters the carbon footprint of trees in soils-tracking the spatio-temporal fate of 13C-labelled assimilates in the soil of an old-growth pine forest. Global Change Biology. 27: 2491-2506. 36) Sanaei, A., Ali, A., Yuan, Z.*, Liu, S., Lin, F., Fang, S., Ye, J., Hao, Z., Loreau, M., Bai, E., Wang, X.* (2021). Context-dependency of tree species diversity, trait composition and stand structural attributes regulate temperate forest multifunctionality. Science of the Total Environment. 757: 143724. 37) Yuan, Z., Ali, A., Sanaei, A., Ruiz-Benito, P., Jucker, T., Fang, L., Bai, E., Ye, J., Lin, F., Fang, S., Hao, Z., Wang, X.* (2021). Few large trees, rather than plant diversity and acomposition, drive the above-ground biomass stock and dynamics of temperate forests in northeast China. Forest Ecology and Management. 481: 118698 38) Xia, Z., Yang, J.#, Sang, C.#, Wang, X.#, Sun, L.#, Jiang, P., Wang, C.#,*, Bai, E. (2020). Phosphorus reduces negative effects of nitrogen addition on soil microbial communities and functions. Microorganisms. 8:1828. 39) Dai, W., Bai, E.*, Li, W., Jiang, P., Dai, G., Zheng, X. (2020). Predicting plant–soil N cycling and soil N2O emissions in a Chinese old-growth temperate forest under global changes: uncertainty and implication. Soil Ecology Letters, 2, 73–82. 40) Chang, Q.†, Qu, G.#†, Xu, W., Wang, C.#, Cheng, W., Bai, E.* (2020). Light availability controls rhizosphere priming effect of temperate forest trees. Soil Biology and Biochemistry. 148:107895 (†: equal contribution) 41) Gao, D.#, Bai, E.*, Li, M., Zhao, C., Yu, K., Hagedorn, F. (2020). Responses of soil nitrogen and phosphorus cycling to drying and rewetting cycles: A meta-analysis. Soil Biology and Biochemistry. 148:107896 42) Wang, X.#, Wang, C.#,*, Cotrufo, M., Sun, L., Jiang, P., Liu, Z., Bai, E.* (2020). Elevated temperature increases the accumulation of microbial necromass nitrogen in soil via increasing microbial turnover. Global Change Biology. 26:5277–5289. 43) Qu, L. #, Wang, C.#,*, Bai, E.* (2020). Evaluation of the 18O-H2O incubation method for measurement of soil microbial carbon use efficiency. Soil Biology and Biochemistry. 20:107802 44) Pei, G.#, Liu, J.#, Peng, B.#, Wang, C.#, Jiang, P., Bai, E.* (2020). Non-linear coupling of carbon and nitrogen release during litter decomposition and its responses to nitrogen addition. Journal of Geophysical Research: Biogeosciences. e2019JG005462 45) Wang, C.#, Wang, X.#, Pei, G.#, Xia, Z., Peng, B.#, Sun, L.#, Wang, J., Gao, D.#, Chen, S., Liu, D., Dai, W., Jiang, P., Fang, Y., Liang, C., Wu, N., Bai, E. * (2020). Stabilization of microbial residues in soil organic matter after two years of decomposition. Soil Biology and Biochemistry. 141:107687. 46) Zhang, W., Zhang, X., Bai, E., Cui, Y., He, H.*, Zhang, X.* (2019). The strategy of microbial utilization of the deposited N in a temperate forest soil. Biology and Fertility of Soils. 56, 359–367. 47) Liu, Z.*, Tian, Y., Han, Y., Bai, E.*, Li, Y., Xu, Z., Liu, S* (2019). A “turn off-on” fluorescent nanoprobe consisting of CuInS2 quantum dots for determination of the activity of β-glucosidase and for inhibitor screening. Microchimica Acta. 186:806. (IF: 5.479) 48) Houlton, B.*, Almaraz, M., Aneja, V., Austin, A., Bai, E., Cassman, K., Compton, J., Davidson, E., Erisman, J., Galloway, J., Gu, B., Yao, G., Martinelli, L., Scow, K., Schlesinger, W., Tomich, T., Wang, C.#, Zhang, X. (2019). A world of cobenefits: Solving the global nitrogen challenge. Earth’s Future. 7, 865–872. 49) Sun, L.#, Xia, Z.*, Sang, C.#, Wang, X.#, Peng, B.#, Wang, C.#, Zhang, J., Muller, C., Bai, E.* (2019). Soil resource status affects the responses of nitrogen processes to changes in temperature and moisture. Biology and Fertility of Soils. 55: 629-641. 50) Pei, G.#, Liu, J.#, Peng, B.#, Gao, D.#, Wang, C. #, Dai, W.#, Jiang, P., Bai, E.* (2019). Nitrogen, lignin, C/N as important regulators of gross nitrogen release and immobilization during litter decomposition in a temperate forest ecosystem. Forest Ecology and Management. 440, 61-69. 51) Peng, B.#, Sun, J.#, Liu, J. #, Dai, W., Sun, L#., Pei, G. #, Gao, D.#, Wang, C#., Jiang, P., Bai, E.* (2019). N2O emission from a temperate forest soil during the freeze-thaw period: A mesocosm study. Science of the Total Environment. 648, 350-357. 52) Wang, H.#, Hu, G., Xu, W., Boutton, T., Zhuge, Y., Bai, E.* (2018). Effects of nitrogen addition on soil organic carbon mineralization after maize stalk addition. European Journal of Soil Biology. 89, 33–38. 53) Kong, J., Yang, J.*, Bai, E. (2018). Long-term effects of wildfire on available soil nutrient composition and stoichiometry in a Chinese boreal forest. Science of the Total Environment. 642, 1353 – 1361. 54) Gao, Q., Bai, E, Wang, J., Zheng, Z., Xia, J.*, You, W.* (2018). Effects of litter manipulation on soil respiration under short-term nitrogen addition in a subtropical evergreen forest. Forest Ecology and Management. 429, 77-83. 55) Sun, J.#, Dai, W., Peng, B.#, Liu, J.#, He, T., Jiang, P., Han, S., Bai, E.* (2018). Does the accelerated soil N cycling sustain N demand of Quercus mongolica after decade-long elevated CO2 treatment? Biogeochemistry. 139: 197-213. 56) Gao, D.#, Hagedorn, F., Zhang, L., Liu, J.#, Qu, G.#, Sun, J.#, Peng, B.#, Fan, Z.#, Zheng, J., Jiang, P., Bai, E.* (2018). Small and transient response of winter soil respiration and microbial communities to altered snow depth in a mid-temperate forest. 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Oecologia. 156:479-489. *通讯作者; #指导学生 已发表中文论文 1) 高德才, 白娥*. 冻融循环期间土壤氧化亚氮排放影响因素[J]. 植物生态学报, 2021, 45 (9): 1006-1023. 2) 白娥*, 薛冰. 土地利用与土地覆盖变化对生态系统的影响[J]. 植物生态学报, 2020, 44(5): 543-552. 3) 杨静怡#, 王旭#, 孙立飞#, 王超*, 白娥. 氮磷添加对长白山温带森林土壤微生物群落组成和氨基糖的影响[J]. 应用生态学报, 2020, 31 (6), 1948-1956. 4) 范珍珍#, 王鑫#, 王超#*, 白娥. 整合分析氮磷添加对土壤酶活性的影响[J]. 应用生态学报, 2018, 29 (4), 1266-1272. 5) 孙建飞#，戴崴巍，贺同鑫，彭勃#，姜萍，韩士杰，白娥*. 蒙古栎叶片及其土壤碳,氮同位素自然丰度对大气CO2浓度升高的响应[J]. 应用生态学报, 2017, 28(7), 2179-2185. 6) 曲桂芳#,徐文华,王会#,彭勃#,高德才#,孙建飞#,郑俊强, 姜萍,白娥*. 五角槭根系的负激发效应降低了异养呼吸及其温度敏感性[J]. 生态学杂志, 2016, 35(10): 2692-2698. 7) 孙建飞#,白娥*,戴崴巍,彭勃#,曲桂芳#,姜萍. 15N标记土壤连续培养过程中扩散法测定无机氮同位素方法改进[J]. 生态学杂志, 2014, 33(9): 2574-2580. 8) 李伟#,白娥*,李善龙#,孙建飞#,彭勃#,姜萍. 施氮和降水格局改变对土壤CH4和CO2通量的影响[J]. 生态学杂志, 2013, 32(8): 1947-1958. * 通讯作者; # 指导学生 社会服务  Subject Editor: Global Change Biology (2021-至今)  Associate Editor： Ecology Letters (2022-至今) Global Biogeochemical Cycles (2022-至今) Biogeochemistry (2016-至今)  编委： Journal of Plant Ecology (2015-至今) Soil Ecology Letters (2019-至今) Ecological Processes (2012-至今) Chinese Geographical Science (2022-至今) Frontiers in Forests and Global Change (2019-至今) Scientific Reports (2015-2019) 植物生态学报 (2016-至今) 应用生态学报 (2014-2020)  吉林省地理学会副理事长(2019-至今)  吉林省第十四届人民代表大会常务委员(2023.01-至今)  吉林省第十四届人民代表大会环境与资源保护委员会委员(2023.01-至今) 教学 现代自然地理学方法，东北师范大学 （2018年-至今） 科技论文写作 ，东北师范大学（2018年-至今） 博士生英文论文写作，中国科学院沈阳应用生态研究所（2011年-2016年）