个人基本信息
姓名: 王淑兰 性别:女
职称:中级实验师
邮编:450002
联系电话:18829786180
通讯地址:河南省郑州市金水区文化路95号 河南农业大学星空体育官网
E-mail:slwang@ henau.edu.cn
个人简介
2020.12-至今 河南农业大学 星空体育官网2016.09-2020.06 西北农林科技大学 农学院 作物学专业 博士学位
2013.09-2016.06 西北农林科技大学 农学院 作物学专业 硕士学位
2009.09-2013.06 山东农业大学 农学院 农学专业 学士学位
主要研究领域
基于长期保护性轮耕的黄土旱塬春玉米田土壤蓄水培肥增产效应研究
发表论著
1.Wang, S., Wang, H., Hafeez, M.B., Zhang, Q., Yu, Q., Wang, R., Wang, X., Li, J., 2020c. No-tillage and subsoiling increased maize yields and soil water storage under varied rainfall distribution: A 9-year site-specific study in a semi-arid environment. Field Crops Research 255.2,Wang, S., Wang, H., Zhang, Y., Wang, R., Zhang, Y., Xu, Z., Jia, G., Wang, X., Li, J., 2018b. The influence of rotational tillage on soil water storage, water use efficiency and maize yield in semi-arid areas under varied rainfall conditions. Agricultural Water Management 203, 376-384.
3.Sun, L., Wang, S., Zhang, Y., Li, J., Wang, X., Wang, R., Lyu, W., Chen, N., Wang, Q., 2018. Conservation agriculture based on crop rotation and tillage in the semi-arid Loess Plateau, China: Effects on crop yield and soil water use. Agric. Ecosyst. Environ. 251, 67-77.
4.Wang, H., Wang, S., Wang, R., Wang, X., Li, J., 2020a. Conservation tillage increased soil bacterial diversity and improved soil nutrient status on the Loess Plateau in China. Archives of Agronomy and Soil Science 66, 1509-1519.
5.Wang, H., Wang, S., Wang, R., Zhang, Y., Wang, X., Li, J., 2019. Direct and indirect linkages between soil aggregates and soil bacterial communities under tillage methods. Geoderma 354.
6.Wang, H., Wang, S., Yu, Q., Zhang, Y., Wang, R., Li, J., Wang, X., 2020b. No tillage increases soil organic carbon storage and decreases carbon dioxide emission in the crop residue-returned farming system. Journal of Environmental Management 261.
7.Wang, H., Wang, S., Yu, Q., Zhang, Y., Wang, R., Li, J., Wang, X., 2021. Ploughing/zero-tillage rotation regulates soil physicochemical properties and improves productivity of erodible soil in a residue return farming system. Land Degradation & Development 32, 1833-1843.
8.Wang, H., Wang, S., Zhang, Y., Wang, X., Wang, R., Li, J., 2018a. Tillage system change affects soil organic carbon storage and benefits land restoration on loess soil in North China. Land Degradation & Development 29, 2880-2887.
9.Zhang, Q., Wang, S., Sun, Y., Zhang, Y., Li, H., Liu, P., Wang, X., Wang, R., Li, J., 2022. Conservation tillage improves soil water storage, spring maize (Zea mays L.) yield and WUE in two types of seasonal rainfall distributions. Soil & Tillage Research 215.
10.Zhang, Y., Wang, S., Wang, H., Ning, F., Zhang, Y., Dong, Z., Wen, P., Wang, R., Wang, X., Li, J., 2018a. The effects of rotating conservation tillage with conventional tillage on soil properties and grain yields in winter wheat-spring maize rotations. Agricultural and Forest Meteorology 263, 107-117.
11.Zhang, Y., Wang, S., Wang, H., Wang, R., Wang, X., Li, J., 2018b. Crop yield and soil properties of dryland winter wheat-spring maize rotation in response to 10-year fertilization and conservation tillage practices on the Loess Plateau. Field Crops Research 225, 170-179.
12.王淑兰,王浩,李娟,吕薇,陈宁宁,李军.不同耕作方式下长期秸秆还田对旱作春玉米田土壤碳、氮、水含量及产量的影响[J].应用生态学报,2016,27(05):1530-1540.
13.王淑兰. 黄土旱塬长期土壤轮耕措施下土壤特性分析[C]. 中国农学会耕作制度分会.中国农学会耕作制度分会2018年度学术年会论文摘要集.中国农学会耕作制度分会:中国农学会耕作制度分会,2018:79.
参与项目
1. 黄土高原增粮增效技术研究与示范(参与)2. 渭北旱塬粮田长期保护性轮耕的土壤固碳减排效应(参与)
3. 西北高原黑垆土旱地合理耕层构建技术指标及技术(参与)。
