丁婧禕檢視原始碼討論檢視歷史
丁婧禕,女,北京師範大學地理科學學部講師。
人物簡歷
教育經歷
2017.08-2021.07 新南威爾士大學,生態學專業,博士學位
2014.09-2017.07 北京師範大學,土地資源管理專業,碩士學位
2010.09-2014.07 延邊大學,地理科學專業,學士學位
工作經歷
2022.02-今北京師範大學地理科學學部講師
學術兼職
2021-今:擔任Journal of Arid Environments (Q3) 的諮詢編輯
2016-今:擔任國際期刊審稿人(Global Change Biology, Journal of Ecology, Plant and Soil, Science of the Total Environment, Journal of Environment Management, Land Degradation and Development, Ecological Indicator, Restoration Ecology, Geography and Sustainability)
研究方向
為全球變化生態學和群落生態學。
主要從事氣候乾旱化和草原灌叢化對乾旱區生態系統過程和功能研究。
招收2023年碩士研究生,歡迎對乾旱區生態過程、生態系統功能、生物多樣性、生態系統服務等方向感興趣的同學推免或報考。
科研項目
2023-2025:主持國家自然科學基金青年基金「內蒙古中部草原灌叢化對生態系統多功能性的影響及驅動機制研究」(32201324)
2022-2024:主持北京師範大學地表過程與資源生態國家重點實驗室自主研究項目「草原灌叢化對生產和生態功能權衡關係的影響」(2022-TS-02)
2022-2025:參與第三次新疆綜合科學考察「新疆重要草地資源調查與保護利用評估」(xjkk20220400)
2017-2021:主持Holsworth Wildlife Research Endowment ($13320),Oatley Flora & Fauna Research Fund ($2000), Australia Wildlife SocietyResearch Grants ($1500) 開展「澳大利亞木本植物群落沿乾旱梯度的變化機制」研究
2019: 參與USGS John Wesley Powell Center for Analysis andSynthesis「土壤結皮的生態系統功能及其對氣候變化的響應研究」
2018-2019: 參與澳大利亞新南威爾士州政府「入侵動物對高山森林的影響」評估
2015-2017: 參與國家自然科學基金重大計劃「黑河流域生態系統結構特徵與過程集成及生態情景研究」,子專題「黑河下游荒漠河岸林生態水文參數集成」
2014-2015: 參與國家自然科學基金重大課題「黃土高原草灌生態系統對土壤水變化的響應機制」,子專題「黃土高原草灌生態系統與土壤水分關係的區域分異」
學術成果
學術論文
[1] Ding, J., Travers, S. K., Eldridge, D. J. (2022). Microbial communities are associated with indicators of soil surface condition across a continental gradient. Geoderma, 405, 115439.
[2] Ding, J., Eldridge, D.J. (2022). Roadside verges support greater ecosystem functions than adjacent agricultural land in a grassy woodland. Journal of Environmental Management, 308, 114625.
[3] Ding, J., Eldridge, D.J. (2022).Drivers of soil biodiversity vary with organism type along an extensive aridity gradient. Applied Soil Ecology, 170, 104271.
[4] Ding, J., Travers, S. K., Eldridge, D. J. (2021). Grow wider canopies or thicker stems: variable response of woody plants to increasing 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 soil biodiversity 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 soil multifunctionality across a climatic gradient. Catena, 201, 105233.
[7] Ding, J., Eldridge, D. J. (2021). Community-level responses to increasing dryness vary with plant growth form 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 type across 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 available phosphorus across a climatic gradient. Journal of Vegetation Science, 32, e13095.
[10] Eldridge, D. J., Ding, J.* (2021). Remove or retain: ecosystem effects of woody encroachment and removal are linked to plant structural and functional traits. New Phytologist, 229, 2637-2646.
[11] Eldridge, D.J., Mallen-Cooper, M., Ding, J. * (2021). Biocrust functional traits reinforce runon-runoff patchiness in drylands. Geoderma, 400, 115152.
[12] Eldridge, D.J., Ding, J.* (2021). Limited long-term effectiveness of roller-chopping for 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 removal on biodiversity and ecosystem functions in global rangelands. Global Change Biology, 26, 709-720.
[14] Ding, J., Eldridge, D. J. (2020). Biotic and abiotic effects on biocrust cover vary with microsite along an extensive aridity gradient. Plant and Soil, 450, 429-441.
[15] Eldridge, D. J., Ding, J.*, Travers, S. K.(2020). Feral horse activity reduces environmental quality in ecosystems globally. Biological Conservation, 241, 108367.
[16] Zhao, W., Ding, J., Wang, Y., Jia, L., Cao,W., Tarolli, P. (2020). Ecological water conveyance drives human-water system evolution in the Heihe watershed, China. Environmental Research, 182, 109009.
[17] Ding, J., Eldridge, D. J. (2019). Contrasting global effects of woody plant removal on ecosystem structure, function and composition. Perspectives in Plant Ecology, Evolution and Systematics, 39, 125460.
[18] Ding, J., Zhao, W., Fu, B., Wang, S., Fan, H. (2018). Variability of Tamarix spp. characteristics in riparian plant communities are affected by soil properties and accessibility of anthropogenic disturbance in the lower reaches of 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 of desert riparian forests and their influencing factors in the downstream Heihe River Basin, China. Hydrology and Earth System Sciences, 21, 2405-2419.
[20] Ding, J., Zhao, W. (2016). Comparing Chinese and International studies of riparian Forests: A bibliometric Survey (1981–2014). Acta Ecologica Sinica (生態學報英文版). 36: 377-385.
[21] 丁婧禕, 趙文武, 王軍, 房學寧. 降水和植被變化對徑流影響的尺度效應——以陝北黃土丘陵溝壑區為例[J]. 地理科學進展, 2015, 34(8):1039-1051.
[22] 丁婧禕, 趙文武, 房學寧. 社會水文學研究進展[J].應用生態學報,2015(4):1055-1063.
[23] 丁婧禕, 趙文武. 生態恢複評價研究進展與展望:第5屆國際生態恢復學會大會會議述評[J]. 應用生態學報, 2014, 25(9): 2716-2722.
專著參編
黑河流域植被格局與生態水文適應機制. 2020. 北京. 科學出版社. 第四章參編.
獲獎情況
2022: Harper Prize 2021 Jounral of Ecology 最佳論文獎提名, British Ecological Society
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: 國家建設高水平大學公派研究生獎學金(攻博),國家留學基金委員會
2017: 北京市優秀畢業生,北京市教育委員會
2012: 國家獎學金,教育部[1]