张永坤,男,博士,九三学社社员,副教授,硕士生导师,2018年在中科院水土保持研究所获博士学位。入选2019年度青海省“高端创新人才千人计划”(拔尖人才)与2024年度青海省“昆仑英才·高端创新型人才”(领军人才),研究领域为水土资源综合利用与生态修复,具体包括土壤改良、土壤物质循环、生态水文、水土保持、水源涵养、面源污染与生态修复等方面工作。现担任青海省水土保持学会水土保持科技产业专业委员会副主任委员、中国林学会水土保持专业委员会委员。在J Hydrol、Geoderma、水科学进展、生态学报等期刊发表多篇高水平论文。现主持国家自然科学基金青年项目、科技部国家重点研发计划项目子课题、青海省重点研发项目、青海省重大专项专题、青海省重点研发项目课题、青海省青年基金项目、国家重点实验室自主课题各1项与横向项目3项。作为骨干成员参与国家自然科学基金地区项目3项、青年项目2项、面上项目1项、联合基金项目1项与中央引导地方发展资金项目2项。
主讲本科生课程《草地系统工程学》
1、青海省重点研发项目(2024-SF-148),江河源区水资源高效利用与生态保护技术创新与实践,160万元,2024.08-2026.12
2、青海省重大专项(2024-SF-A6)专题,三江源多尺度气象水文观测技术研究,325万元,2024.10-2027.12,在研,主持;
3、国家自然科学基金青年项目(42207375), 高寒草甸退化与恢复过程土壤团聚体结构演变机制研究,30万元,2023.01-2025.12,在研,主持;
4、国家重点研发项目子课题(2022YFF1302603-2) 高寒矿区保温保水基质层构建技术研发及其应用, 60万元,2022.08-2025.08,在研,主持;
5、青海省重点研发项目课题(2021-SF-134-01), 黄河源重点水土流失区成因分析,60万元,2021.01-2023.12,结题,主持;
6、青海省自然科学基金青年项目(2020-ZJ-967Q), 青藏高原冻融过程土壤水文环境变化对土壤碳排放的影响-以三江源区为例, 20万元,2020.01-2022.12,结题,主持;
7、青海大学省部共建三江源生态与高原农牧业国家重点实验室自主课题(2019-ZZ-15) 冻土坡面土壤液态水与冰晶水的时间稳定性,10万元,2019.07-2021.07,结题,主持。
[1] Yongkun Zhang, Qingli Xiao, Mingbin Huang*. Temporal stability analysis identifies soil water relations under different land use types in an oasis agroforestry ecosystem. Geoderma, 2016, 271: 150-160.
[2] Yongkun Zhang, Mingbin Huang*, Wei Hu, Lizhu Suo, Liangxia Duan, Lianhai Wu. How shallow and how many points of measurements are sufficient to estimate the deep profile mean soil water content of a hillslope in the Loess Plateau?. Geoderma, 2018, 314: 85-94.
[3] Lizhu Suo, Mingbin Huang*, Yongkun Zhang, Liangxia Duan, Yan Shan. Soil moisture dynamics and dominant controls at different spatial scales over semiarid and semi-humid areas. Journal of Hydrology, 2018, 562: 635-647.
[4] Zhongdian Zhang, Mingbin Huang*, Yongkun Zhang. Vertical distribution of fine root area in relation to stand age and environmental factors in black locust (Robinia pseudoacacia L.) forests of the Chinese Loess Plateau. Canadian Journal of Forest Research, 2018, 48(10): 1148-1158.
[5] Yuanzhi Wu, Yongkun Zhang, Juan An, Qianjin Liu*, Ying Lang. Sap flow of black locust in response to environmental factors in two soils developed from different parent materials in the lithoid mountainous area of north china. Trees, 2018, 32(3):675-688.
[6] Yongkun Zhang; Mingbin Huang*. Spatial variability and temporal stability of actual evapotranspiration on a hillslope of the Chinese Loess Plateau, Journal of Arid Land, 2021, 13(2): 189-204.
[7] Ying Li; Zhanming Ma, Yutao Liu; Zilong Cui; Qiuyu Mo; Can Zhang; Haiyan Sheng; Wen Wang; Yongkun Zhang*. Variation in soil aggregate stability due to land use changes from alpine grassland in a high-altitude watershed. Land, 2023, 12(2): 393.
[8]Zhang, Y., Li, Y., Ma, Z., Cui, Z., Sheng, H., & Li, R. (2024). Different Land-Use Effects on Soil Aggregates and Aggregate-Associated Organic Carbon in Eastern Qinghai–Tibet Plateau. Agronomy, 14(5), 990.
[9] Wang, C. J., Huang, S. F., Wu, C. P., Wang, G. N., Wang, L., Zhang, Y. K., & Wan, J. Z. (2024). Linear relationships between aboveground biomass and plant species diversity during the initial stage of degraded grassland restoration projects. Ecology and Evolution, 14(8), e70128.
[10] Cui, Z., Xin, J., Yang, X., Dang, Y., Lin, C., Ma, Z., ... & Zhang, Y. (2024). Contribution of Glomalin-Related Soil Protein to Soil Organic Carbon Following Grassland Degradation and Restoration: A Case from Alpine Meadow of Qinghai–Tibet Plateau. Land, 13(12), 2223.
[11] Qin, W., Wang, K., Min, K., Zhang, Y., Wang, Z., & Liu, X. (2024). Agricultural land abandonment promotes soil aggregation and aggregate-associated organic carbon accumulation: a global meta-analysis. Plant and Soil, 1-16.
