教育(访问)经历：

1999-2003，莱阳农学院，农学系，学士学位；

2003-2006，中科院水利部水土保持研究所，土壤学，硕士学位；

2006-2009，中科院水利部水土保持研究所，土壤学，博士学位；

2015.01-2016.01，美国科罗拉多州立大学，园林园艺学院访问学者。

工作经历：

2009-2012.5，西安理工大学，水利水电学院，博士后；

2012.6-2013.12，西北农林科技大学水土保持研究所，助理研究员；

2014.1-2023.12，西北农林科技大学水土保持研究所，副研究员；

2024.1-今，西北农林科技大学水土保持研究所，研究员。

主要从事土壤改良、植被恢复及其环境效益等脆弱生态系统修复和评价工作。

    先后主持自然科学基金项目2项，重点研发计划专题2项，中科院西部之光青年学子项目A类1项，中科院STS项目课题1项，宁夏重点研发计划项目2项，横向课题7项，主要项目如下：

（1）国家自然科学基金“黄土区典型人工植被演替过程植物-土壤水养过程及耦合”（41471437），85万，主持，2015-2018。

（2）国家自然科学基金“黄土高原小流域尺度土壤碳库演变机制研究”（41101528），26万，主持，2012-2014。

（3）国家重点研发计划子课题“裸露砒砂岩区退化植被恢复与重建技术”（2017YFC0504504-4）,50万，主持，2017-2020。

（4）国家重点研发计划子课题“植物-土壤-大气碳氮耦合循环动力学过程”（2016YFA0600801-4）,70万，主持，2016-2021。

（5）宁夏回族自治区重点研发计划项目“压砂草原生态恢复关键技术研究与示范”（2022BBF02033），65万，主持，2022-2025。

（6）横向项目“西气东输四线天然气管道水土保持方案编制技术服务”（GDXB08-2018-005）,120万，主持，2018-2026。

（7）横向项目“甘陕输气分公司西二线富平支线工程施工期水土保持监测技术服务合同”（GWHT2022004337）,27.4万，主持，2022-2026。

（8）横向项目“国家官网集团联合管道有限责任公司西部兰州输气分公司建设项目水保评价”（2023-GWLHTP40FW-018）,95万，主持，2023-2026。

（9）宁夏回族自治区重点研发计划项目“压砂瓜种植对生态环境的影响及对策研究”，20万，主持，2021-2022。

（10）中科院科技服务网络行动计划（STS计划）课题“黄土丘陵区退化土地修复与生态产业技术示范-”（KFJ-STS-EPTP-012），120万，主持,2016-2018。

（11）中国科学院西安分院“西部青年学者”项目A类“黄土高原典型人工植被承载力分析”，50万，主持，2016-2018。

[1] Bi boyuan, Han Fengpeng*. Pinus sylvestris root exudates indirectly facilitate Amorpha fruticosa growth performance by altering the nitrogen cycle. Plant and Soil,2024

[2] Tong Qian, Han Fengpeng*. The effect of surfactant on biosolubilization of weathered coal . Environmental Progress & Sustainable Energy,2024

[3]Mao Xinping, Gu Jialin, Wang Fang , Wang Kun, Liu Ruliang, Hong Yu, Wang Ying, Han Fengpeng*. Yield, Quality, and Nitrogen Leaching of Open-Field Tomato in Response to Different Nitrogen Application Measures in Northwestern China. Plant, 2024,13:924.

[4] Li Shujian, Su He, Han Fengpeng*, Li Zhi. Source identification of trace elements in groundwater combining APCS-MLR with geographical detector. Journal of Hydrology, 2023, 623: 129771.

[5] Wang Wanzhou, Li Shujian, Sun Jineng, HuangYanan, Han Fengpeng*, Li Zhi. Mechanism of groundwater recharge in the thick loess deposits by multiple environmental tracers. Science of The Total Environment, 2023, 897:165360.

[6] Kun Wang, Boyuan Bi, Kanghui Zhu, Miao Wen, Han Fengpeng*. Responses of soil dissolved organic carbon properties to the desertification of desert wetlands in the Mu Us Sandy Land. Journal of Environmental Management,2024

[7] Wang Kun, Mao Xinping, Yang Jiejun, Wen Miao, Han Fengpeng*. Soil extracellular enzyme activity and microbial resource limitation exhibited close relationships with groundwater table decline in desert wetlands, Catena, 2024, 236: 107754.

[8] Luo Chaoyi, Fang Zhao, Liu Jiang, Han Fengpeng*, Wu Yanhong, Bing Haijian, Zhao Peng. Root carbon and soil temperature may be key drivers of below-ground biomass in grassland following prescribed fires in autumn and spring. Journal of Environmental Management, 2024, 349:119337.

[9] Wang Kun, Fei Hongyan, Tong Qian, Wan Chuanyu, Pan Ruopeng, Han Fengpeng*. Changes in soil free-living diazotrophic community and co-occurrence patterns along desert wetland degradation sequence in the Mu Us Desert, Northern China, Pedosphere, 2022, doi.org/10.1016/j.pedsph.2022.07.007.

[10] Wang Kun, Pan Ruopeng, Fei Hongyan, Tong Qian, Han Fengpeng*. Changes in soil prokaryotic communities and nitrogen cycling functions along a groundwater table drawdown gradient in desert wetlands. Science of the total environment, 2022, 842:156868.

[11] Bi Boyuan, Yuan Yuan, Zhang He, Wu Zhuhua, Wang Yu, Han Fengpeng*. Rhizosphere soil metabolites mediated microbial community changes of Pinus sylvestris var. mongolica across stand ages in the Mu Us Desert, Applied Soil Ecology, 2022, 169: 104222.

[12] Bi Boyuan, Tong Qian, Wan Chuanyu, Wang Kun, Han Fengpeng*. Pinus sylvestris var. mongolica mediates interspecific belowground chemical interactions through root exudates , Forest Ecology and Management, 2022,511:120158.

[13] Bi Boyuan, Wan Chuanyu, Tong Qian, Wang Kun, Zhang He, Wang Yu, Han Fengpeng*. The rhizosphere microbial index reflects the optimal restoration pattern and the nutrient preference of rhizosphere microbes of typical plants in a desertified environment, Journal of Soil Science and Plant Nutrition, 2022..

[14] Bi Boyuan, Wang Yu, Wang Kun, Zhang He, Fei Hongyan, Pan Ruopeng, Han Fengpeng*. Changes in microbial metabolic C- and N- limitations in the rhizosphere and bulk soils along afforestation chronosequence in desertified ecosystems, Journal of Environmental Management, 2022, 303: 114215.

[15]Wang Kun, Wang Xiaoxia, Fei Hongyan, Wan Chuanyu, Han Fengpeng*. Changes in diversity, composition and assembly processes of soil microbial communities during Robinia pseudoacacia L. restoration on the Loess Plateau, China. Journal of Arid Land, 2022. doi.org/10.1007/s40333-022-0064-2.

[16] Bi Boyuan, Wang Kun, Zhang He, Wang Yu, Fei Hongyan, Pan Ruopeng, Han Fengpeng*. Plants use rhizosphere metabolites to regulate soil microbial diversity, Land Degradation & Development, 2021, 32(18):5267-5280.

[17] Bi Boyuan, Zhang He, Yuan Yuan, Wu Zhuhua, Wang Yu, Han Fengpeng*. Dynamic changes of soil microbial community in Pinus sylvestris var. mongolica plantations in the Mu Us Sandy Land, Journal of Environmental Management, 2021,287: 112306.

[18]Luo chaoyi,Yang Jingjing, Chen Wen, Han Fengpeng*.Effect of biochar on soil properties on the Loess Plateau: Results from field experiments ,Geoderma,2020, 369:114323.

[19] Luo Chaoyi, Zhang Bingxue, Liu Jiang, Wang Xiaoxia, Han Fengpeng*. Effects of Different Ages of Robinia pseudoacacia Plantations on Soil Physiochemical Properties and Microbial Communities. Sustainability, 2020, 12, 9161.

[20] Han Fengpeng*, Lulu Ren, Xingchang Zhang. Effect of biochar on the soil nutrients about different grasslands in the Loess Plateau. Catena, 2016, 137: 554-562.

[21] Han Fengpeng*, Lulu Ren, Xingchang Zhang, Zhanbin Li. The WEPP model application in a small watershed in the Loess Plateau, Plos One, 2016,11(3):1-11.

[22] Han Fengpeng*, Wei Hu, Jiyong Zheng, Xingchang Zha  ng. Estimating soil organic carbon storage and distribution in a catchment of Loess Plateau, China. Geoderma, 2010, 154: 261-266.

[23] Han Fengpeng*, Jiyong Zheng, Wei Hu, Xingchang Zhang. Spatial variability and distribution of soil nutrients in a catchment of the Loess Plateau in China. Acta Agriculturae Scandinavica, Section B - Plant Soil Science, 2010, 60(1): 48-56.

[24] Han Fengpeng*, Wei Hu, Jiyong Zheng, Feng Du, Xingchang Zhang. Spatial variability of soil organic carbon in a catchment of the Loess Plateau, Section B - Plant Soil Science, 2010, 60(1): 48-56. Section B - Plant Soil Science, 2010, 60(2): 134-143.

[25]Mingming Li, Xingvhang Zhang, Qing Zhen, Han Fengpeng*. Spatial analysis of soil organic carbon in Zhifanggou Catchment of the Loess Plateau. PLOS ONE,2013,8(12):1-7.

[26]Mingming Li, Xingchang Zhang, Han Fengpeng*, et al. The Spatial Variability of Soil Organic Carbon (SOC) in a Catchment of the Loss Plateau,Catena,2013, 101: 11-16.

[27] 费洪岩, 童倩, 万传宇, 潘若鹏, 韩凤朋*. 黄土高原不同林龄刺槐林土壤水分亏缺程度.水土保持学报, 2022, 36(5)：1-7.

[28] 张鹤, 费洪岩, 韩凤朋*, 王钰, 潘若鹏, 毕博远. 植被恢复和覆土厚度对砒砂岩区土壤水分及养分的影响. 水土保持通报, 2022, 42(2): 98-106.

[29] 袁媛, 张鹤, 武杼华, 王钰, 毕博远, 韩凤朋*. 植被恢复对毛乌素沙地土壤pH和养分含量的影响. 土壤通报, 2021, 52(1):148-156.

[30]杨晶晶, 陈闻, 袁媛, 武杼华, 韩凤朋*. 拟增温对羊草生态系统土壤呼吸速率的影响. 生态学报, 2020, 40(17):1-13.

[31]陈闻, 杨晶晶, 袁媛, 张鹤, 韩凤朋*. 毛乌素沙地人工固沙植被的土壤养分效应. 干旱区研究, 2020, 37(6):1447-1456.

[32]赵如梦, 张炳学, 王晓霞, 韩凤朋*. 黄土高原不同种植年限苜蓿草地土壤 与植物化学计量特征. 草业科学, 2019, 36(5):1189-1199.

[33]毕博远, 韩凤朋*. 黄土高原不同种植年限紫花苜蓿根系分泌物GC-MS分析, 草地学报, 2018, 26(3): 611-617.

[34] 韩凤朋*,郑纪勇,李占斌,张兴昌.PAM对土壤物理性状以及水分分布的影响.农业工程学报,2010,26(4):70-74.

[35] 著作：高照良, 李永红, 韩凤朋等. 高速公路边坡防护的水土保持机理研究, 科学出版社, 2023年5月.

（1）中国水土保持学会优秀设计奖一等奖，杨凌生产建设项目水土保持野外实验研究平台涉及及构建，2021,4/15

（2）中国水土保持学会优秀设计奖三等奖，新建铁路黔江至张家界至常德线水土保持监测方案，2021,4/15

（3）中国水土保持学会科技奖三等奖，水土保持科普教育平台设计与系统构建，2022,9/9