姓名

冼超凡

性别

男

职称

副研究员

实验室职务

电话

010-62849815

传真

电子邮件

cfxian@rcees.ac.cn

专业

生态学

地址

北京市海淀区双清路18号生态科研楼412

简要介绍

博士，具有环境科学、环境经济学等领域研究背景，主要关注城市化对生态系统氮循环过程的影响机制，及其不同尺度下的生态风险评估与减污降碳对策

学习经历

博士：2013.9-2017.6 中国科学院生态环境研究中心

硕士：2010.9-2012.1 University of Reading (英国雷丁大学)

学士：2009.8-2010.8 University of Hertfordshire (英国赫特福德大学)

学士：2006.9-2010.7 天津理工大学

工作经历

2023.1-至今：中国科学院生态环境研究中心，副研究员

2019.7-2022.12：中国科学院生态环境研究中心，助理研究员

2017.7-2019.7：中国科学院生态环境研究中心，博士后

研究方向

城市与区域氮循环；生态系统风险与可持续发展

承担课题

国家重点研发计划，2022YFB3903701，子课题，超大城市碳源汇定量核算与生态系统价值评估理论与方法，2022-2026，主持；

第二次青藏高原科考，2019QZKK0308，“生态脆弱性与生态安全”专题“环境问题评估”，2022-2024，主持；

国家自然科学基金青年项目，42101290，整合生态基础设施的城市氮足迹核算方法及实证研究，2022-2024，主持

国家自然科学基金重点项目，71533005，城市复合生态系统人与自然耦合机制与调控方法，2016-2020，参与

自然资源部项目，生态文明意识指数研究，2021-2022，参与

院地合作项目，SZCG2017151338，深圳市陆域生态系统调查评估，2017-2020，参与

重要著作
与成果

发表学术论文（前三作者; *表示为通讯作者）

[1] Xian C, Gong C, Lu F, Wu H, Ouyang Z. (2023). The evaluation of greenhouse gas emissions from sewage treatment with urbanization: Understanding the opportunities and challenges for climate change mitigation in China's low-carbon pilot city, Shenzhen. Science of the Total Environment, 855, 158629.

[2] Gong C, Xian C*, Wu T, Liu J, Ouyang Z. (2023). Role of urban vegetation in air phytoremediation: differences between scientific research and environmental management perspectives. npj Urban Sustainability, 3(1), 24.

[3] Cui B, Xian C*, Han B, Shu C, Qian Y, Ouyang Z, Wang X. (2023). A high-resolution emission inventory of biogenic volatile organic compounds for rapidly urbanizing areas: A case of Shenzhen megacity, China. Environmental Pollution, 334, 122150.

[4] Liu Y, Lu F, Xian C, Ouyang Z*. (2023). Urban development and resource endowments shape natural resource utilization efficiency in Chinese cities. Journal of Environmental Sciences, 126, 806-816.

[5] Xian C, Fan Y, Zhang J, Zhang L. (2022). Assessing sustainable water utilization from a holistic view: A case study of Guangdong, China. Sustainable Cities and Society, 76, 103428.

[6] Xian C, Wu T, Lu F, Zhang J, Gong C, Ouyang Z^*. (2022). The nitrogen footprints of China’s major urban agglomerations: Understanding regional challenges to advance sustainable development. Environmental Research Letters, 17(4), 045020.

[7] Xian C, Yang S, Fan Y, Wu H, Gong C. (2022). Coupling efficiency assessment of food–energy–water (FEW) nexus based on urban resource consumption towards economic development: the case of Shenzhen megacity, China. Land, 11(10), 1783.

[8] Gong C, Xian C*, Ouyang Z. (2022). Assessment of NO₂ purification by urban forests based on the i-Tree Eco model: case study in Beijing, China. Forests, 13(3), 369.

[9] Zhang J, Shi Y, Xian C^*, Zhang L, Zou Z. (2022). How urbanization affect the ecosystem health of Tibet based on terrain gradients: A case study of Shannan, China. Ecosystem Health and Sustainability, 8(1), 2097449.

[10] Gong C, Xian C*, Ouyang Z. (2022). Isotopic composition (δ¹⁵N and δ¹⁸O) of urban forests in different climate types indicates the potential influences of traffic exhaust and relative humidity. Forests, 13(12), 2060.

[11] Xian C, Gong C, Lu F, Zhang L, Ouyang Z. (2021). Linking dietary patterns to environmental degradation: the spatiotemporal analysis of rural food nitrogen footprints in China. Frontiers in Nutrition, 8, 717640.

[12] Gong C^#, Xian C^#, Cui B, He G, Wei M, Zhang Z, Ouyang Z*. (2021). Estimating NOx removal capacity of urban trees using stable isotope method: A case study of Beijing, China. Environmental Pollution, 290, 118004. (Co-first author)

[13] Wang Y, Xian C*, Jiang Y, Pan X, Ouyang Z. (2020). Anthropogenic reactive nitrogen releases and gray water footprints in urban water pollution evaluation: the case of Shenzhen City, China. Environment, Development and Sustainability, 22(7):6343-6361.

[14] Gong C, Xian, C, Su Y, Ouyang Z*. (2019). Estimating the nitrogen source apportionment of Sophora japonica in roadside green spaces using stable isotope. Science of The Total Environment, 689, 1348-1357.

[15] Xian C, Zhang X, Zhang J, Fan Y, Zheng H, Salzman J, Ouyang Z*. (2019). Recent patterns of anthropogenic reactive nitrogen emissions with urbanization in China: dynamic, major problems, and potential solutions. Science of Total Environment, 656(15):1071-1081.

[16] Xian C, Wang L, Lu F, Zheng H, Ouyang Z. (2018). The applications of ‘N Offset’ mechanism in the evaluation of reactive nitrogen emissions reduction in a typical China’s urban agglomeration. Ecology and Evolutionary Biology, 3(2):5-15.

[17] Fan Y, Qiao Q*, Xian C, Xiao Y, Fang L. (2017). A modified ecological footprint method to evaluate environmental impacts of industrial parks. Resource, Conservation and Recycling, 125:293-299.

[18] Xian C, Ouyang Z*, Lu F, Xiao Y, Li Y. (2016). Quantitative evaluation of reactive nitrogen emissions with urbanization: a case study in Beijing megacity, China. Environmental Science and Pollution Research, 23(17): 17689-17701.

[19] Xian C, Ouyang Z*, Li Y, Xiao Y, Ren Y. (2016). Variation in nitrate isotopic signatures in sewage for source apportionment with urbanization: a case study in Beijing, China. Environmental Science and Pollution Research, 23(22): 22871-22881.

[20] Ma D*, Xian C, Zhang J, Zhang R, Ouyang Z. (2015). The evaluation of water footprints and sustainable water utilization in Beijing. Sustainability, 7:13206-13221.

[21] 武昊彤, 冼超凡*, 刘晶茹. 面向城市代谢效率研究的热点识别与综合效率实证研究. 生态学报，2021, 41(22): 8709-8717.

[22] 王雅晴, 冼超凡*, 欧阳志云. 基于灰水足迹的中国城市水资源可持续利用综合评价.生态学报,2021,41(8):2983-2995.

[23] 冼超凡, 刘晶茹, 潘雪莲, 欧阳志云*. 典型移民城市食物氮足迹估算及分析—以深圳市为例. 生态学报，2020, 40(20): 7441-7450.

[24] 冼超凡, 潘雪莲, 甑泉, 韩宝龙, 姜亚琼, 周伟奇, 欧阳志云*. 城市生态系统污染氮足迹与灰水足迹综合评价, 环境科学学报, 2019,39(3):985-995.

[25] 甄泉,王雅晴,冼超凡,郭卫俊,欧阳志云*.沙尘暴对北京市空气细菌多样性特征的影响.生态学报,2019,39(2):322-330.

[26] 冼超凡,王莉雁,逯非,郑华,欧阳志云*.基于“氮补偿”机制及数据包络分析的活性氮减排评价—以京津冀区域为例,应用生态学报,2017, 28(8):2545-2553.

[27] 李彦旻,冼超凡,徐刚,欧阳志云*.城市污水氮污染排放特征及来源分析—以北京市海淀区为例.环境科学学报,2017, 37(1):146-153.

[28] 李彦旻,冼超凡,肖强,文志,徐刚*,欧阳志云.城市居民食物氮消费变化特征与趋势预测—以重庆市为例.西南大学学报(自然科学版),2016, 38(6):131-135.

[29] 冼超凡,欧阳志云*.城乡居民食物氮足迹估算及其动态分析—以北京市为例.生态学报，2016, 36(8): 2413-2421.

[30] 冼超凡,欧阳志云*.城市生态系统氮代谢研究进展.生态学杂志, 2014, 33(9): 2548-2557.