王秀君，女，汉族，1962年5月生，教授、博士生导师,北京师范大学高层次引进人才，全球变化与地球系统科学研究院首席科学家。先后于1994年和2002年获得澳大利亚墨尔本大学、塔斯马尼亚大学双博士学位，于2002年-2005年在美国莫斯兰丁海洋实验室、马里兰大学做博士后，2005-2014年马里兰大学Principal Investigator。长期从事有关生物地球化学方面的研究，重点研究海洋和陆地生态系统中碳、氮循环及其对气候变化的响应与反馈机理，具备实地观测、同位素技术应用和模式模拟等研究技能，擅长碳、氮循环中关键生物地球化学过程的定量分析。曾主持过多项科研项目，其中包括3项美国NASA有关海洋碳循环的项目，共发表了高质量的SCI论文50余篇（2014-2015年20篇)，他人引用次数1000余次。现担任亚洲大洋洲地学学会Biogeosciences Section主席，是近20个SCI期刊的审稿人，数个学术期刊的编辑/编委。

陆地碳循环：重点研究中国北方碱性土壤中无机碳的累积、转化过程及关键驱动机制 内陆水体碳循环：主要研究湖泊、河流水体及沉积物中各形态碳的时空演变及人类活动、气候变化的影响 海洋碳循环模拟：包括全球海洋、热带海洋及中国近海生态过程、生物地球化学过程和碳循环过程模式模拟、有关卫星遥感数据的应用分析以及机理研究

理事会成员: Strategy Review Committee, Asian Oceania Geosciences Society 分会主席/副主席：BG Section, Asian Oceania Geosciences Society (2014-2017) 学术期刊编辑/编委:Scientific Reports; PLoS ONE; Geoscience Letters

Wang* XJ, Zheng HN, Wu LP, Ding XD, Lu TP, 2023. Responses of soil organic and inorganic carbon to organic and phosphorus fertilization in a saline ? alkaline paddy field. Geoscience Letters, doi.org/10.1186/s40562-023-00268-9. Q2 Wang K, Wang* XJ, Murtugudde R, Zhang D, Zhang R-H. Sensitivity of asymmetric oxygen minimum zones to mixing intensity and stoichiometry in the tropical Pacific using a basin-scale model (OGCM-DMEC V1.4). Geoscientific Model Development 2022; 15: 1017-1035. Q1 Wang XW, Wang* XJ, You Z-J, 2021. Variations of chlorophyll?a and particulate organic carbon in the Yellow?Bohai Sea: in response to the Typhoon Lekima event. Geoscience Letters, 8:13, doi.org/10.1186/s40562-021-00201-y Q2 Wu LP, Zheng HN Wang* XJ, 2021. Effects of soil amendments on fractions and stability of soil organic matter in saline-alkaline paddy. Journal of Environment Management, 294 (2021) 112993Q1 Guo Y, Wang* XJ, Li XL, et al., 2021. Impacts of land use and salinization on soil inorganic and organic carbon in the middle-lower Yellow River Delta. Pedosphere, 3196): 839-848. Q2 Lu TP, Wang* XJ, Du ZL, Wu LP, 2021. Impacts of continuous biochar application on major carbon fractions in soil profile of North China Plain’s cropland: in comparison with straw incorporation. Agriculture, Ecosystems and Environment, 315, 107445.Q1 Zhang KJ, Wang* XJ, Wu LP, et al., 2021. Impacts of salinity on the stability of soil organic carbon in the cropland of Yellow River Delta. Land Degradation & Development, 32:1873-1882.Q1 Lu TP, Wang* XJ, Zhang WX 2020. Total and dissolved soil organic and inorganic carbon and their relationships in typical loess cropland of Fengu Basin. Geoscience Letters, 7:17, doi.org/10.1186/s40562-020-00167-3.Q3 Yu J, Wang* XJ, Murtugudde R, Tian F, Zhang, R.-H. 2021. Interannualto-decadal variations of particulate organic carbon and the contribution of phytoplankton in the tropical Pacific during 1981–2016: a model study. Journal of Geophysical Research: Oceans, 126, e2020JC016515. https://doi.org/10.1029/2020JC016515 Wang* XJ, Wang JY, Wang JP 2021. Seasonality of soil respiration under gypsum and straw amendments in an arid saline-alkali soil. Journal of Environment Management, 277 (2021) 111494Q1 Wang* XJ, Yu J, Fan H 2020. Spatial and seasonal variability of surface particulate inorganic carbon and relationship with particulate organic carbon in the Yellow-Bohai Sea. Journal of Oceanography, 76: 327-339. Lu TP, Wang* XJ, Xu MG, et al., 2020. Dynamics of pedogenic carbonate in the cropland of the North China Plain: Influences of intensive cropping and salinization. Agriculture, Ecosystems and Environment, 292:106820, https://doi.org/10.1016/j.agee.2020.106820.Q1 Zhang WX, Wang* XJ, Lu TP, et al., 2020. Influences of soil properties and hydrological processes on soil carbon dynamics in the cropland of North China Plain. Agriculture, Ecosystems and Environment, 292:106886, https://doi.org/10.1016/j.agee.2020.106886.Q1 Yu J, Wang* XJ, Fan H, Zhang R-H 2019. Impacts of physical and biological processes on spatial and temporal variability of particulate organic carbon in the North Pacific Ocean during 2003–2017. Scientific Reports, 9: 16493, doi:10.1038/s41598-019-53025-4 Tian F, Zhang R-H, Wang XJ 2019. Factors affecting interdecadal variability of air–sea CO2 fluxes in the tropical Pacific, revealed by an ocean physical–biogeochemical model. Climate Dynamics, doi:10.1007/s00382-019-04766-5. Tian F, Zhang R-H, Wang XJ 2018. A positive feedback onto ENSO due to Tropical Instability Wave (TIW)-induced chlorophyll effects in the Pacific. Geophysical Research Letters, doi:10.1029/2018GL081275Q1 Wang JY, Wang* XJ, Wang JP 2018. Profile distribution of CO2 in an arid saline-alkali soil with gypsum and wheat straw amendments: a two-year incubation experiment. Scientific Reports, 8: 11939, doi:10.1030/s41598-018-30312-0.Q3 Yu ZT, Wang* XJ, Han GX, Liu XQ, Zhang EL 2018. Organic and inorganic carbon and their stable isotopes in surface sediments of the Yellow River Estuary. Scientific Reports, 8: 10825, doi:10.1038/s41598-018-29200-4. Fan H, Wang* XJ, Zhang HB, Yu ZT 2018. Spatial and temporal variations of particulate organic carbon in the Yellow-Bohai Sea over 2002-2016: Anthropogenic and climate impacts. Scientific Reports, 8: 7971, doi:10.1038/s41598-018-26373-w.Q3 Shi HJ, Wang* XJ, Xu MG, Zhnag HB, Luo YM 2017. Characteristics of soil C:N ratio and δ13C in wheat-maize cropping system of the North China Plain and influences of the Yellow River. Scientific Reports,7: 16854, doi:10.1038/s41598-017-17060-3.Q3 Shi HJ, Wang* XJ, Zhao YJ, Xu MG, Li DW, Guo Y 2017. Relationship between soil inorganic carbon and organic carbon in the wheat-maize cropland of the North China Plain. Plant and Soil, 418: 423-436, DOI: DOI 10.1007/s11104-017-3310-1.Q1 Guo Y, Wang* XJ, Li XL, Wang JP, Xu MG, Li DW 2016, Dynamics of soil organic and inorganic carbon in the cropland of upper Yellow River Delta, China. Scientific Reports, 6: 35105, doi:10.1038/srep36105. Q3 Wang JP, Monger* C. Wang XJ, Serena M, Leinauer B 2016. Carbon sequestration in response to grassland–shrubland–turfgrass conversions and a test for carbonate biomineralization in desert soils, New Mexico, USA. Soil Science Society of America Journal, 80(6): 1591-1603.Q2 Li XL, Shi HQ, Xu WF, Liu W, Wang XJ, et al., 2015. Seasonal and spatial variations of bulk nitrogen deposition and the impacts on the carbon cycle in the arid/semiarid grassland of Inner Mongolia, China. PLoS ONE, 10: e144689, ?doi: 10.1371/journal.pone.0144689.Q3 Yu ZT, Wang* XJ, Zhang EL, Zhao CY, Liu XQ 2015. Spatial distribution and sources of organic carbon in the surface sediment of Bosten Lake, China. Biogeosciences, 12： 6605-6615.Q2 Yu ZT, Wang* XJ, Zhao CY, Lan HY 2015. Carbon burial in the Bosten Lake over the past century: impacts of climate change and human activity. Chemical Geology, 419: 132-141.Q2 Wang* XJ, Wang JP, Xu MG, Zhang WJ, Fan TL, Zhang J, 2015. Carbon accumulation in arid croplands of northwest China: pedogenic carbonate exceeding organic carbon. Scientific Reports, 5: 11439, doi:10.1038/srep11439.Q2 Wang JZ, Wang* XJ, Xu MG, Zhang WJ, Yang XY, Huang SM 2015. Contributions of wheat and maize residues to soil organic carbon under long-term rotation in north China. Scientific Reports, 5: 11409, doi:10.1038/srep11409.Q2 Wang* XJ, Murtugudde R, Hackert E Wang J and Beauchamp J 2015. Seasonal to decadal variations of sea surface pCO2 and sea-air CO2 flux in the equatorial oceans over 1984-2013: A basin-scale comparison of the Pacific and Atlantic Oceans. Global Biogeochemical Cycles, 29: doi:10.1002/2014GB005031.Q1 Wang* XJ, Murtugudde R 2015. Distributions of inorganic nitrogen and biological production in the equatorial Pacific: a basin-scale model sensitivity study of nitrification. Geoscience Letters, 2:3, doi:10.1186/s40562-015-0022-3. Monger HC, Kraimer RA, Khresat S, Cole DR, Wang XJ, Wang JP 2015. Sequestration of inorganic carbon in soil and groundwater. Geology, 43: 375-378.Q1 Wang JP, Wang* XJ, Zhang J, Zhao CY 2015. Soil organic and inorganic carbon and stable carbon isotopes in Yanqi Basin of Northwestern China. European Journal of Soil Science, 66: 95-103, doi: 10.1111/ejss.12188. Q1 Zhang F, Wang* XJ, Guo TW, Zhang PL, Wang JP 2015. Soil organic and inorganic carbon in the Loess profiles of Lanzhou area: implications of deep soils. Catena, 126: 68-74.Q2 Peng DM, Wang* XJ, Zhao CY, Wu XR, Jiang FQ, Chen PX 2014. Characterizing Air Temperature Changes in the Tarim Basin over 1960–2012. PLoS ONE, 9: e11223, ?doi: 10.1371/journal.pone.0112231.Q3 Yu ZT, Liu XQ, Wang Y, Chi ZQ, Wang XJ, Lan HY 2014. A 48.5-ka climate record from Wulagai Lake in Inner Mongolia, Northeast China. Quaternary International, 333: 13-19. Q3 Cong RH, Wang XJ, Xu MG, Ogle SM, Parton WJ 2014. Evaluation of the CENTURY model using long-term fertilization trials under corn-wheat cropping systems in the typical croplands of China. PLoS ONE, 9(4): e95142. doi:10.1371/journal.pone.0095142.Q3 Wang* XJ, Xu MG, Wang JP, Zhang WJ, Yang XY, Huang SM, and Liu H 2014. Fertilization enhancing carbon sequestration as carbonate on arid cropland: assessments of long-term experiments in northern China. Plant and Soil, 380: 89-100, doi:10.1007/s11104-014-2077-x.Q1 Zhang J, Wang* XJ, Wang JP, Wang WX 2014. Carbon and nitrogen contents in typical plants and soil profiles in the Yanqi Basin of northwest China. Journal of Integrative Agriculture, 13: 648-656.Q4 Zhang J, Wang* XJ, Wang JP 2014. Impact of land use change on profile distributions of soil organic carbon fractions in the Yanqi Basin. Catena, 115: 79-84.Q2 Wang J.P., Wang* XJ, Zhang J 2013. Evaluating loss-on-ignition for determinations of soil organic and inorganic carbon in the Yanqi Basin of Northwestern China. Pedosphere, 23: 593-599.Q2 Wang* XJ, Wang JP, Zhang J, 2013. Comparisons of three methods for organic and inorganic carbon in calcarous soils of northwest China. PLoS ONE, 7(8): e44334. doi:10.1371/journal.pone.0044334.Q3 Wang* XJ, Murtugudde R, Hackert E and Mara?ón E, 2013. Phytoplankton carbon and chlorophyll distributions in the equatorial Pacific and Atlantic: A basin-scale comparative study. Journal of Marine System, 109-110: 138-148.Q3 Cong RH, Wang* XJ, Xu MG, Zhang WJ, Xie LJ, Yang XY, Huang SM, Wang BW 2012. Dynamics of soil carbon to nitrogen ratio changes under long-term fertilizer addition in wheat-corn doublecropping systems of China. European Journal of Soil Science, 63: 341-350.Q1 专著 Carbon Cycle in the Changing Arid Lands—Yanqi Basin and Bosten Lake. Editors: Wang XJ, Yu ZT, Wang JP, Zhang J. Publisher: Springer Nature, 2018. 黄渤海及其海岸带碳循环过程与调控机制，编辑：王秀君 韩广轩 王菊英，科学出版社，2019. 专著章节 卢同平 王秀君 郭洋 李远 骆永明. 《黄渤海及其海岸带碳循环过程与调控机制》：黄河三角洲土地利用方式对土壤碳分布的影响, 科学出版社，2019. 王钧漪 王秀君 韩广轩. 《黄渤海及其海岸带碳循环过程与调控机制》：黄河三角洲盐碱湿地土壤CO2浓度及地表CO2通量的动态变化, 科学出版社，2019. 樊航 王秀君 章海波. 《黄渤海及其海岸带碳循环过程与调控机制》：黄渤海水体颗粒碳2003~2016年时空演变规律, 科学出版社，2019. 王秀君 韩广轩 王菊英. 《黄渤海及其海岸带碳循环过程与调控机制》：黄渤海及其海岸带碳循环综述, 科学出版社，2019. Wang* XJ, Yu ZT, Wang JP, Zhang J. The carbon cycle in Yanqi Basin and Bosten Lake: introduction, in “Carbon Cycle in the Changing Arid Lands—Yanqi Basin and Bosten Lake”, Edited by Wang XJ, Yu ZT, Wang JP, Zhang J. Springer Nature, 2018. Wang JY, Wang* XJ, Wang JP, Lu TP. Dynamics of soil CO2 and CO2 efflux in arid soil of Yanqi Basin, in “Carbon Cycle in the Changing Arid Lands—Yanqi Basin and Bosten Lake”, Edited by Wang XJ, Yu ZT, Wang JP, Zhang J. Springer Nature, 2018. Wang* XJ, Wang JP, Wang JY. Distribution of pedogenic carbonate and relationship with soil organic carbon in Yanqi Basin, in “Carbon Cycle in the Changing Arid Lands—Yanqi Basin and Bosten Lake”, Edited by Wang XJ, Yu ZT, Wang JP, Zhang J. Springer Nature, 2018. Wang* XJ, Wang JP, Shi HJ, Guo Y. Carbon sequestration in arid lands: a mini review, in “Carbon Cycle in the Changing Arid Lands—Yanqi Basin and Bosten Lake”, Edited by Wang XJ, Yu ZT, Wang JP, Zhang J. Springer Nature, 2018.