张雪辰
发布日期:2025-02-28 浏览次数:
一、个人简介
张雪辰,女,1992年生,河北唐山人,博士,副教授。入选秦创原引用高层次创新创业人才项目,西北农林科技大学资源环境学院“创新人才培育支持计划”创新新星。主要研究方向为根际植物-土壤-微生物互作,养分资源管理与利用。在New Phytologist、Soil Biology and Biochemistry等国内外学术期刊发表论文40余篇,累计被引1400余次,H指数为18,其中以第一作者发表在New Phytologist的文章被该期刊专题评论。
二、教育与工作经历
2022.02-至今:西北农林科技大学,资源环境学院,副教授
2017.10-2021.8:德国哥廷根大学,农业科学,博士
2014.9-2017.7:中国科学院南京土壤研究所,土壤学,硕士
2010.9-2014.7:西北农林科技大学,资源环境科学,学士
三、个人主页
Researchgate (https://www.researchgate.net/profile/Xuechen-Zhang-2)
四、主要研究方向
1. 干旱胁迫下土壤-植物互作与反馈
2. 养分资源管理
3. 根际微域营养
4. 土壤有机碳积累与转化机制
五、学术兼职
Land Degradation & Development副编辑和专刊客座编辑
Discover Soil编委
六、科研项目
1. 国家自然科学基金青年项目,2024-2026,主持
2. 国家重点研发计划子课题,2023-2026,主持
3. 中国博士后科学基金面上资助,2023-2025,主持
4. 秦创原引用高层次创新创业人才项目,2023-2025,主持
5. 国家重点研发计划青年科学家项目,2024-2027,子课题主持人
6. 科技部高端外国专家引进项目,2022-2023,主持
7. 秦岭北麓生态系统碳汇功能评估及提升技术模式研究,2023-2024,子课题主持
8. 陕西省自然科学基础研究计划,2023-2024,主持
9. 西北农林科技大学科研启动基金,2022-2024年,主持
七、学术论文
Zhang, X.*, Bilyera, N., Fan L., Duddek P., Ahmed M.A., Carminati A., Kaestner A., Dippold, M.A., Spielvogel, S., Razavi, B.S. The spatial distribution of rhizosphere microbial activities under drought: water availability is more important than root‐hair controlled exudation. New Phytologist, 2023, 237, 780-792.
Zhang, X., Myrold, D.D., Shi, L.L.,Kuzyakov, Y., Dai, H.C., Hoang, D.T.T., Dippold, M.A., Meng, X.T., Song, X.N., Li, Z.Y., Zhou, J., Razavi, B.S., 2021. Resistance of microbial community and its functional sensitivity in the rhizosphere hotspots to drought. Soil Biology and Biochemistry 161, 108360.
Zhang, X., Kuzyakov, Y., Zang, H.D., Dippold, M.A., Shi, L.L., Spielvogel, S., Razavi, B.S., 2020. Rhizosphere hotspots: Root hairs and warming control microbial efficiency, carbon utilization and energy production. Soil Biology and Biochemistry 148, 107872.
Zhang, X.*, Dippold, M.A., Kuzyakov, Y., Razavi, B.S., 2019. Spatial pattern of enzyme activities depends on root exudate composition. Soil Biology and Biochemistry 133, 83-93.
Zhang, X., Razavi, B.S., Liu, J.X., Zhang, X.C., Li, Z.Y., Zhai, B.N., Wang, Z.H., Zamanian, K., 2020. Croplands conversion to cash crops in dry regions: consequences of nitrogen losses and decreasing nitrogen use efficiency for the food chain system. Land Degradation & Development 32, 1103-1113.DOI: 10.1002/ldr.3680.
Li, Y1., Zhang, X1., Yang, N., Hao, H., Bilyera, N., Zhang, X., Li, T., Yue, S., Zhai, B., Zamanian, K., Li, Z.*, Razavi, B.S. Long-term straw and plastic film mulching have divergent effects on maize rhizosphere enzyme activity and bacterial community structure. Agriculture, Ecosystems and Environment, 2024, 364, 108894
Bilyera, N., Turner B.L., Zhang, X.*, Zang, H., Dorodnikov, Ma., Kuzyakov, Y. Soil Health Under Global Change and Human Impact, Land Degradation & Development, 2025, 0: 1–6.
Zhu, N., Zhang, X. *, Yang, S.,Li, C., Qiao, J., Tang, J. *, 2021. Photic biofilms mediated distant nitrate reduction at soil-water interface of paddy fields. ACS Earth and Space Chemistry 5, 1163-1171.
Yu, H.,Zhu, R., Zhang, X., Meng, X., Kong, C., Zhang, G., Liu, X., Li, Y., Yu, Y., Yao, H. 2024. Responses of yield, CH4 and N2O emissions to ratoon rice cropping and different management practices. Field Crops Research 319, 109622.
Hoang D. T.T., Feizi, A., Stelmach-Kardel, V., Zamanian, K, Zhang, X., Schmitt, M., Dippold, M.A., Gryta, A., Frąc, M., Razavi, B.S. 2024. Hotspot enlargement and shortening hot moments in the rhizosphere to acquire labile phosphorus from fungal necromass in response to warming effects. Applied Soil Ecology 204, 105740.
Li, W., Wang, K., Feng, T., Miao, P., Zheng, Z., Zhang, X., Zheng, W., Li, Z., Zhai, B. 2024. Optimizing combination of chemical nitrogen fertilizer and manure can increase yield and economic benefits of dryland wheat while reduce environmental risks. European Journal of Agronomy 159, 127272.
Li, Y., Zhang, X., Li, M., Liu, J., Zhang, K., Li, Zi. 2024. Long‐term straw mulching alleviates microbial nutrient limitations and increases carbon‐use efficiency within aggregates. Soil use and management 2, e13058.
Li, Q., Liu, Y., Wang, Lu., Pang, W., Zhang, X., Xu, L., Song, H., Guo, W., Sun, C., Cai, Q., Ren, M., Cheng, H. 2024. A regime shift between soil moisture and temperature in the 1950s over the permafrost region of Northeast China. Land Degradation & Development 35, 1863-1873.
Meng, X., Zhang, X., Li, Y., Jiao, Y., Fan, L., Jiang, Y., Qu, C., Filimonenko, E., Jiang, Y., Tian, X., Shi, J., Kuzyakov, Y. 2024. Nitrogen fertilizer builds soil organic carbon under straw return mainly via microbial necromass formation. Soil Biology and Biochemistry 188, 109223.
Yu, H., Zhang, X., Meng, X., Luo, D., Liu, X., Zhang, G., Zhu, C., Li, Y., Yu, Y., Yao, H. 2023. Methanogenic and methanotrophic consortia determine lower CH4 fluxes in a subtropical paddy field under long-term elevated CO2. Science of The Total Environment 904, 166904.
Wang, S., Zhang, X., Zhou, J., Ma, Q., Chu, J., Zang, H., Yang, Y., Peixoto, L., Zeng, Z., Razavi, B.S. 2023. Transition of spatio-temporal distribution of soil enzyme activity after straw incorporation: From rhizosphere to detritusphere. Applied Soil Ecology 186, 104814.
Meng, X., Yu, H., Zhang, X., Li, Y., Zamanien, K., Yao, H. 2023. Fertilization Regimes and Nitrogen Cycling in Paddy Fields: Lessens for Agricultural Sustainability from a Meta-Analysis. Applied Soil Ecology 186, 104844.
Liu, G., Zhang, X., Wang, X., Shao, H., Yang, J., Wang, X., 2017. Soil enzymes as indicators of saline soil fertility under various soil amendments. Agriculture, Ecosystems & Environment 237, 274-279.
Yu, H., Zhang, X., Meng, X., Luo, D., Yue, Z., Li, Y., Yu, Y., Yao, H., 2023. Comparing the variations and influencing factors of CH4 emissions from paddies and wetlands under CO2 enrichment: A data synthesis in the last three decades. Environmental Research 228, 115842.
Yu, H., Han, X., Zhang, X., Meng, X., Yue, Z., Liu, X., Zheng N., Li, Y., Yu, Y., Yao, H., 2023. Fertilizer-induced N2O and NO emissions in tea gardens and the main controlling factors: A recent three-decade data synthesis. Science of the Total Environment 871, 162054.
Yu, H., Zhang, X., Shen, W., Yao, H., Meng, X., Zeng, J., Zhang, G., Zamanian, K., 2023. A meta-analysis of ecological functions and economic benefits of co-culture models in paddy fields. Agriculture, Ecosystems & Environment 341, 108195.
Zheng, W., Feng, G., Liang, K., Wang, T., Lv, F., Zhang, X., Li, Z., Zhai, B., 2023. SOC mediates the contribution of generalists and specialists to changes in soil nirK bacterial diversity: Evidence from apple orchards in main production areas of China. Applied Soil Ecology 182, 104713.
Yang, R., Yang, Z., Yang, S., Chen, L., Xin, J., Xu, L., Zhang, X., Zhai, B., Wang, Z., Zheng, W., Li, Z., 2023. Nitrogen inhibitors improve soil ecosystem multifunctionality by enhancing soil quality and alleviating microbial nitrogen limitation. Science of the Total Environment 880, 163238.
Yang, R., Yang, S., Chen L., Yang, Z., Xu L., Zhang, X., Liu, G., Zhang, X., Jiao, C., Bai, R., Zhang, X., Zhai, B., Wang, Z., Zheng, W., Li, Z., Zamanian, K., 2023. Effect of vegetation restoration on soil erosion control and soil carbon and nitrogen dynamics: A meta-analysis. Soil & Tillage Research 230, 105705.
Liu, J., Zhu, K., Zhang, C., Zhang, X., Chen, N., Jia, H., 2022. Microscale Spatiotemporal Variation and Generation Mechanisms of Reactive Oxygen Species in the Rhizosphere of Ryegrass: Coupled Biotic−Abiotic Processes. Environmental Science & Technology 56, 16483−16493.
Wang, C., Bilyera, N., Blagodatskaya, W., Zhang, X., Dippold, M.A., Dorodnikov, M., 2022. Keep oxygen in check: An improved in-situ zymography approach for mapping anoxic hydrolytic enzyme activities in a paddy soil. Science of the Total Environment 850, 158118.
Liu, J., Li, Y., Zheng, Y., Tong, S., Zhang, X., Zhao, Y., Zheng, W., Zhai, B., Wang, Z., Zhang, X., Li, Zi., Zamanian, K., 2022. The spatial and temporal distribution of nitrogen flow in the agricultural system and green development assessment of the Yellow River Basin. Agricultural Water Management 263, 107425.
Bilyera, N., Hummel, C., Daudin, G., Santangeli, M., Zhang, X., et al., 2022. Co-localised phosphorus mobilization processes in the rhizosphere of field-grown maize jointly contribute to plant nutrition. Soil Biology and Biochemistry, 165, 108497.
Bilyera, N., Zhang, X., Duddek, P., Fan, L.C., Banfield, C.C., Schlüter, S., Carminati, A., Kaestner, A., Ahmed, M.A., Kuzyakov, Y., Dippold, M.A., Spielvogel, S., Razavi, B.S., 2021. Maize genotype-specific exudation strategies: An adaptive mechanism to increase microbial activity in the rhizosphere. Soil Biology and Biochemistry 162, 108426.
Yu, P., He, X., Baer, M., Beirinckx, S., Tian, T., Moya, Y.A.T., Zhang, X., Deichmann, M., Frey, F.P., Bresgen, V., Li, C., Razavi, B.S., Schaaf, G., von Wirén, N., Su, Z., Bucher, M., Tsuda, K., Goormachtig, S., Chen, X., Hochholdinger, F., 2021. Plant flavones enrich rhizosphere Oxalobacteraceae to improve maize performance under nitrogen deprivation. Nature Plants 7, 481-499.
Meng, X., Liao, H., Fan, H., Zhang, X., Li, Y., Yao, H.,Razavi, B.S., 2021. The geographical scale dependence of diazotroph assembly and activity: Effect of a decade fertilization. Geoderma 386, 114923.
Ma, Z., Zhang, X., Zheng, B., Yue, S., Zhang, X., Zhai, B.,Wang, Z., Li, Z., Zamanian, K., Razavi, B.S., 2021. Effects of plastic and straw mulching on soil microbial P limitations in maize fields: dependency on soil organic carbon demonstrated by ecoenzymatic stoichiometry. Geoderma 388, 114928.
Greenfield, L.M., Razavi, B.S., Bilyera, N., Zhang, X., Jones, D.L., 2021. Root hairs and protein addition to soil promote leucine aminopeptidase activity of Hordeum vulgare L., Rhizosphere 18, 100329.
Tian, P., Razavi, B.S., Zhang, X., Wang, Q., Blagodatskaya, E., 2020. Microbial growth and enzyme kinetics in rhizosphere hotspots are modulated by soil organics and nutrient availability. Soil Biology and Biochemistry 141, 107662.
Li, Z., Sun, X., Huang, Z., Zhang, X., Wang, Z., Li, S., Zheng, W., Zhai, B., 2020. Changes in nutrient balance, environmental effects, and green development after returning farmland to forests: A case study in Ningxia, China. Science of The Total Environment 735, 139370.
Razavi, B.S., Zhang, X., Bilyera, N., Guber, A., Zarebanadkouki, M., 2019. Soil zymography: Simple and reliable? Review of current knowledge and optimization of the method. Rhizosphere 11, 100161.
Liu, G., Li, J., Zhang, X., Wang, X., Lv, Z., Yang, J., Shao, H., Yu, S., 2016. GIS mapping spatial distribution of soil salinity for Eco-restoring the Yellow River Delta in combination with Electromagnetic Induction. Ecological Engineering 94, 306–314.
黄冬琳,同斯捷,岳良,李彦,张雪辰,郑伟,王朝辉,张绪成,翟丙年,李紫燕, 2022. 原位酶谱技术分析旱地长期覆盖下根际酶活性空间分布. 农业工程学报 38 (5), 123-130.
杨睿哲,杨世龙,翁希哲,徐灵颖,刘雪健,杜运田,张雪辰,郑伟,翟丙年,王朝辉,李紫燕,2022.水蚀环境植被恢复对土壤有机碳固存和团聚体稳定的影响:Meta 分析. DOI: 10.13227/j.hjkx.202205287
张雪辰,陈诚,苏里坦,王秀萍,刘广明,杨劲松,2017. 聚丙烯酰胺改良盐渍土壤的适宜用量研究. 土壤 49 (6), 1216-1220.
张雪辰,陈诚,张密密,刘广明,王秀萍,杨劲松,2017. 不同改良措施下盐渍土壤的改良效果. 灌溉排水学报 36 (Supp. 1), 61-65, 84.
八、本科和研究生培养
本科生:讲授《土壤与植物营养》课程,指导本科生获2024年全国大学生统计建模大赛陕西赛区一等奖,指导多名科创和毕设学生;
研究生:讲授《植物营养研究前沿》、《科技论文写作》、《土壤科学前沿》、《Frontiers in Plant Nutrition Research》等课程,正在培养多名硕士研究生。
九、招生
1. 学术型硕士:植物营养学(090302)
2. 专业型硕士:资源利用与植物保护(095132)
3. 欢迎植物营养学和土壤学等相关专业本科生进入实验室开展科创、毕设等科学研究训练
十、联系方式
通讯地址:陕西省杨凌区邰城路3号 西北农林科技大学 资源环境学院
