研究方向为全球变化生态学和群落生态学。

主要从事气候干旱化和人类管理对干旱区生态系统过程和功能研究。

招收硕士研究生，欢迎对生态恢复、生态系统功能，生态系统服务等方向感兴趣的同学报考。

2017.08-2021.07  新南威尔士大学，生态学专业，博士学位

2014.09-2017.07  北京师范大学，土地资源管理专业，硕士学位

2010.09-2014.07  延边大学，地理科学专业，学士学位

2022.02-今北京师范大学地理科学学部讲师

2017-今：  主持Holsworth Wildlife Research Endowment ($13320),Oatley Flora & Fauna Research Fund ($2000), Australia Wildlife SocietyResearch Grants ($1500) 开展“澳大利亚木本植物群落沿干旱梯度的变化机制”研究

2019：        参与USGS John Wesley Powell Center for Analysis andSynthesis“土壤结皮的生态系统功能及其对气候变化的响应研究”

2018-2019:  参与澳大利亚新南威尔士州政府“入侵动物对高山森林的影响”评估

2015-2017:  参与国家自然科学基金重大计划“黑河流域生态系统结构特征与过程集成及生态情景研究”，子专题“黑河下游荒漠河岸林生态水文参数集成”

2014-2015:  参与国家自然科学基金重大课题“黄土高原草灌生态系统对土壤水变化的响应机制”，子专题“黄土高原草灌生态系统与土壤水分关系的区域分异

学术论文

[1]   Ding, J., Travers, S. K., Eldridge, D. J. (2022). Microbialcommunities are associated with indicators of soil surface condition across acontinental gradient. Geoderma, 405, 115439.

[2]   Ding, J., Eldridge, D.J. (2022). Roadside verges support greater ecosystem functions than adjacentagricultural land in a grassy woodland. Journalof Environmental Management, 308, 114625.

[3]   Ding, J., Eldridge, D.J. (2022).Drivers of soilbiodiversity vary with organism type along an extensive aridity gradient. Applied Soil Ecology, 170, 104271.

[4]   Ding, J., Travers, S. K., Eldridge, D. J. (2021). Growwider canopies or thicker stems: variable response of woody plants toincreasing dryness. Global Ecology and Biogeography, 30, 183-195.

[5]   Ding, J., Delgado-Baquerizo, M., Wang, J. T., Eldridge, D. J. (2021). Ecosystem functions are related to tree diversity in forests but soilbiodiversity in open woodlands and shrublands. Journal of Ecology, 109, 4158-4170.

[6]   Ding, J., Eldridge, D.J. (2021). Climate and plants regulate the spatial variation in soilmultifunctionality across a climatic gradient. Catena, 201, 105233.

[7]   Ding, J., Eldridge, D. J. (2021). Community-level responses to increasing dryness vary with plant growthform across an extensive aridity gradient. Journal of Biogeography, 48, 1788-1796.

[8]   Ding, J., Eldridge, D.J. (2021). The fertile island effect varies with aridity and plant patch typeacross an extensive continental gradient. Plant and Soil, 459, 173-183.

[9]   Ding, J., Travers, S. K., Eldridge, D. J. (2021).Occurrence of Australian woody species is driven by soil moisture and availablephosphorus across a climatic gradient. Journal of Vegetation Science, 32, e13095.

[10] Eldridge, D. J., Ding, J.* (2021). Remove orretain: ecosystem effects of woody encroachment and removal are linked to plantstructural and functional traits. New Phytologist, 229, 2637-2646.

[11] Eldridge, D.J., Mallen-Cooper, M., Ding, J. * (2021). Biocrust functional traitsreinforce runon-runoff patchiness in drylands. Geoderma, 400, 115152.

[12] Eldridge, D.J., Ding, J.* (2021). Limited long-term effectiveness of roller-choppingfor managing woody encroachment. Restoration Ecology, 29, e13274.

[13] Ding, J., Travers, S. K., Delgado-Baquerizo, M., Eldridge,D. J. (2020). Multiple trade-offs regulate the effects of woody plant removalon biodiversity and ecosystem functions in global rangelands. Global ChangeBiology, 26, 709-720.

[14]  Ding, J., Eldridge, D. J. (2020). Biotic and abioticeffects on biocrust cover vary with microsite along an extensive ariditygradient. Plant and Soil, 450, 429-441.

[15]  Eldridge, D. J., Ding, J.*, Travers, S. K.(2020). Feral horse activity reduces environmental quality in ecosystemsglobally. Biological Conservation, 241, 108367.

[16]  Zhao, W., Ding, J., Wang, Y., Jia, L., Cao,W., Tarolli, P. (2020). Ecological water conveyance drives human-water systemevolution in the Heihe watershed, China. Environmental Research, 182, 109009.

[17] Ding, J., Eldridge, D. J. (2019). Contrasting global effects of woody plant removalon ecosystem structure, function and composition. Perspectives in PlantEcology, Evolution and Systematics, 39, 125460.

[18] Ding, J., Zhao, W., Fu, B., Wang, S., Fan, H. (2018). Variability of Tamarixspp. characteristics in riparian plant communities are affected by soilproperties and accessibility of anthropogenic disturbance in the lower reachesof Heihe River, China. Forest Ecology and Management, 410, 174-186.

[19] Ding, J., Zhao, W., Daryanto, S., Wang, L., Fan, H., Feng,Q., Wang, Y. (2017). The spatial distribution and temporal variation ofdesert riparian forests and their influencing factors in the downstream HeiheRiver Basin, China. Hydrology and Earth System Sciences, 21, 2405-2419.

[20] Ding, J., Zhao, W. (2016). Comparing Chinese andInternational studies of riparian Forests: A bibliometric Survey (1981–2014). ActaEcologica Sinica (生态学报英文版). 36: 377-385.

[21] 丁婧祎, 赵文武, 王军, 房学宁. 降水和植被变化对径流影响的尺度效应——以陕北黄土丘陵沟壑区为例[J]. 地理科学进展, 2015, 34(8):1039-1051.

[22] 丁婧祎, 赵文武, 房学宁. 社会水文学研究进展[J].应用生态学报,2015(4):1055-1063.

[23] 丁婧祎, 赵文武. 生态恢复评价研究进展与展望:第5届国际生态恢复学会大会会议述评[J]. 应用生态学报, 2014, 25(9): 2716-2722.

专著参编

黑河流域植被格局与生态水文适应机制. 2020. 北京. 科学出版社. 第四章参编.

2021: Dean’s Award for Outstanding PhD Theses, University of New South Wales

2020: AGU Travel Grant, American Geophysical Union

2019: Outstanding Poster Prize, ESA 2019 Conference

2017: 国家建设高水平大学公派研究生奖学金（攻博），国家留学基金委员会

2017: 北京市优秀毕业生，北京市教育委员会

2012: 国家奖学金，教育部