胡亚鲜，女，1986年生，汉族，河南郑州人，中共党员，博士，副研究员，博士生导师。

主要从事土壤侵蚀过程和有机碳循环时空变异特征等方面的研究工作，致力于研究土壤侵蚀过程及机理、侵蚀-沉积碳排放效应，以及水力和冻融等外营力环境下微生物群落变化和呼吸响应等。以第一作者或通讯作者身份发表SCI论文26篇，其中中科院一区期刊论文16篇，H指数21。主持国家自然科学基金青年项目1项，面上项目1项，中国科学院“西部之光”人才项目1项，“十三五”国家重点研发计划子课题1项。

邮箱：huyaxian@nwafu.edu.cn

教育经历：

2003年– 2007年，中国农业大学，工学院，工程学士学位

2007年– 2009年，中国农业大学，工学院，工程硕士学位

2009年– 2014年，瑞士巴塞尔大学，环境科学系，地理学博士学位

科研经历：

2014年– 2015年，瑞士巴塞尔大学，环境科学系，博士后

2014年12月– 2015年2月，美国加州大学默塞德分校，访问学者 

2016年3月至今，西北农林科技大学水土保持研究所，副研究员

承担课程：

《基础土壤学》（英文）、《水土保持研究专题》（英文）、《专业英语（水资）》

招生与培养：

博士招生方向：水土保持与荒漠化防治

学硕招生方向：水土保持与荒漠化防治

专硕招生方向：资源与环境

所培养研究生中：

国家奖学金获得者：2名

国家公派出国留学奖学金获得者：2名

虞宏正奖学金获得者：1名

国家重点实验室主任奖学金获得者：3名

“优秀毕业生”：2名

第一作者和通讯作者论文

2024年

1. Yongli Hao, Yuan Song, Xianwen Li*, Ming Li, Xiaorong Wei, Shengli Guo, Yaxian Hu*. 2024. Progressive melting of surface water and unequal discharge of different DOM components profoundly perturb soil biochemical cycling. Water Research 266, 122360.
2. Chongzheng Ye#, Huinan Ma#, Xianwen Li, Shengli Guo, Xiaorong Wei, Yaxian Hu*. 2024. Lateral CO2 emission from eroded scarps and terrace sidewalls: A non-negligible but long-ignored carbon source. Catena 245, 108272.
3. Yaxian Hu, Xinhao Yuan, Xinyao Wang, Yuan Song, Zhengbo Peng, Baowen Yan, Xianwen Li*. 2024. Unequal impacts of unidirectional freeze-thaw on different soil layers and aggregate sizes: Evidenced by microbial communities and CO2 emissions. Catena 241, 108057.
4. 郝永丽，胡亚鲜*，郭胜利. 2024. 泥沙磨蚀作用对微塑料老化破碎的影响. 土壤学报. 61(3): 737-745.
5. 王文倩，宋媛，张辉，郭胜利，栗现文，胡亚鲜*. 2024. 侵蚀黄土不同粒级抑制CO2排放的有效沉积厚度.水土保持研究. 网络首发 

2023年

1. Ruiqi Wang, Yaxian Hu*, Xinhao Yuan, Junying Chen, Simin Jiang, Xianwen Li*, 2023. Unsynchronized migrations of different salt ions and ice microstructure development during unidirectional freeze-thaw. Desalination 549, 116326.
2. Yaxian Hu*#, Xianwen Li#, Huimin Liu, Xinhao Yuan, Simin Jiang, Xiaorong Wei. 2023. Progressively thawed soil layers differed in microbial properties and CO2 emission rates. CATENA 221, 106791.
3. Yaxian Hu*, Hui Zhang, Lanlan Du, Xianwen Li, Xiaorong Wei*. 2023. Layered structure significantly inhibits CO2 transfer through the depositional profile: as simulated by well‑mixed vs. interlaid soil columns. Biogeochemistry, 166: 39-53.
4. 刘会敏, 宋媛, 栗现文, 胡亚鲜*. 2023. 不同冻结温度黑土渐次解冻过程有机碳矿化特征及影响因素. 中国环境科学. 43(3): 1288-1297
5. 宋媛，刘会敏，张辉，栗现文，胡亚鲜*. 2023. 黑土单向冻融过程对不同土层有机碳矿化的影响. 农业工程学报. 39(20): 132-139.
6. 张小真, 宋媛, 胡亚鲜*. 2023. 黑土层不同粒级结构下有机碳矿化的模拟研究. 水土保持研究. 30 (2): 1-7.

2022年

1. Huimin Liu, Yaxian Hu*, Yongli Hao, Xiaoyu Yan, Lei Wu, Chenrao Wang, Xianwen Li*, 2022. Progressive freeze-thaw redistributes water, solute and CO2 emissions across soil layers – The role of soil particle size. CATENA 219, 106614.
2. Lanlan Du, Yaxian Hu*, Xin Gao, Weijia Li, Rui Wang, Fangbin Hou, Shengli Guo*, 2022. Mitigation of soil organic carbon mineralization by soil redistribution - An erosion-deposition plot study under natural rainfall over five years. Agriculture, Ecosystems & Environment 327, 107827.
3. 郝永丽, 胡亚鲜*, 白晓雄, 郭胜利. 2022. 黄土高原土地利用方式对微塑料丰度和形态分布的影响. 环境科学. 第43卷第9期: 4748-4755.
4. 张艳, 郭胜利, 胡亚鲜*. 2022. 长期施用微肥条件下微量元素和有机官能团在团聚体中的积累特征. 土壤学报, 59(5): 1420-1431. 

2021年

1. Xiaojing Ou, Yaxian Hu*, Xianwen Li, Shengli Guo, Baoyuan Liu. 2021. Advancements and challenges in rill formation, morphology, measurement and modeling. Catena. 196: 104932.
2. Yaxian Hu*, Schneider, V., Kuhn, B., Guo, S., Kuhn, N.J., 2021. Capturing the Scale Dependency of Erosion-Induced Variation in CO2 Emissions on Terraced Slopes. Front. Environ. Sci. 9, 688286. 

2020年

1. Yaxian Hu,Xianwen Li, Shengli Guo, Xin Gao, Xiaojing Ou, Baoyuan Liu*. 2020. On-site soil dislocation and localized CNP degradation: the real erosion risk faced by slope cropland in northeastern China. Agriculture, Ecosystems and Environment. 302, 107088.
2. Yaxian Hu, Zhiqi Wang, Rui Wang, Lunguang Yao, Shengli Guo*. 2020. “Slope sensitivity: A coefficient to represent the dependency of soil CO2 emissions to slope gradients”. Catena. 193, 104659.
3. Yaxian Hu, Xianwen Li*, Menggui Jin, Rui Wang, Junying Chen*, and Shengli Guo. 2020. “Reduced Co-Occurrence and Ion-Specific Preferences of Soil Microbial Hub Species after Ten Years of Irrigation with Brackish Water.” Soil & Tillage Research. 199, 104599.
4. Weijia Li, Xin Gao, Rui Wang, Lanlan Du, Fangbin Hou, Yao He, Yaxian Hu*, Lunguang Yao, Shengli Guo*. 2020. Soil redistribution reduces integrated C sequestration in soil-plant ecosystems: Evidence from a five-year topsoil removal and addition experiment. Geoderma. 377, 114593.
5. Shaojuan Lu, Baoyuan Liu*, Yaxian Hu*, Suhua Fu, Qi Cao, Yandong Shi, and Tingting Huang. 2020. “Soil Erosion Topographic Factor (LS): Accuracy Calculated from Different Data Sources.” Catena 187: 104334.
6. Xin Gao, Weijia Li, Ali Salman, Rui Wang, Lanlan Du, Lunguang Yao,Yaxian Hu*, and Shengli Guo*. 2020. “Impact of Topsoil Removal on Soil CO2 Emission and Temperature Sensitivity in Chinese Loess Plateau.” Science of The Total Environment 708: 135102.
7. Yao He, Yaxian Hu*, Baoyuan Liu, Xin Gao, Rui Wang, Shengli Guo, and Xianwen Li*. 2020. “Minor Topography Governing Erosional Distribution of SOC and Temperature Sensitivity of CO2 Emissions: Comparisons between Concave and Convex Toposequence.” Journal of Soils and Sediments. 20: 1906–1919.
8. Yaxian Hu*, Wolfgang Fister, Yao He, and Nikolaus J. Kuhn. 2020. “Assessment of Crusting Effects on Interrill Erosion by Laser Scanning.” PeerJ 8: e8487.  

2018年

1. Xin Gao, Yaxian Hu*, Qiqi Sun, Lanlan Du, Pengfei Duan, Lunguang Yao, and Shengli Guo*. 2018. “Erosion-Induced Carbon Losses and CO2 Emissions from Loess and Black Soil in China.” Catena 171: 533–40.
2. Yaxian Hu*, Gerhard Schäfer, Joëlle Duplay, and Nikolaus J. Kuhn. 2018. “Bioenergy Crop Induced Changes in Soil Properties: A Case Study on Miscanthus Fields in the Upper Rhine Region.” PLOS ONE 13 (7): e0200901.
3. Shaojuan Lu, Zhanli Wang, Yaxian Hu*, Baoyuan Liu*, and Jun’e Liu. 2018. “Effectiveness and Durability of Polyacrylamide (PAM) and Polysaccharide (Jag C 162) in Reducing Soil Erosion under Simulated Rainfalls.” Water 10 (3): 257.  

2017年

1. 胡亚鲜*，Nikolaus J. Kuhn. 2017. 利用土壤颗粒的沉降粒级研究泥沙的迁移与分布规律.土壤学报, 54 (5):1115-1124. 

2016年

1. Yaxian Hu*, and Nikolaus J. Kuhn. 2016. “Erosion-Induced Exposure of SOC to Mineralization in Aggregated Sediment.” Catena 137: 517–25.
2. Nikolaus J. Kuhn, Yaxian Hu*, Lena Bloemertz, Jin He, Hongwen Li, and Philip Greenwood. 2016. “Conservation Tillage and Sustainable Intensification of Agriculture: Regional vs. Global Benefit Analysis.” Agriculture, Ecosystems & Environment 216: 155–65.
3. Yaxian Hu*, Asmeret Asefaw Berhe, Marilyn L. Fogel, Goswin Heckrath, and Nikolaus J. Kuhn. 2016. “Transport-Distance Specific SOC Distribution: Does It Skew Erosion Induced C Fluxes?” Biogeochemistry 128 (3): 339–51.
4. Yaxian Hu*, Wolfgang Fister, and Nikolaus J. Kuhn. 2016. “Inherent Interreplicate Variability during Small-Scale Rainfall Simulations.” Journal of Soils and Sediments 16 (6): 1809–14. 

2014年

1. Yaxian Hu*, and N. J. Kuhn. 2014. “Aggregates Reduce Transport Distance of Soil Organic Carbon: Are Our Balances Correct?” Biogeosciences 11 (22): 6209–19.
2. Yaxian Hu*, Wolfgang Fister, and Nikolaus J. Kuhn. 2013. “Temporal Variation of SOC Enrichment from Interrill Erosion over Prolonged Rainfall Simulations.” Agriculture 3 (4): 726–40. 

2013年

1. Yaxian Hu*, Wolfgang Fister, Hans-Rudolf Rüegg, Peter A. Kinnell, and Nikolaus J. Kuhn. 2013. “The Use of Equivalent Quartz Size and Settling Tube Apparatus to Fractionate Soil Aggregates by Settling Velocity.” Geomorphology Techniques (Online Edition), British Society for Geomorphology, Section–1.