主要主持和参与的科研项目:
[1]国家自然科学基金青年基金项目“三江平原高强度农业开发情形下土壤残留磷估算及其风险评价”(41801334)(2019-2021,主持)
[2]中国博士后基金项目“高强度农业区长序列土壤磷素时空变化规律及磷风险识别”(2017M620663)(2017-2019,主持)
[3]国家自然科学基金贵州联合基金中心项目“喀斯特生物多样性形成和维持的钙依赖机制及其应用基础”(U1812401)(2019-2023,项目骨干)
[4]国家自然科学基金新疆联合基金重点项目“艾比湖稀缺资料流域水文变化分析与水资源利用安全范式”(U1603241)(2017-2020,第七完成人)
[5]国家自然科学基金“中高纬冻融区农业非点源污染中磷富集机制及其时空变化规律研究”(41271414)(2013-2016,项目骨干)
[6]国家科技支撑计划“黄河中游雨养植被新增耗水及坡面土地利用变化对产汇流的影响分析”(2012BAB02B04-05)(2012-2015,项目骨干)
发表论文:
[1]Lou, H. ,Wang, P., Yang, S., Hao, F., Ren, X., Wang, Y., ... & Gong, T. (2020). Combining and Comparing an Unmanned Aerial Vehicle and Multiple Remote Sensing Satellites to Calculate Long-Term River Discharge in an Ungauged Water Source Region on the Tibetan Plateau. Remote Sensing, 12(13), 2155.
[2] Yang, S., Li, C.,Lou, H.(通讯), Wang, P., Wang, J., & Ren, X. (2020). Performance of an Unmanned Aerial Vehicle (UAV) in Calculating the Flood Peak Discharge of Ephemeral Rivers Combined with the Incipient Motion of Moving Stones in Arid Ungauged Regions. Remote Sensing, 12(10), 1610.
[3]Lou, H., Yang, S., Hao, F., Ren, X., Zhao, C., Wang, Y., ... & Sun, F. (2020). Evolution and driving forces of non-point source pollution in a developing megacity: Beijing as a long-term case study. Polish Journal of Environmental Studies, 29(1).
[4]Lou, H.,Yang, S., Hao, F., Jiang, L., Zhao, C., Ren, X., ... & Wang, Z. (2019). SMAP, RS-DTVGM, and in-situ monitoring: which performs best in presenting the soil moisture in the middle-high latitude frozen area in the Sanjiang Plain, China?. Journal of Hydrology. 571, 300-310.
[5] Yang, S., Wang, P.,Lou, H.(通讯), Wang, J., Zhao, C., & Gong, T. (2019). Estimating River Discharges in Ungauged Catchments Using the Slope–Area Method and Unmanned Aerial Vehicle. Water, 11(11), 2361.
[6]Lou, H., Zhao, C., Yang, S., Shi, L., Wang, Y., Ren, X., & Bai, J. (2018). Quantitative evaluation of legacy phosphorus and its spatial distribution. Journal of environmental management, 211, 296-305.
[7]Yang, S., Bai, J., Zhao, C.,Lou, H.(通讯), Wang, Z., Guan, Y., ... & Yu, X. (2018). Decline of N and P Uptake in the Inner Protection Zone of a Terminal Reservoir during Inter-Basin Water Transfers. Water, 10(2), 178.
[8]Lou, H.,Yang, S., Zhao, C., Shi, L., Wu, L., Wang, Y., & Wang, Z. (2016). Detecting and analyzing soil phosphorus loss associated with critical source areas using a remote sensing approach. Science of the Total Environment, 573, 397-408.
[9]Lou, H.,Yang, S., Zhao, C., Zhou, Q., Bai, J., Hao, F., & Wu, L. (2015). Phosphorus risk in an intensive agricultural area in a mid-high latitude region of China. Catena, 127, 46-55.
[10]Lou, H.,Yang, S., Zhao, C., Wang, Z., Shi, L., Wu, L, & Hao, F. (2017). Using a nitrogen-phosphorus ratio to identify phosphorus risk factors and their spatial heterogeneity in an intensive agricultural area. Catena, 149, 426-436..
[11]Lou, H.,Yang, S., Zhao, C., Wang, Z., Liu, X., Shi, L., ... & Cai, M. (2017). Combining multi-source data to explore a mechanism for the effects of micrometeorological elements on nutrient variations in paddy land water. Paddy and water environment, 15(3), 513-524.
[12]娄和震,吴习锦,郝芳华,等.2020.近三十年中国非点源污染研究现状与未来发展方向探讨[J].环境科学学报,40 (5):1535-1549. (EI)
[13]杨胜天,王鹏飞,王娟,娄和震(通讯),巩同梁.结合无人机航空摄影测量的河道流量估算[J],遥感学报. DOI:10.11834/jrs.20209082 (EI)
[14]娄和震,杨胜天,周秋文,罗娅,侯立鹏.延河流域2000-2010年土地利用/覆盖变化及驱动力分析[J].干旱区资源与环境,2014,04:15-21. (CSSCI)
参与出版专著两部:
[1]《遥感水文》第三章,科学出版社,2015 ;
[2]《遥感水文数字实验》第五章,科学出版社,2015.
专利与软著:
[1]流域磷面源污染关键源区识别软件EcoHAT-CPSA V1.0 北京师范大学(第一完成人) 2018SR812985
[2]基于遥感的多方法河道流量计算系统EcoHAT-RSFlow V1.0 北京师范大学(第一完成人) 2019SR0873506