流域生态研究中心
| 姓 名: | 张克荣 |
|---|---|
| 职 称: | 研究员 |
| 职 务: | 博士生导师,PI |
| 电话/传真: | 027-87700866/027-87700877 |
| 电子邮件: | kerongzhang@163.com |
| 所属课题组: |
简要履历:
| 2018.9-至今 | 中国科学院武汉植物园 | 研究员 |
| 2015.4-2016.4 | University of North Carolina at Chapel Hill | 访问学者 |
| 2012.9-2018.8 | 中国科学院武汉植物园 | 副研究员 |
| 2011.7-2012.8 | 中国科学院武汉植物园 | 助理研究员 |
| 2006.9-2011.7 | 中国科学院研究生院 | 生态学 博士学位 |
| 2002.9-2006.7 | 湖南师范大学生命科学学院 | 生物科学 学士学位 |
研究领域:
退化生态系统恢复,碳氮磷元素循环,植物-微生物-土壤互作,森林多目标经营与定向培育
社会任职:
中国生态学学会第十一届理事会理事
湖北省土壤肥料学会第十二届理事
获奖及荣誉:
2019年 湖北省自然科学二等奖:秦巴山地典型脆弱区植被恢复对生态系统功能的影响机制
2022年 中国科学院青年创新促进会优秀会员
承担科研项目情况:
中国科学院青年创新促进会优秀会员项目:退化土地生态修复与固碳,2023-2025.
国家自然科学基金优秀青年基金:森林恢复,2020-2022.
国家自然科学基金重点项目“植被恢复对生态系统多功能性的影响及其机制”课题2负责人:2022-2026.
国家自然科学基金面上项目:秦岭河岸带森林的土壤碳氮循环关键过程及其耦合关系对氮磷输入增加的响应,2018-2021.
大自然保护协会(TNC):丹江口库周石漠化地区近自然生态恢复,2021-2024.
中国环境科学研究院生物多样性调查评估项目:秦岭中段南坡地区陆生高等植物多样性调查与评估,2019-2021.
中国科学院青年创新促进会:森林生态学,2018-2021.
国家自然科学基金面上项目:秦岭弃耕地自然恢复过程中土壤有机碳库变化及稳定机制,2015-2018.
国家自然科学基金青年基金:秦岭弃耕地植被演替导致的凋落叶质量改变对土壤有机碳组分的影响,2013-2015.
中国科学院战略性先导科技专项课题“长江、珠江流域防护林建设工程固碳速率和潜力研究”子课题负责人,2011-2015.
代表论著:
- He T, Ding W, Cheng X, Cai Y, Zhang Y, Xia H, Wang X, Zhang J, Zhang K*, Zhang Q. 2024. Meta-analysis shows the impacts of ecological restoration on greenhouse gas emissions. Nature Communications, 15: 2668.
- You Y, Li W*, Chen Y, Zhang Q, Zhang K*. 2024. Soil carbon and nitrogen accumulation during long-term natural vegetation restoration following agricultural abandonment in Qingling Mountains. Ecological Engineering, 201: 107212.
- Wang X, Atkinson P*, Zhang Y, Li X, Zhang K.* 2024. Automatic mapping of 500 m daily open water body fraction in the American continent using GOES-16 ABI imagery. Remote Sensing of Environment, 304: 114040.
- Xia H, Zhang T, Li X, He T, Wang X, Zhang J, Zhang K*. 2023. Effects of drought and nutrient deficiencies on the allocation of recently fixed carbon in a plant-soil-microbe system. Tree Physiology, 43: 1903-1916.
- Chen Y*, Chi J, Lu X, Cai Y, Jiang H, Zhang Q, Zhang K.* 2023. Fungal-bacterial composition and network complexity determine soil multifunctionality during ecological restoration. Catena, 230: 107251.
- Wang X, Zhang Y*, Zhang K.* 2023. Automatic 10 m Forest Cover Mapping in 2020 at China’s Han River Basin by Fusing ESA Sentinel-1/Sentinel-2 Land Cover and Sentinel-2 near Real-Time Forest Cover Possibility. Forests, 14: 1133.
- Shu X*, Zhang K*, Zhang Q, Wang W*. 2023. Changes in the composition of rhizosphere bacterial communities in response to soil types and acid rain. Journal of Environmental Management, 325: 116493.
- Chen Y, Li W, You Y, Ye C, Shu X, Zhang Q, Zhang K.* 2022. Soil properties and substrate quality determine the priming of soil organic carbon during vegetation succession, Plant and Soil, 471: 559-575.
- Chen Y, Yin S, Shao Y, Zhang Q, Zhang K*. 2022. Greenhouse gas fluxes from riparian forest soil depend on the responses of microbes to nitrogen and phosphorus additions. Applied Soil Ecology, 173: 104365.
- Chen Y, Yin S, Shao Y, Zhang K. 2022. Soil bacteria are more sensitive than fungi in response to nitrogen and phosphorus enrichment. Frontiers in Microbiology, 13: 999385.
- Zhang K*, Cheng X, Dang H, Zhang Q. 2020. Biomass:N:K:Ca:Mg:P ratios in forest stands world-wide: Biogeographical variations and environmental controls. Global Ecology and Biogeography, 29: 2176-2189.
- Qi W, Li K, Zhang Q, Zhang K*. 2019. Forest restoration efforts drive changes in land-use/land-cover and water-related ecosystem services in China’s Han River basin. Ecological Engineering, 126: 64-73.
- Zhang K*, Li X, Cheng X, Zhang Z, Zhang Q. 2019. Changes in soil properties rather than functional gene abundance control carbon and nitrogen mineralization rates during long-term natural revegetation. Plant and Soil, 443: 293-306.
- Zhang K*, Cheng X, Shu X, Liu Y, Zhang Q. 2018. Linking soil bacterial and fungal communities to vegetation succession following agricultural abandonment. Plant and Soil, 431: 19-36.
- Zhang K*, Song C, Zhang Y, Dang H, Cheng X*, Zhang Q*. 2018. Global-scale patterns of nutrient density and partitioning in forests in relation to climate. Global Change Biology, 24: 536-551.
- Zhang Q, Wu J, Lei Y, Yang F, Zhang D, Zhang K*, Zhang Q, Cheng X*, Agricultural land use change impacts soil CO2 emission and its 13C-isotopic signature in central China. Soil and Tillage Research , 177, 105-112.
- Zhang K, Song C, Zhang Y, Zhang Q*. 2017. Natural disasters and economic development drive forest dynamics and transition in China. Forest Policy and Economics, 76: 56-64.
- Zhang K*, Dang H, Zhang Q*, Cheng X*. 2015. Soil carbon dynamics following land-use change varied with temperature and precipitation gradients: Evidence from stable isotopes. Global Change Biology, 21: 2762-2772.
- Zhang K, Cheng X, Dang H, Ye C, Zhang Y, Zhang Q*. 2013. Linking litter production, quality and decomposition to vegetation succession following agricultural abandonment. Soil Biology and Biochemistry, 57: 803-813.
- Zhang K, Zhang Y, Tian H, Cheng X, Dang H, Zhang Q*. 2013. Sustainability of social-ecological systems under conservation projects: lessons from a biodiversity hotspot in western China. Biological Conservation, 158: 205-213.
- Zhang K, Cheng X, Dang H, Ye C, Zhang Q*. 2012. Soil nitrogen and denitrification potential as affected by land use and stand age following agricultural abandonment in a headwater catchment. Soil Use and Management, 28: 361-369.
- Zhang K, Dang H, Tan S, Wang Z, Zhang Q*. 2010. Vegetation community and soil characteristics of abandoned agricultural land and pine plantation in the Qinling Mountains, China. Forest Ecology and Management, 259: 2036-2047.
- Zhang K, Dang H, Tan S, Cheng X, Zhang Q. 2010*. Change in soil organic carbon following the Grain-for-Green programme in China. Land Degradation & Development, 21: 13-23.
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