刘洋洋

　　 　　

1. 基本信息

刘洋洋，男，汉族，1991年7月生，河南洛阳人，博士，副教授，硕士生导师。2020年6月毕业于南京大学生命科学学院，获生态学理学博士学位，主要从事草地资源环境3S技术应用、生态系统碳水循环过程模拟和全球变化生态学方面的教学科研工作。

先后主持国家自然科学基金面上项目、青年项目、陕西省重点研发计划、陕西林业科技创新重点专项、西藏自治区重点研发计划子课题等国家和省部级项目7项，主持相关国家重点实验室开放基金10余项。以第一或通讯作者在Hydrology and Earth System Sciences、Journal of Hydrology、Environmental Impact Assessment Review、Geoderma、Journal of Cleaner Production、Global and Planetary Change和生态学报等期刊上发表论文50余篇，获批软件著作权20余项。入选共青团陕西省委秦岭生态环保“青年学者”，担任内蒙古自治区林业科学研究院林草科技专家库入库专家，内蒙古自治区林学会技术咨询专家，Agricultural and Forest Meteorology、International Soil and Water Conservation Research、Journal of Hydrology、Geography and Sustainability、International Journal of Applied Earth Observation and Geoinformation、Journal of Environmental Management和Ecological Modelling等期刊审稿人。

2．研究方向

草地遥感监测与3S技术应用、植被生态水文与碳水循环模拟、可持续林灌草植被格局优化、生态系统服务功能评估。

3．开设课程

本科生《草业信息学》、硕士生《草原信息化与管理》和《草地资源类型学》等课程。

4. 项目主持与参与

(1) 项目主持

[1] 国家自然科学基金面上项目(No.42477522)，2025.01-2028.12，主持；

[2] 国家自然科学基金青年项目(No.42107512)，2022.01-2024.12，主持；

[3] 陕西省重点研发计划(No.2024SF-YBXM-621)，2024.01-2025.12，主持；

[4] 西藏自治区重点研发计划子课题(XZ202501ZY0045)，2025.03-2027.02，主持；

[5] 内蒙古自治区重点研发计划子课题(2025YFHH0224)，2025.01-2027.12，主持；

[6] 陕西省林业科技创新重点专项(No.SXLK2022-02-7)，2022.10-2025.10，主持；

[7] 陕西省哲学社会科学专项-陕西生态空间治理重点课题(No.2022HZ1836)，2023.01-2023.10，主持；

[8] 内蒙古自治区林业科学研究院开放课题面上项目(No.KF2024MS04)，2024.06-2025.12，主持；

[9] 青海大学黄河上游生态保护和高质量发展实验室面上项目，(No.2024hhsy03)，2024.06-2026.06，主持；

[10] 中国水利水电科学研究院流域水循环模拟与调控国家重点实验室开放基金(IWHR-SKL-KF202315)，2024.01-2025.12，主持；

[11] 汾河流域地表过程与资源生态安全山西省重点实验室开放基金(FHKF202402)，2024.11-2025.12，主持；

[12] 黄土高原土壤侵蚀与旱地农业国家重点实验室开放基金(No.A314021402-202316)，2023.01-2024.12，主持；

[13] 中国科学院数字地球重点实验室开放课题(No.2022LDE003)，2023.01-2024.12，主持；

[14] 自然资源要素耦合过程与效应实验室开放基金(No.2022KFKTC004)，2023.06-2024.12，主持；

[15] 西南土地资源评价与监测教育部重点实验室开放课题(TDSYS202307)，2024.01-2025.12，主持；

[16] 内蒙古阴山北麓草原生态水文国家野外观测站开放课题(No.YSS2022009)，2022.07-2023.12，主持；

[17] 西北农林科技大学校级教育教学改革研究项目(培养方案专项)“生态文明建设下基于AI赋能的草业科学专业教学模式改革研究”(JY250405)，2025.11-2027.11，主持；

[18] 西北农林科技大学《草原信息化与管理》研究生课程教育改革项目(新开课)，2022.01-2023.12，主持；

[19] 西北农林科技大学《草原信息化与管理》研究生课程思政标杆项目(JXGG24020)，2024，主持；

[20] 西北农林科技大学博士科研启动项目(No.2452020186)，2020.07-2023.07，主持。

(2) 项目参与

[1] 陕西省林业科技创新重点专项(No.SXLK2023-02-14)，毛乌素沙地生态系统演变与二次沙化风险预警，参与；

[2] 亚太全球变化研究网络(APN)项目：Assessing Spatiotemporal Variability of NPP, NEP and Carbon Sinks of Global Grassland Ecosystem in response to Climate Change in 1911-2011，参与；

[3] 国家科技部重点研发计划：长三角重金属和面源污染诊断监测与风险评价，参与。

5. 论文著作

（1）第一/通讯作者论文（*通讯/#共一）

[1] Wang, Z., Ren, H., Han, S., Shi, H., Wang, Z., Liu, Y(刘洋洋)* & Wen, Z (2026). Weakening Correlation and Delaying Response Time of Ecosystem Water Use Efficiency to Drought. Hydrology and Earth System Sciences. Accept. (中科院大类一区TOP, IF= 5.8)

[2] Chen, J., Wang, Z., Wang, Z., Liu, Y(刘洋洋)*., Wen, Z., Wang, Z., Shi, H., & Yuan, W (2026). Declining Asymmetric Response of Gross Primary Productivity to Precipitation Anomalies in Northern Hemisphere: Evidence and Drivers. Journal of Hydrology. Accept. (中科院大类一区TOP, IF= 8.2)

[3] Wang, Z., Wu R., Liu, Y(刘洋洋)*., Cui, C., Wu, C., Zhao, N., Zhao, Y., ... & Zhang, W. (2026). Spatiotemporal Dynamics of Global Surface and Rootzone Soil Moisture: A Comprehensive Assessment from Dominant Factors, Impact Pathways, and Deficit Probability. Geoderma, 468, 117783. (中科院大类一区TOP, IF= 6.6)

[4] Zhao, Y., Wang, Z., Wang, Z., Xue, T., Liu, Y(刘洋洋)*., Wen, Z., Hu, E., Shi, H., ... & Han, P. (2026). Quantifying the changes in soil moisture caused by vegetation greening and climate change across different drought gradient in China. Environmental Impact Assessment Review, 394, 127318. (中科院大类一区TOP, IF= 11.2)

[5] Wang, Z., Wang, Z., Xue, T., Liu, Y(刘洋洋)*., Chen, J., Wen, Z., Wang, Z., Shi, H., & Sönke Zaehle. (2026). Evidence and patterns of decreased sensitivity of vegetation leaf photosynthetic efficiency to precipitation. Global and Planetary Change. Accept. (中科院大类一区TOP, IF= 4)

[6] Xue, T., Wang, Z., Wang, Z., Liu, Y(刘洋洋)*., Chen, J., Wen, Z., Wang, Z., Shi, H., & Yuan, W (2026). Past and future adverse trend of ecosystem resilience in Tropical Regions: Evidence and Attribution. Journal of Cleaner Production. Accept. (中科院大类一区TOP, IF= 10)

[7] Zhao, Y., Wu, Y., Han, P., Wen, Z., Wang, Z., Liu, Y(刘洋洋)*., Hu, E., Shi, H., & Wang, Z. (2026). Mechanistic Drivers and Sustainability Implications of Ecosystem Service Interactions in the Yinshan Mountain Region. Land Degradation & Development, 1–21. https://doi.org/10.1002/ldr.70466. (中科院大类二区, IF= 4.7)

[8] Han, P., Ren, H., Zhao, Y., Wang, Z., Zhao, N., Wang, Z., ... Liu, Y(刘洋洋)* & Wang, Z. (2025). Quantifying the Impact of Vegetation Greening on Evapotranspiration and Its Components on the Tibetan Plateau. Remote Sensing, 17, 1658. (中科院大类二区, IF=4.1)

[9] Wang, Z., Ren, H., Han, S., Shi, H., Wang, Z., Liu, Y(刘洋洋)* & Wen, Z (2025). Mechanisms Behind Evapotranspiration Dynamics in the Middle Yellow River Basin: Role of Climate and Vegetation. Journal of Environmental Management, 394, 127318. (中科院大类二区TOP, IF= 8.4)

[10] Zhang, G., Wang, Z., Ren, H., Shen, Q., Xue, T., Wang, Z., Shi, H., Liu, Y(刘洋洋)*., Wen, Z. (2025). Vegetation Restoration Outpaces Climate Change in Driving Evapotranspiration in the Wuding River Basin. Remote Sensing, 17, 1577. (中科院大类二区, IF=4.1)

[11] Han, P., Yang, G., Chen, X., Liu, Y(刘洋洋)*., Hu, E., Wen, Z., ... & Shi, H. (2025). Integrating Machine Learning and Scenario Simulation to Decouple Multi-Scale Ecosystem Service Trade-offs/synergy in Shaanxi Province. Land Degradation & Development. https://doi.org/10.1002/ldr.70385. (中科院大类二区, IF= 4.7)

[12] SAILIKE, A., Liang, Y., Fu, R., Hao, H., Wang, R., Liu, Y(刘洋洋)*.,.. & ZHANG, Z. (2024). Impact of organic carbon composition on bacterial taxa assembly upon phosphorus addition in organic and mineral soil layers of a Robinia pseudoaccacia plantation. Pedosphere. (中科院大类二区, IF= 7.3)

[13] Ren, H., Tan, K., Zhang, G., Wang, Z., Shi, H., Wen, Z., & Liu, Y(刘洋洋)*. (2024). Diverse responses of the changes in evapotranspiration and water yield to vegetation and climate change in the Yanhe River watershed. Ecological Indicators, 168, 112750. (中科院大类一区TOP, IF= 7.4)

[14] Zhou, R#., Liu, Y(刘洋洋)#*., Wang, X., Chen, X., Duan, G., ... & Wen, Z. (2024). Evaluating the Effect of Multi-Scale Droughts on Autumn Phenology of Global Land Biomes with Satellite Observation. Journal of Hydrology, 639, 131547. (中科院大类一区TOP, IF=6.3)

[15] Han, P., Yang, G., Wang, Z., Liu, Y(刘洋洋)*., Chen, X., Zhang, W., ... & Ren, H. (2024). Driving Factors and Trade-Offs/Synergies Analysis of the Spatiotemporal Changes of Multiple Ecosystem Services in the Han River Basin, China. Remote Sensing, 16(12), 2115. (中科院大类二区, IF=4.1)

[16] Wang, Z#., Liu, Y(刘洋洋)#*., Wang, Z., Zhang, H., Chen, X., Wen, Z., ... & Xue, T. (2024). Quantifying the Spatiotemporal Changes in Evapotranspiration and Its Components Driven by Vegetation Greening and Climate Change in the Northern Foot of Yinshan Mountain. Remote Sensing, 16, 357. (中科院大类二区, IF=5)

[17] Lin, Z#., Liu, Y(刘洋洋)#*., Wen, Z., Chen, X., Han, P., Zheng, C., ... & Shi, H. (2023). Spatial–Temporal Variation Characteristics and Driving Factors of Net Primary Production in the Yellow River Basin over Multiple Time Scales. Remote Sensing, 15(22), 5273. (中科院大类二区, IF=5)

[18] Chen, Y., Lin, Z., Chen, X., Liu, Y(刘洋洋)*., Jian, J., Zhang, W., ... & Wang, Z. (2023). Spatial–Temporal Dynamics of Grassland Net Primary Productivity and Its Driving Mechanisms in Northern Shaanxi, China. Agronomy, 13(11), 2684. (中科院大类二区, IF=3.7)

[19] Ren, H., Wen, Z., Liu, Y(刘洋洋)*., Lin, Z., Han, P., Shi, H., ... & Su, T. (2023). Vegetation response to changes in climate across different climate zones in China. Ecological Indicators, 155, 110932. (中科院大类一区TOP, IF= 7)

[20] Ren, H#., Liu, Y(刘洋洋).#*, Wen, Z., Shi, H., Zhou, R., Wang, Z., ... & Zhang, W. (2023). Untangling the effects of climate variation and human interference on grassland dynamics in North China. Land Degradation & Development. (中科院大类二区, IF= 4.7)

[21] Liu, Y(刘洋洋)., Lin, Z., Wang, Z., Chen, X., Han, P., Wang, B., ... & Zhang, W. (2023). Discriminating the impacts of vegetation greening and climate change on the changes in evapotranspiration and transpiration fraction over the Yellow River Basin. Science of the Total Environment, 904, 166926. (中科院大类一区TOP, IF= 9.8)

[22] Wang, Y#., Liu, Y(刘洋洋)#*., Wang, Z., Zhang, Y., Fang, B., Jiang, S., ... & Yang, W. (2023). Assessing the Spatio-Temporal Dynamics of Land Use Carbon Emissions and Multiple Driving Factors in the Guanzhong Area of Shaanxi Province. Sustainability, 15(9), 7730. (中科院大类三区, IF= 3.9)

[23] Zhou, R#., Liu, Y(刘洋洋)#*., Cui, M., Lu, J., Shi, H., Ren, H., ... & Wen, Z. (2022). Global Assessment of Cumulative and Time-Lag Effects of Drought on Land Surface Phenology. GIScience & Remote Sensing, 59(1), 1918-1937. (中科院大类一区TOP, IF= 6.9)

[24] Liu, Y(刘洋洋)., Ren, H., Zheng, C., Zhou, R., Hu, T., Yang, P., ... & Wen, Z. (2021). Untangling the effects of management measures, climate and land use cover change on grassland dynamics in the Qinghai–Tibet Plateau, China. Land Degradation & Development, 32(17), 4974-4987. (中科院大类二区, IF= 4.7)

[25] Liu, Y(刘洋洋)., Yang, P., Zhang, Z., Zhang, W., Wang, Z., Zhang, Z., ... & Hu, T. (2021). Diverse responses of grassland dynamics to climatic and anthropogenic factors across the different time scale in China. Ecological Indicators, 132, 108341. (中科院大类一区TOP, IF= 7.4)

[26] Liu, Y(刘洋洋)., Zhou, R., Wen, Z., Khalifa, M., Zheng, C., Ren, H., ... & Wang, Z. (2021). Assessing the impacts of drought on net primary productivity of global land biomes in different climate zones. Ecological Indicators, 130, 108146. (中科院大类一区TOP, IF= 7.4)

[27] Liu, Y(刘洋洋)., Zhou, R., Ren, H., Zhang, W., Zhang, Z., Zhang, Z., & Wen, Z. (2021). Evaluating the dynamics of grassland net primary productivity in response to climate change in China. Global Ecology and Conservation, 28, e01574. (中科院大类二区, IF= 4)

[28] Liu, Y(刘洋洋)., Yang, Y., Wang, Q., Khalifa, M., Zhang, Z., Tong, L., ... & Shi, A. (2019). Assessing the dynamics of grassland net primary productivity in response to climate change at the global scale. Chinese Geographical Science, 29, 725-740. (中科院大类二区, IF= 3.4)

[29] Liu, Y(刘洋洋)., Zhang, Z., Tong, L., Khalifa, M., Wang, Q., Gang, C., ... & Sun, Z. (2019). Assessing the effects of climate variation and human activities on grassland degradation and restoration across the globe. Ecological Indicators, 106, 105504. (中科院大类一区TOP, IF= 7.4)

[30] Liu, Y(刘洋洋)., Wang, Q., Zhang, Z., Tong, L., Wang, Z., & Li, J. (2019). Grassland dynamics in responses to climate variation and human activities in China from 2000 to 2013. Science of the total Environment, 690, 27-39. (中科院大类一区TOP, IF= 9.8)

[31] Liu, Y(刘洋洋)., Yang, Y., Wang, Q., Du, X., Li, J., Gang, C., ... & Wang, Z. (2019). Evaluating the responses of net primary productivity and carbon use efficiency of global grassland to climate variability along an aridity gradient. Science of the Total Environment, 652, 671-682. (中科院大类一区TOP, IF= 9.8)

[32] Yao, L., Wu, R., Wang, Z., Xue, T., Liu, Y(刘洋洋)*., Hu, E., ... & Hu, J. (2024). Climate Change and Vegetation Greening Jointly Promote the Increase in Evapotranspiration in the Jing River Basin. Agronomy, 14(9), 1910. (中科院大类二区, IF=3.7)

[33] Han, P., Yang, G., Liu, Y(刘洋洋)*., Chen, X., Wen Z., Shi H., ... & Zhao, Y. (2024). Vegetation Restoration Enhanced Canopy Interception and Soil Evaporation but Constrained Transpiration in Hekou–Longmen Section During 2000–2018. Agronomy, 14(11), 2606. (中科院大类二区, IF=3.7)

[34] Zhang, G., Shen, Q., Wang, Z., Li, H., Wang, Z., Xue, T., ... Liu, Y(刘洋洋)*. (2025). Synergistic Regulation of Vegetation Greening and Climate Change on the Changes in Evapotranspiration and Its Components in the Karst Area of China. Agronomy, 15(10), 2375. (中科院大类二区, IF=3.7)

[35] 刘洋洋, 任涵玉, 周荣磊, 等. 中国草地生态系统服务价值估算及其动态分析[J]. 草地学报, 2021, 29(07): 1522-1532.

[36] 刘洋洋, 任涵玉, 章钊颖, 等. 中国草地覆盖度时空动态格局及其影响因素[J]. 水土保持研究, 2022, 29(02): 221-230+242.

[37] 刘洋洋, 任涵玉, 呼天明, 等. 中国草地NDVI时空动态对多尺度干旱的响应[J]. 水土保持研究, 2022, 29(01): 153-161+168.

[38] 刘洋洋, 章钊颖, 同琳静, 等. 中国草地净初级生产力时空格局及其影响因素分析[J]. 生态学杂志, 2020. 39(2):349-363.

[39] 刘洋洋, 王倩, 杨悦, 等. 黄土高原草地净初级生产力时空动态及其影响因素[J]. 应用生态学报, 2019, 30(7): 2309-2319.

[40] 刘洋洋, 王倩, 杨悦, 等. 2000-2013年中国植被碳利用效率(CUE)时空变化及其与气象因素的关系[J]. 水土保持研究, 2019, 26(05): 278-286+2.

[41] 刘洋洋, 杨悦, 王倩, 等. 苏州西山仰坞生态园城市半自然生态系统服务功能与价值的定量评估[J]. 生态科学, 2019, 38(3):116-124.

[42] 任涵玉, 温仲明, 刘洋洋*, 等. 我国北方草地净初级生产力时空动态特征及其与水热因子的关系[J].草地学报, 2021, 29(08): 1779-1792.

[43] 巴桑参木决, 温仲明, 刘洋洋*, 等. 西藏草地净初级生产力的时空格局演变及其驱动机制分析[J].草地学报,2022,30(04):778-789.

[44] 王亦波, 张格语, 刘洋洋*, 等. 延河流域植被格局演变及其驱动机制研究[J]. 生态与农村环境学报, 2024, 40(08): 985-995.

[45] 符蓉, 梁玉洁, 谢治国, 刘洋洋*, 等. 汉江流域生态安全时空变化及其影响因素 [J]. 水土保持研究, 2024, 31 (06): 139-148+160.

[46] 王志鹏, 石长春, 马雅莉, 刘洋洋*, 等. 毛乌素沙地植被净初级生产力时空变化及其驱动因素[J]. 草地学报, 2024, 1-14.

[47] 薛婷艺, 王子君, 刘洋洋*, 王宗森, 陈嘉轩. (2025). 北洛河流域蒸散发时空变化及其对气候与植被演变的响应 [J]. 生态学报, 2025, 45 (12): 1-14.

[48] 张格语, 陈文红, 温仲明, 刘洋洋*, 等. 延河流域植被净初级生产力时空演变及其驱动机制 [J]. 水土保持研究, 2025, 32 (03): 206-213+221.

[49] 杨佳奇, 王宗森, 张格语, 刘洋洋*, 等. 毛乌素沙地生态系统总初级生产力时空变化及其对气候变化的响应机制 [J]. 水土保持研究, 2025, 1-9[2025-12-02].

[50] 胡静瑶, 吴友福, 王宗森, 刘洋洋*, 等. 内蒙古阴山地区植被格局时空演变及其与气候因子的关系 [J]. 草地学报, 1-18[2025-12-21].

(2) 合作论文

[1] Wu, R., Wang, Z., Meng, F., Liu, Y(刘洋洋). and Shi, H., (2025). Strengthening coupling between vegetation and soil‐atmosphere compound drought over the past two decades. Earth's Future, 13(8), p.e2025EF006311. (中科院大类一区, IF= 8.2)

[2] Guo, H., Hou, S., Zhang, Y., Liu, Y. (刘洋洋), Wang, Y., Mei, C., ... & Zhang, Z. (2025). Incorporation alfalfa with annual forage enhances even water use and maintains forage yield resilience in a semiarid region. Agricultural Water Management, 320, 109838. (中科院大类一区, IF= 6.5)

[3] Wang, Z., Wu, R., Li, J., Liu, Y(刘洋洋)., Cui, C., & Liu, J. (2025). Discriminating the impact of soil moisture and vapor pressure deficit on vegetation greening over multiple time scales. Global and Planetary Change, 105111. (中科院大类一区, IF= 4)

[4] Wang, Y., Shi, H. J, Yang, X. H, …, Liu, Y(刘洋洋)., Guo, M. H, & Li, L. (2024). Spatial downscaling of SMAP soil moisture to high resolution using machine learning over China’ s Loess Plateau. Catena, 247. (中科院大类一区, IF= 5.7)

[5] Liang, Y., Fu, R., Sailike, A., Hao, H., Yu, Z., Wang, R., ... & Liu, Y(刘洋洋). (2025). Soil labile organic carbon and nitrate nitrogen are the main factors driving carbon-fixing pathways during vegetation restoration in the Loess Plateau, China. Agriculture, Ecosystems & Environment, 378, 109283. (中科院大类一区, IF= 6.4)

[6] Cheng, Z., Fei, Z., Ziqi, L., Liuhuan, Y., Hongbin, Y., Gaohui, D., Liu, Y(刘洋洋).,... & Zhongming, W. (2024). Using the response-effect trait framework to disentangle the effects of climate change and human activities on the provision of ecosystem services by vegetation. Journal of Plant Ecology, rtae024. (中科院大类一区, IF= 3.9)

[7] Wang, Z., Li, J., Hou, J., Zhao, K., Wu, R., Sun, B., Liu, Y(刘洋洋)., ... & Liu, J. (2024). Enhanced evapotranspiration induced by vegetation restoration may pose water resource risks under climate change in the Yellow River Basin. Ecological Indicators, 162, 112060. (中科院大类一区, IF= 7.4)

[8] Duan, G., Zheng, C., Jiang, Y., Leng, C., Liu, Y(刘洋洋), Wang, B., ... & Wen, Z. (2024). Effects of different soil and water conservation measures on plant functional traits in the Loess Plateau. Frontiers in Plant Science, 15, 1381807. (中科院大类二区, IF= 4.8)

[9] Zheng, C., Wen, Z., Yuan, L., Shi, H., Duan, G., & Liu, Y(刘洋洋). (2024). Understanding the impact of Introduction of Robinia pseudoacacia on community functional structure and moisture regulation in the Loess Plateau, China, using a trait-based approach. Frontiers in Plant Science, 15, 1472439. (中科院大类二区, IF= 4.8)

[10] Wang, Z., Fu, Z., Liu, B., Zheng, Z., Zhang, W., Liu, Y(刘洋洋)., ... & Zhang, Q. (2022). Northward migration of the East Asian summer monsoon northern boundary during the twenty-first century. Scientific Reports, 12(1), 10066. (中科院大类三区, IF= 3.9)

[11] Zheng, C., Wen, Z., Liu, Y(刘洋洋)., Guo, Q., Jiang, Y., Ren, H., ... & Yang, Y. (2021). Integrating habitat suitability and the near-nature restoration priorities into revegetation plans based on potential vegetation distribution. Forests, 12(2), 218. (中科院大类三区, IF= 2.5)

[12] Wang, Q., Liu, Y(刘洋洋)., Zhang, Y. Z., Tong, L. J., Li, X., Li, J. L., & Sun, Z. (2019). Assessment of spatial agglomeration of agricultural drought disaster in China from 1978 to 2016. Scientific reports, 9(1), 14393. (中科院大类三区, IF= 3.9)

[13] Tong, L., Liu, Y(刘洋洋)., Wang, Q., Zhang, Z., Li, J., Sun, Z., & Khalifa, M. (2019). Relative effects of climate variation and human activities on grassland dynamics in Africa from 2000 to 2015. Ecological informatics, 53, 100979. (中科院大类二区, IF= 7.3)

[14] Wang, Q., Liu, Y(刘洋洋)., Tong, L., Zhou, W., Li, X., & Li, J. (2018). Rescaled statistics and wavelet analysis on agricultural drought disaster periodic fluctuations in China from 1950 to 2016. Sustainability, 10(9), 3257. (中科院大类三区, IF= 3.3)

[15] Wang, Q., Yang, Y., Liu, Y(刘洋洋)., Tong, L., Zhang, Q. P., & Li, J. (2019). Assessing the impacts of drought on grassland net primary production at the global scale. Scientific reports, 9(1), 14041. (中科院大类三区, IF= 3.9)

[16] Wang, Q., Zhang, Q. P., Liu, Y(刘洋洋)., Tong, L. J., Zhang, Y. Z., Li, X. Y., & Li, J. L. (2020). Characterizing the spatial distribution of typical natural disaster vulnerability in China from 2010 to 2017. Natural Hazards, 100, 3-15. (中科院大类三区, IF= 3.7)

[17] 王志鹏,石长春,马雅莉, 张艳, 玉苏普喀迪尔·孜米尼, 寇伟良, 温仲明, 刘洋洋. 毛乌素沙地植被水分利用效率时空变化及其影响因素[J]. 应用生态学报, 2025, 36 (06): 1731-1739.

[18] 林子琦, 温仲明, 刘洋洋, 姚宏斌, 周荣磊, 任涵玉 & 袁浏欢. (2024). 基于遥感数据的植被碳水利用效率的时空变化和归因分析. 生态学报 (01), 1-15.

[19] 逯金鑫, 高飞, 周荣磊, 刘洋洋 & 温仲明. (2023). 不同植被类型下草本群落与土壤因子的关系. 水土保持研究 (03), 310-317+326. doi:10.13869/j.cnki.rswc.2023.03.032.

[20] 周荣磊, 温仲明, 刘洋洋, 崔梦莹, 杨玉婷, 逯金鑫... & 袁浏欢. (2023). 延河流域不同植被带植物功能性状变化及其对环境因子的响应. 生态学报 (14), 6045-6057.

[21] 逯金鑫, 周荣磊, 刘洋洋, 温仲明, 王利成, 郭倩... & 陈思慧. (2023). 黄土高原植被覆被时空动态及其影响因素. 水土保持研究 (02), 211-219. doi:10.13869/j.cnki.rswc.2023.02.034.

[22] 同琳静, 刘洋洋, 章钊颖, 李晓宇, 王倩, 李建龙*. 定量评估气候变化与人类活动对西北地区草地变化的相对作用[J]. 水土保持研究, 2020, 27(06): 202-210.

[23] 同琳静, 刘洋洋, 王倩, 杨悦, 李建龙*. 西北植被净初级生产力时空变化及其驱动因素[J]. 水土保持研究, 2019, 26(04): 367-374.

[24] 同琳静, 刘洋洋, 王倩, 李晓宇, 李建龙*.青藏高原草地降水利用效率时空动态及对气候变化的响应[J]. 干旱地区农业研究, 2019, 37(05): 226-234.

6. 软件著作

[1] 基于植被动态的流域蒸散发计算软件V1.0，登记号：2023SR1137219.

[2] 植被信息资源合理利用管理系统V1.0，登记号：2023SR1780383.

[3] 湿地生态系统服务功能评估系统V1.0，登记号：2023SR1231558.

[4] 流域尺度土壤水动态均衡计算模型软件V1.0，登记号：2023SR1138002.

[5] 草地固碳能力检测与评价系统V1.0，登记号：2024SR0777077.

[6] 草地增汇结构优化系统V1.0，登记号：2024SR1185333.

[7] 基于土壤水可持续的植被配置模式优化软件V1.0，登记号：2024SR1200820.

[8] 基于cmip6气候模式的生态水文要素预测软件V1.0，登记号：2024SR1200812.

[9] 基于机器学习的生态系统水分利用效率计算软件V1.0，登记号：2024SR1200817.

[10] 陆地生态系统碳汇智能核算分析系统V1.0，登记号：2024SR1835275.

[11] 植被变化对区域降水影响估算系统V1.0，登记号：2024SR1877425.

[12] 粮油作物碳汇估算系统V1.0，登记号：2024SR1877425.

[13] 粮油作物生产碳足迹核算软件V1.0，登记号：2024SR1877425.

[14] 基于机器学习的粮油作物分布精准识别系统V1.0，登记号：2024SR1877425.

[15] 粮油作物产量遥感估测系统V1.0，登记号：2024SR1877425.

[16] 基于CSLE(Chinese soil loss equation)的土壤侵蚀调查与评价平台软件V1.0，登记号：2025SR0668573.

[17] 土壤固碳减排效应分析系统V1.0，登记号：2024SR1254885.

[18] 基于遥感技术的植被蒸散耗水量计算软件V1.0，登记号：2025SR1318251.

7. 获奖情况

2018年南京大学优秀研究生；

2019年南京大学优秀研究生标兵；

2019年博士研究生国家奖学金；

2020年南京大学优秀毕业生。

8. 联系方式

通讯地址：陕西杨凌西北农林科技大学草业与草原学院

邮编：712100

Email: hnlylcbtks@163.com

欢迎具有草学、地理学、遥感、生态学、水土保持、水文学、林学以及计算机等相关专业背景的同学报考研究生。