1.1 个人简况
蒋冲,男,博士(后),助理研究员,中国地理学会会员、北京市生态学会会员、北京生态修复学会会员、广东生态学会会员。2010年于黑龙江工程学院获得测绘工程专业学士学位,2013年于西北农林科技大学获得地图学与地理信息系统专业硕士学位,2017年于北京师范大学获得全球环境变化专业博士学位,2019年于武汉大学水利工程博士后科研流动站出站(依托南方科技大学环境科学与工程博士后科研工作站开展工作),2019年10月至2021年3月在澳大利亚昆士兰大学地球与环境学院做访问学者。
担任30余种国际SCI/SSCI杂志和国内重要期刊审稿人,审稿60余次,并荣获《Science of the Total Environment》2018年度优秀审稿人称号,审稿期刊名录如下:《Journal of Cleaner Production》(IF: 7.246)、《Science of the Total Environment》(IF: 6.551)、《Current Opinion in Environmental Sustainability》(IF: 5.658)、《Journal of Environmental Management》(IF: 5.647)、《Hydrology and Earth System Sciences》(IF: 5.153)、《Transportation Research Part D: Transport and Environment》(IF: 4.577)、《Ecosystems》(IF: 4.555)、《Global and Planetary Change》(IF: 4.448)、《Journal of Hydrology》(IF: 4.405)、《Catena》(IF: 4.333)、《Land Degradation & Development》(IF: 4.275)、《Ecological Indicators》(IF: 4.229)、《Journal of Hydrology: Regional Studies》(IF: 3.645)、《Ecological Engineering》(IF: 3.406)、《Landscape Ecology》(IF: 3.385)、《Applied Geography》(IF: 3.068)、《Environmental Science and Pollution Research》(IF: 3.056)、《Aeolian Research》(IF: 2.864)、《International Journal of Environmental Research and Public Health》(IF: 2.849)、《Journal of Soils and Sediments》(IF: 2.763)、《International Journal of Sediment Research》(IF: 2.577)、《Global Ecology and Conservation》(IF: 2.526)、《Environmental Management》(IF: 2.376)、《Environment, Development and Sustainability》(IF: 2.191)、《Journal of Integrative Agriculture》(IF: 1.984)、《River Research and Applications》(IF: 1.916)、《Frontiers of Earth Science》(IF: 1.62)、《Natural Resources Forum》(IF: 1.436)、《Arabian Journal of Geosciences》(IF: 1.327)、《Desalination and Water Treatment》(IF: 1.234)、《Arid Land Research and Management》(IF: 1.148)、《生态学报》、《地理科学》。
1.2 研究领域与研究方向
主要研究方向为景观过程与生态系统功能、社会生态系统与生态恢复/修复、GIS和遥感技术在生态规划等领域的应用。重点关注土地利用/覆被变化和生态治理工程的环境和社会经济效应,尤其是对生态系统服务和人类福祉的可能影响,以及生态补偿、生态风险评价等方面的科学问题。
1.3 主要成果
1.3.1 概述
自研究生阶段起,作为骨干力量参与完成(或执行中)中国科学院重点部署项目、中国科学院国际合作重点项目、中国工程院重点咨询项目、国家自然科学基金(杰青、面上、青年项目)、广东省科技厅野外台站建设项目等10余项课题。主持国家自然科学基金青年项目、广东省科学院“千名博士(后)计划”引进专项、战略先导专项子课题等项目,尚有多个渠道科研项目在申报评审程序中。截止到2021年3月,在国际期刊(均为SCI或SSCI检索刊物)发表(含接收)学术论文30余篇,其中第一/通讯作者30篇,2019版JCR一区21篇,二区3篇,2020年12月中科院升级版分区一区和二区论文19篇。累计影响因子118.3,平均影响因子4.2,单篇影响因子大于3.0的论文20篇,大于4.0的论文11篇。Google-scholar论文引用780余次,单篇最高被引67次,H指数为17,引用期刊包括《National Science Review》、《Journal of Cleaner Production》、《Ecosystem services》、《Global Ecology and Biogeography》等。在中文核心期刊发表学术论文30余篇,其中第一作者26篇,CNKI论文引用约700次。
1.3.2 代表性成果目录
1.3.2.1 项目
国家自然科学基金青年项目,41901258,重要生态功能区典型生态系统服务供需平衡与人类福祉的关联性研究—以粤北山区为例,2020.01–2022.12,30万元,在研,主持;
广东省科学院“千名博士(后)计划“引进专项,2019GDASYL-0103001,粤北岩溶山区水土过程与生态系统服务功能提升,2019.01–2021.12,60万元,在研,主持;
广东省省级科技计划项目,2018B030324002,粤港澳大湾区城市群生态系统观测研究站,2018.09–2023.09,500万元,在研,核心骨干;
广东省科学院战略先导专项,2020GDASYL-20200301003,粤港澳大湾区陆地生态安全与绿色可持续发展研究,2020.01–2022.12,1800万,在研,核心骨干;
中国工程院重点咨询项目,2014–XZ–31,三江源区生态资产核算与生态文明制度设计,2014.01–2015.12,350万元,结题,核心骨干。
1.3.2.2 论文
1.Chong Jiang, Hongwei Guo, Yongping Wei, et al. Ecological restoration is not sufficient for reconciling the trade-off between soil retention and water yield: A contrasting study from catchment governance perspective. Science of the Total Environment, 2021, 754: 142139. (2019 IF: 6.551, JCR-SCI Q1, 中科院1区TOP)
2.Chong Jiang, Haiyan Zhang, Lingling Zhao, et al. Unfolding the effectiveness of ecological restoration programs in combating land degradation: Achievements, causes, and implications. Science of the Total Environment, 2020, 748: 141552. (2019 IF: 6.551, JCR-SCI Q1, 中科院1区TOP)
3.Chong Jiang, Zhiyuan Yang, Cai Liu, et al. Win-win-win pathway for ecological restoration by balancing hydrological, ecological, and agricultural dimensions: Contrasting lessons from highly eroded areas. Science of the Total Environment, 2021, 774: 145140. (2019 IF: 6.551, JCR-SCI Q1, 中科院1区TOP)
4.Yu Zhao, Chong Jiang (共同第一兼通讯作者), Xinling Dong, et al. Evolution of the food-water-ecosystem nexus and its implications for complex environmental management: Insights from an ecosystem restoration hotspot in dryland. Science of the Total Environment, in revision. (2019 IF: 6.551, JCR-SCI Q1, 中科院1区TOP)
5.Changwei Zhuang, Chong Jiang (共同第一兼通讯作者), Meili Wen, et al. Evolutions, drivers, and implications of food-water-ecosystem-livelihood nexus in ecosystem conservation hotspots: A contrasting perspective from restoration of southern China. Science of the Total Environment, in revision. (2019 IF: 6.551, JCR-SCI Q1, 中科院1区TOP)
6.Chong Jiang, Zhiyuan Yang, Li Huang, et al. Escaping degradation and restoration traps in ecosystem conservation through optimising land use allocation and balancing supply and demand of ecosystem services. Science of the Total Environment, under review. (2019 IF: 6.551, JCR-SCI Q1, 中科院1区TOP)
7.Chong Jiang, Fei Wang. Temporal changes of streamflow and its causes in the Liao River Basin over the period of 1953-2011, Northeastern China. Catena, 2016, 145: 227–238. (2019 IF: 4.333, JCR-SCI Q1, 中科院1区TOP)
8.Yongping Wei, Shuanglei Wu, Chong Jiang (通讯作者), et al. Managing supply and demand of ecosystem services in dryland catchments. Current Opinion in Environmental Sustainability, 2020, 48: 10–16. (2019 IF: 5.658, JCR-SCI Q1, 中科院2区)
9.Chong Jiang, Haiyan Zhang, Zhidong Zhang, et al. Model-based assessment soil loss by wind and water erosion in China's Loess Plateau: Dynamic change, conservation effectiveness, and strategies for sustainable restoration. Global and Planetary Change, 2019, 172: 396–413. (2019 IF: 4.448, JCR-SCI Q1, 中科院2区)
10.Chong Jiang, Haiyan Zhang, Zhidong Zhang. Spatially explicit assessment of ecosystem services in China's Loess Plateau: patterns, interactions, drivers, and implications. Global and Planetary Change, 2018, 161: 41–52. (2019 IF: 4.448, JCR-SCI Q1, 中科院2区)
11.Chong Jiang, Reshmita Nath, Lev Labzovskii. Integrating ecosystem services into effectiveness assessment of ecological restoration program in northern China's arid areas: Insights from the Beijing-Tianjin Sandstorm Source Region. Land Use Policy, 2018, 75: 201–214. (2019 IF: 3.682, JCR-SSCI Q1, 中科院2区TOP)
12.Chong Jiang, Haiyan Zhang, Zhipeng Tang, et al. Evaluating the coupling effects of climate variability and vegetation restoration on ecosystems of the Loess Plateau, China. Land Use Policy, 2017, 69: 134–148. (2019 IF: 3.682, JCR-SSCI Q1, 中科院2区TOP)
13.Chong Jiang, Daiqing Li, Dewang Wang, et al. Quantification and assessment of changes in ecosystem service in the Three-River Headwaters Region, China as a result of climate variability and land cover change. Ecological Indicators, 2016, 66: 199–211. (2019 IF: 4.229, JCR-SCI Q1, 中科院2区)
14.Chong Jiang, Xinling Dong, Cai Liu, et al. Grasping non-linear ecosystem dynamics in achieving land degradation neutrality: Insights from four ecological restoration hotspots in China. Ecological Engineering, in revision. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
15.Chong Jiang, Junguo Liu, Haiyan Zhang, et al. China’s progress towards sustainable land degradation control: Insights from the northwest arid regions. Ecological Engineering, 2019, 127: 75–87. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
16.Chong Jiang, Jun Wang, Congying Li, et al. Understanding the hydropower exploitation's hydrological impacts through a len of change in flow-sediment relationship: A case study in the Han River Basin, China. Ecological Engineering, 2019, 129: 82–96. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
17.Chong Jiang, Haiyan Zhang, Zhidong Zhang, et al. Challenging the land degradation in China's Loess Plateau: Benefits, limitations, sustainability, and adaptive strategies of soil and water conservation. Ecological Engineering, 2019, 127: 135–150. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
18.Chong Jiang, Linbo Zhang, Zhipeng Tang. Multi-temporal scale changes of streamflow and sediment discharge in the headwaters of Yellow River and Yangtze River on the Tibetan Plateau, China. Ecological Engineering, 2017, 102: 240–254. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
19.Chong Jiang, Linbo Zhang. Ecosystem change assessment in the Three-river Headwater Region, China: patterns, causes, and implications. Ecological Engineering, 2016, 93: 24–36. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
20.Chong Jiang, Fei Wang, Haiyan Zhang, et al. Quantifying changes in multiple ecosystem services during 2000–2012 on the Loess Plateau, China, as a result of climate variability and ecological restoration. Ecological Engineering, 2016, 97: 258–271. (2019 IF: 3.512, JCR-SCI Q1, 中科院2区)
21.Chong Jiang, Fei Wang. Environmental Change in the Agro-Pastoral Transitional Zone, Northern China: Patterns, Drivers, and Implications. International Journal of Environmental Research and Public Health, 2016, 13(2): 165. (2019 IF: 2.849, JCR-SCI Q1)
22.Chong Jiang, Linbo Zhang. Climate Change and Its Impact on the Eco-Environment of the Three-Rivers Headwater Region on the Tibetan Plateau, China. International Journal of Environmental Research and Public Health, 2015, 12(10): 12057–12081. (2019 IF: 2.849, JCR-SCI Q1)
23.Chong Jiang, Zhiyuan Yang, Minting Li, et al. Exploring soil erosion trajectories and their divergent responses to driving factors: a model-based contrasting study in highly eroded mountain areas. Environmental Science and Pollution Research, 2020. https://doi.org/10.1007/s11356-020-11703-1. (2019 IF: 3.056, JCR-SCI Q2)
24.Chong Jiang, Daiqing Li, Yanni Gao, et al. Impact of climate variability and anthropogenic activity on streamflow in the Three-Rivers Headwater Region, Tibetan Plateau, China. Theoretical and Applied Climatology, 2017, 129(1–2): 667–681. (2019 IF: 2.882, JCR-SCI Q2)
25.Chong Jiang, Linbo Zhang, Daiqing Li, et al. Water Discharge and Sediment Load Changes in China: Change Patterns, Causes, and Implications. Water, 2015, 7(10): 5849–5875. (2019 IF: 2.544, JCR-SCI Q2)
26.Chong Jiang, Lingling Zhao, Jialing Dai, et al. Examining the soil erosion responses to ecological restoration programs and landscape drivers: A spatial econometric perspective. Journal of Arid Environments, 2020, 183: 104255. (2019 IF: 1.83, JCR-SCI Q3)
27.Chong Jiang, Zhiyuan Yang, Xinchi Wang, et al. Examining the reversal of soil erosion decline in the hotspots of sandstorms: A nonlinear ecosystem dynamic perspective. Journal of Arid Environments, 2021, 186: 104421. (2019 IF: 1.83, JCR-SCI Q3)
28.Chong Jiang, Xinchi Wang, Haiyan Zhang, et al. Re-orienting ecological restoration in degraded drylands for a more sustainable soil–water relationship: Non-linear boundary of limited water resources in combating soil loss. Journal of Arid Environments, 2019, 167: 87–100. (2019 IF: 1.83, JCR-SCI Q3)
29.Chong Jiang, Linbo Zhang. Effect of ecological restoration and climate change on ecosystems: A case study in the Three-Rivers Headwater Region, China. Environmental Monitoring and Assessment, 2016, 188: 382. (2019 IF: 1.903, JCR-SCI Q3)
30.Chong Jiang, Xingmin Mu, Fei Wang, et al. Analysis of extreme temperature events in the Qinling Mountains and surrounding area during 1960–2012. Quaternary International, 2016, 392: 155–167. (2019 IF: 2.003, JCR-SCI Q3)
31.Chong Jiang, Daiqing Li, Yanni Gao, et al. Spatiotemporal variability of streamflow and attribution in the Three-Rivers Headwater Region, northwest China. Journal of Water and Climate Change, 2016, 7(3): 637–649. (2019 IF: 1.254, JCR-SCI Q4)
32.Chong Jiang, Zhen Nie, Xingmin Mu, et al. Potential evapotranspiration change and its attribution in the Qinling Mountains and surrounding area, China, during 1960–2012. Journal of Water and Climate Change, 2016, 7(3): 526–541. (2019 IF: 1.254, JCR-SCI Q4)
33.蒋冲, 等. 秦岭南北地区绝对湿度的时空变化及其与潜在蒸发量的关系[J]. 生态学报, 2015, 35(2): 378–388.
34.蒋冲, 等. “蒸发悖论”在秦岭南北地区的探讨[J]. 生态学报, 2013, 33(3): 844–855.
35.蒋冲, 等. 秦岭南北近地面水汽时空变化特征[J]. 生态学报, 2013, 33(12): 3805–3815.
36.蒋冲, 等. 秦岭南北风速时空变化及突变特征分析[J]. 地理科学, 2013, 33(2): 244–250.
37.蒋冲, 等. 秦岭南北地区光合有效辐射时空变化及突变特征[J]. 地理科学进展, 2013, 32(3): 435–446.
38.缪丽娟, 蒋冲, 何斌, 等. 近10a来蒙古高原植被覆盖变化对气候的响应[J]. 生态学报, 2014, 34(5): 1295–1301.
39.王鹏涛, 延军平, 蒋冲, 等.华北平原潜在蒸散量时空变化及其影响因素分析[J]. 生态学报, 2014, 34(19): 5589–5599.
40.蒋冲, 等. 黄土高原风蚀和风水蚀复合区的风蚀气候侵蚀力变化[J]. 干旱区研究, 2013, 30(3): 477–484.
41.蒋冲, 等. 近52年渭河流域气候变化对植被净第一性生产力的影响[J]. 中国沙漠, 2013, 33(3): 952–957.
42.蒋冲, 等. 秦岭南北潜在蒸散量时空变化及突变特征分析[J]. 长江流域资源与环境, 2013, 22(5): 573–581.
43.蒋冲, 等. 三江源区生态系统状况变化及其成因[J]. 环境科学研究, 2017, 30(1): 10–19.
44.蒋冲, 等. 1956—2010年三江源区水土流失状况演变[J]. 环境科学研究, 2017, 30(1): 20–29.
45.蒋冲, 等. 1956—2012年三江源区河流流量变化分析[J]. 环境科学研究, 2017, 30(1): 30–39.
46.蒋冲, 等. 1960—2011年秦岭南北气温和降水变化对植被净第一性生产力的影响研究[J]. 西北植物学报, 2012, 30(9): 1888–1896.
47.蒋冲, 等. 气候变化对秦岭南北植被净初级生产力的影响(Ⅰ)—近52年秦岭南北气候时空变化特征分析[J]. 中国水土保持科学, 2012, 10(5): 56–63.
48.蒋冲, 等. 气候变化对秦岭南北植被净初级生产力的影响(Ⅱ)—近52年秦岭南北植被净初级生产力[J]. 中国水土保持科学, 2012, 10(6): 45–51.
49.蒋冲, 等. 秦岭南北日照时数时空变化及突变特征[J]. 干旱区地理, 2013, 36(3): 416–424.
50.蒋冲, 等. 气候变化对陕南汉江流域植被净初级生产力的影响[J]. 西北林学院学报, 2013, 28(1): 51–57.
51.蒋冲, 等. 气候变化对渭河流域自然植被净初级生产力的影响研究(Ⅰ)—地表干湿状况时空演变特征分析[J]. 干旱区资源与环境, 2013, 27(4): 30–36.
52.蒋冲, 等. 气候变化对渭河流域自然植被净初级生产力的影响研究(Ⅱ)—渭河流域自然植被净初级生产力的研究[J]. 干旱区资源与环境, 2013, 27(5): 53–57.
53.蒋冲, 等. 黑河流域森林生态系统水热特征分析[J]. 水土保持通报, 2012, 32(3): 96–100.
54.蒋冲, 等. 渭河流域相对湿度与植被覆盖变化及其响应关系[J]. 水土保持通报, 2012, 32(5): 122–127.
55.蒋冲, 等. 退耕还林(草)背景下渭河流域植被覆盖时空变化分析[J]. 农业现代化研究, 2012, 33(4): 470–474.
56.蒋冲, 等. 土壤湿度指数在黄土高原的适宜性评价[J]. 灌溉排水学报, 2012, 31(3): 31–36.
57.蒋冲, 等. 近52年渭河流域气候变化及极端干湿事件演变特征分析[J]. 灌溉排水学报, 2012, 31(4): 32–36.
58.蒋冲, 等. 渭河流域近52年日照时数和风速时空变化特征[J]. 干旱地区农业研究, 2012, 30(5): 228–234.
59.蒋冲, 等. 黄土高原农田土壤湿度演变及其与气候变化的响应关系[J]. 干旱地区农业研究, 2012, 30(3): 234–243.
60.蒋冲, 等. 近20年来陕西中部地区主要农作物生育期变化趋势分析[J]. 水土保持研究, 2011, 18(5): 67–75.
61.杨旺明, 蒋冲, 喻小勇, 等. 人为热量的估算方法和影响研究进展[J]. 地理科学进展, 2014, 33(8): 115–125.
62.严丽, 王飞, 蒋冲, 等. 陇东黄土高原农田土壤湿度演变对气候变化的响应[J]. 水土保持通报, 2012, 32(3): 11–16.
63.王鹏涛, 延军平,蒋冲, 等. 2000-2012年陕甘宁黄土高原区地表蒸散时空分布及影响因素分析[J].中国沙漠, 2015,36(2): 1–9.
64.赵玉, 穆兴民, 蒋冲. 兰州地区近500余年来旱涝变化规律分析[J]. 水土保持研究, 2014, 21(1): 132–141.
65.赵玉, 穆兴民, 何毅, 蒋冲. 黄河干流水沙依存关系的变化研究[J]. 泥沙研究, 2014(4): 32–38.
1.4 招生专业与方向
目前研究部招收综合自然地理学、地理信息与遥感技术、景观生态学、水土保持与荒漠化防治等方向的本科实习生和联合培养研究生,并提供充裕的研究经费和科研条件,包括住宿和学习室。欢迎有志从事学术研究和科技创新的研究生和本科生咨询联系。
1.5 联系方式
地址:广东省广州市越秀区先烈中路100号大院之一广州地理研究所401室
邮编:510070
邮件:jiangchong1987@gmail.com
个人主页(链接):
Googlescholar website: https://scholar.google.com/citations?hl=zh-CN&user=txKucHIAAAAJ&view_op=list_works
