周瑞伍,男,1989年6月出生,穿青人,生态学博士,副教授。主要研究方向为“森林植被固碳能力及潜力对气候变化的响应”、“全球变化对植物和植被物候的影响”以及“物种分布模型”。
教育经历
教育经历
·2015.09-2020.01,中国科学院大学,西双版纳热带植物园,生态学,博士
·2012.09-2015.07,云南大学,生态与环境学院,生态学,硕士
·2008.09-2012.07,鲁东大学,生命科学学院,生物科学,学士
工作经历
·2020.04-至今,玉溪师范学院,地理与国土工程学院
承担课程
·植物与土壤地理学、植物与土壤地理学实验(地理科学专业)
·生态学、气象与气候学(自然地理与资源环境专业)
·植物地理学、植物地理学实验(自然地理与资源环境专业)
科研项目
·1.国家自然科学基金委员会,青年基金项目,3230****,基于数字相机的干热河谷稀树灌草丛冠层物候及其对生态系统碳汇的调控作用,2024-01-01至2026-12-31,30万元,在研,主持。
·2.云南省科学技术厅,基础研究计划-青年项目,202101AU070***,云南主要森林植被碳汇潜力对气候变化的响应研究,2021-04-01至2024-03-30,5万元,在研,主持。
·3.国家自然科学基金委员会,地区科学基金项目,42165***,干热河谷稀树灌草丛生态系统土壤碳循环过程对降水格局变化的响应机制,2022-01-01至2025-12-31,36万元,在研,参与。
·4.国家自然科学基金委员会,国际(地区)合作与交流项目,***61144***,基于林冠色彩指数的中国西南-中南半岛地区跨纬度梯度不同森林生态系统物候特征及其对气候变化响应的联网研究,2020-01-01至2022-12-31,200万元,结题,参与
·5.云南省科学技术厅,基础研究计划-面上项目,202301AT070***,西南地区极端冷事件的变化特征及成因,2023-06-01至-2026-05-31,10万元,在研,参与。
教学项目
玉溪师范学院教学改革项目,基于项目式学习的植物与土壤地理学课程和高中地理教学的深度融合实践,2023.05-2025.10,2万元,在研,主持
玉溪师范学院一流课程建设项目,《植物与土壤地理学》线上线下混合式课程建设,2023.05-2025.10,1万元,在研,主持
玉溪师范学院教学改革项目,专业认证背景下地理教学技能训练体系优化与实践,2021.07-2022.10,0.5万元,结题,主持
大学生创新创业项目,气候变化背景下中国特有主要孑遗植物潜在地理分布及保护评估,2022.11-2024.04,0.5万元,在研,项目指导教师
著作论文
[1] Zhou, R.W., Zhang, Y.P, * Peng, M.C, Jin, Y.Q., Song, Q.H. Effects of climate change on the carbon sequestration potential of forest vegetation in Yunnan Province, Southwest China. Forests, 2022,13 (2): ***.
[2] Zhou, R.W., Zhang, Y.P., * Song, Q.H., Lin, Y.X., Sha, L.Q., Jin, Y.Q., et al. Relationship between gross primary production and canopy colour indices from digital camera images in a rubber (Hevea brasiliensis) plantation, Southwest China. Forest Ecology and Management, 2019, 437: ***.
[3] Zhou, R.W., Li, W.J., Zhang, Y.P., * Peng, M.C., Wang, C.Y., Sha, L.Q., et al. Responses of the carbon storage and sequestration potential of forest vegetation to temperature increases in Yunnan Province, SW China. Forests, 2018, 9 (5):***.
[4] 周瑞伍, 彭明春, 张一平*. 云南主要森林植被碳储量及固碳潜力模拟研究. 云南大学学报(自然科学版), 2017,39 (6): 1089-1103.
[5] 周瑞伍, 彭明春*, 王崇云, 罗雪娟, 李望军. 云南巧家药山珙桐群落主要树种种间联结研究. 西部林业科学, 2015, 44 (01),: 51-57.
[6] Zhou, L.G., Zhang, X., Zhang, Y.P., * Song, Q.H., Myo, S.T.Z., Zhou, R.W., et al. The cumulative drought exert disruptive effects on tropical rainforests in the northern edge of Asia - Based on decadal dendrometric measurements and eddy covariance method. Agricultural and Forest Meteorology, 2022, 316: 108***.
[7] Lin, Y.X., Zhang, Y.P., * Zhou, L.G., Li, J., Zhou, R.W., Guan, H.L., et al. Phenology-related water-use efficiency and its responses to site heterogeneity in rubber plantations in Southwest China. European Journal of Agronomy, 2022, 137.
[8] Chen, Y.L., Wang, S.S., Zhou, R.W., Gnanamoorthy, P., Song, Q.H., * Chen, H.B. What leads to rubber leaf senescence in the northern edge of the Asian tropics? Industrial Crops and Products, 2022, 178: 114***.
[9] Jin, Y.Q., Liu, C.G., Qian, S.S., Luo, Y.Q., Zhou, R.W., Tang, J.W., * Bo, W.K. Large-scale patterns of understory biomass and its allocation across China's forests. Science of The Total Environment, 2022, 804: 150***.
[10] Zhou, W.J., Zhu, J., Ji, H.L., Grace, J., Sha, L.Q., Song, Q.H., Liu, Y.T., Bai, X.L., Lin, Y.X., Gao, J.B., Fei, X.H., Zhou, R.W., Tang, J.W., Deng, X.B., Yu, G.R., Zhang, J.H., Zheng, X.H., Zhao, J.B., Zhang, Y.P.* Drivers of difference in CO2 and CH4 emissions between rubber plantation and tropical rainforest soils. Agricultural and Forest Meteorology, 2021, 305: 108***.
[11] Zhou, W.J., Xi, D., Fang, Y.T., Wang, A., Sha, L.Q., Song, Q.H., Liu, Y.T., Zhou, L.G., Zhou, R.W., Lin, Y.X., Gao, J.B., Balasubramanian, D., Lin, L.X., Chen, H., Deng, Y., Zhang, W.F., Zhang, Y.P.* Microbial processes responsible for soil N2O production in a tropical rainforest, illustrated using an in situ 15N labeling approach. Catena, 2021, 202: 105***.
[12] Balasubramanian, D., Zhang, Y.P., * Grace, J., Sha, L.Q., Jin, Y.Q., Zhou, L.G., Lin, Y.X., Zhou, R.W., Gao, J.B., Song, Q.H., Liu, Y.T., Zhou, W.J.* Soil organic matter as affected by the conversion of natural tropical rainforest to monoculture rubber plantations under acric ferralsols. Catena, 2020, 195: 104***.
[13] Zhou, L.G., Liu, Y.T., Zhang, Y.P*., Sha, L.Q., Zhou, W.J., Balasubramanian, D., Gnanamoorthy, P., Gao, J.B., Lin, Y.X., Li, J., Zhou, R.W., Sai Tay Zar Myo, Tang, X.H., Zhang, J., Zhang, P., Wang, S.S., Grace, J. Soil respiration after six years of continuous drought stress in the tropical rainforest in Southwest China. Soil Biology and Biochemistry, 2019, 138: 107***.
[14] Gao, J.B., Zhang, Y.P*., Song, Q.H., Lin, Y.X., Zhou, R.W., Dong, Y.X., Zhu, J., Jin, Y.Q., Zhou, W.J., Liu, Y.T. Stand age-related effects on soil respiration in rubber plantations (Hevea brasiliensis) in Southwest China. European Journal of Soil Science, 2019, 70(6): ***.
[15] Myo, Sai Tay Zar, Zhang, Y.P*.,Song, Q.H., Deng, Y., Fei, X.H., Zhou, R.W., Lin, Y.X., Zhou, L.G., Zhang, P. Analysis of canopy temperature depression between tropical rainforest and rubber plantation in Southwest China. iForest-Biogeosciences and Forestry, 2019, 12:***.
[16] Jin, Y.Q., Li, J., Liu, C.G., Liu, Y.T., Zhang, Y.P*., Sha, L.Q., Wang, Z., Song, Q.H., Lin, Y.X., Zhou, R.W., Chen, A.G., Li, P.G., Fei, X.H., Grace, J. Carbohydrate dynamics of three dominant species in a Chinese savanna under precipitation exclusion. Tree Physiology, 2018, 9: ***.
[17] Fei, X.H., Song, Q.H., Zhang, Y.P*., Liu, Y.T., Sha, L.Q., Yu, G.R., Zhang, L.M., Duan, C.Q., Deng, Y., Wu, C.S., Lu, Z.Y., Luo, K., Chen, A.G., Xu, K., Liu, W.W, Huang, H., Jin, Y.Q., Zhou, R.W., Li, J., Lin, Y.X., … Grace, J. Carbon exchanges and their responses to temperature and precipitation in forest ecosystems in Yunnan, Southwest China. Science of the Total Environment, 2017, 616: ***.
[18] Fei, X.H., Jin, Y.Q., Zhang, Y.P*., Sha, L.Q., Liu, Y.T., Song, Q.H., Zhou, W.J., Liang, N.S., Yu, G.R., Zhang, L.M., Zhou, R.W., Li, J., Zhang, S.B., Li, P.G. Eddy covariance and biometric measurements show that a savanna ecosystem in Southwest China is a carbon sink. Scientific Reports, 2017, 7: 41***.
[19] 杨靖, 吴学灿, 周瑞伍, 段禾祥*.基于景观格局的云南省富源县生态脆弱性空间特征分析. 生态科学, 2021, 40(3): 184-192.
[20] 李望军,冯图,崔涛,杨婧,周瑞伍,陈丽,彭明春*.全球气候变化下贵州省青冈林的潜在生境动态. 热带亚热带植物学报, 2020, 28(2): 145-152.
[21] 李望军, 周瑞伍, 冯图, 骆强, 何斌, 肖群英, 彭明春*. 滇西北寒温山地硬叶常绿阔叶林的潜在分布预测. 林业资源管理, 2018, 5: 99-104.
[22] 周立国,陈爱国,李培广,宋清海,张一平,费学海,邓云,武传胜,周瑞伍,林友兴. 4种森林生态系统光合作用光响应参数特征的比较. 生态学杂志, 2017, 36(7), 1815-1824.
[23] 秦瑞, 周瑞伍, 彭明春, 王崇云, 彭泽瑜. CASA模型在金沙江流域(云南部分)NPP研究中的应用. 山地学报, 2014, 6: 698-705.
[24] 彭泽瑜,彭明春,王崇云,秦瑞,潘燕,李望军,周瑞伍. 金沙江流域(云南部分)植被光谱特征季节变化研究. 云南大学学报(自然科学版), 2013, 35(S2), 373-377.
[25] 吕伟, 尹娟, 周瑞伍. 云南地理综合野外实习指导教程. 云南人民出版社, 昆明, 2022.
[26] 李涛, 陈莉莉, 周瑞伍, 秦发侣, 莫美仙, 杨亚丽. 土壤地理实验实习教程. 云南人民出版社, 昆明, 2022.
主要获奖成果
2019年度中国科学院大学博士研究生国家奖学金
玉溪师范学院2022年教学成果奖二等奖,基于云南本土环境与地理学核心素养的地理野外实践教学体系创新与实践,排名第4