王浩,男,1991年2月生,汉族,安徽阜阳人,农学博士,硕士生导师,校青年英才,校聘副教授
研究方向:玉米高产高效栽培、农田土壤生态
讲授课程:农学概论、作物学通论
邮箱:
haowang@henau.edu.cn
学习经历:
2010,09-2014,06:安徽科技学院植物科学学院, 农学,农学学士;
2014,09-2017,06:西北农林科技大学十大信誉游戏平台,作物栽培学与耕作学,农学硕士;
2017,09-2020,06:西北农林科技大学十大信誉游戏平台,作物学,农学博士;
工作经历:
2020,11-至今:十大信誉游戏平台(中国)有限公司,农学系,校聘副教授。
承担或参与的主要项目:
(1)公司青年人才科研启动项目,玉米与豆科牧草混作栽培模式的土壤氮素运移及其机制,50万元,主持
(2)河南省自然科学基金,磷肥施用方式对夏玉米生长的影响及其机制研究,5万元,主持
(3)国家自然科学基金青年科学基金项目,氮素对拔节期受旱玉米根系发育与产量形成的调控机制研究,24万元,参与
(4)国家自然科学基金面上项目,渭北旱塬粮田长期保护性轮耕的土壤固碳减排效应与微生物多样性响应机制,62万元,参与
学术论文:
(1)
王浩,王淑兰,徐宗贵,李军.耕作与施肥对旱地玉米田土壤耗水量和水分利用
效率的影响[J].中国生态农业学报,2017,25(06):856-864. (第一作者)
(2)
Wang, H., Wang, S., Zhang, Y., Wang, X., Wang, R., Li, J., 2018. Tillage system change affects soil organic carbon storage and benefits land restoration on loess soil in North China.
Land Degradation & Development 29, 2880-2887. (第一作者)
(3)
王浩,董朝阳,王淑兰,张玉娇,师祖姣,张元红,王瑞,李军.基于春玉米籽粒产量的渭北旱塬区农户施肥现状评价[J].植物营养与肥料学报,2018,24(03):590-598. (第一作者)
(4)
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. (第一作者)
(5)
Wang, H., Wang, S., Wang, R., Wang, X., Li, J., 2020. 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. (第一作者)
(6)
Wang, H., Wang, S., Yu, Q., Zhang, Y., Wang, R., Li, J., Wang, X., 2020. No tillage increases soil organic carbon storage and decreases carbon dioxide emission in the crop residue-returned farming system.
Journal of Environmental Management 261. (第一作者)
(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. (第一作者)
(8)Zhang, Y., Wang, R., Wang, S.,
Wang, H., Xu, Z., Jia, G., Wang, X., Li, J., 2017. Effects of different sub-soiling frequencies incorporated into no-tillage systems on soil properties and crop yield in dryland wheat-maize rotation system.
Field Crops Research 209, 151-158.(参与作者)
(9)Wang, S.,
Wang, H., Zhang, Y., Wang, R., Zhang, Y., Xu, Z., Jia, G., Wang, X., Li, J., 2018. 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. (参与作者)
(10)Zhang, Y., Wang, S.,
Wang, H., Ning, F., Zhang, Y., Dong, Z., Wen, P., Wang, R., Wang, X., Li, J., 2018. 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. (参与作者)
(11)Zhang, Y., Wang, S.,
Wang, H., Wang, R., Wang, X., Li, J., 2018. 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. (参与作者)
(12)Zhang, Y., Wang, R.,
Wang, H., Wang, S., Wang, X., Li, J., 2019. Soil water use and crop yield increase under different long-term fertilization practices incorporated with two-year tillage rotations.
Agricultural Water Management 221, 362-370. (参与作者)
(13)Zhang, Y., Wang, R., Wang, S., Ning, F.,
Wang, H., Wen, P., Li, A., Dong, Z., Xu, Z., Zhang, Y., Li, J., 2019. Effect of planting density on deep soil water and maize yield on the Loess Plateau of China.
Agricultural Water Management 223. (参与作者)
(14)Yu, Q.,
Wang, H., Wen, P., Wang, S., Li, J., Wang, R., Wang, X., 2020. A suitable rotational conservation tillage system ameliorates soil physical properties and wheat yield: An 11-year in-situ study in a semi-arid agroecosystem.
Soil & Tillage Research 199. (参与作者)
(15)Wang, S.,
Wang, H., Hafeez, M.B., Zhang, Q., Yu, Q., Wang, R., Wang, X., Li, J., 2020. 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.(共一)
学术兼职:
Science of the Total Environment 审稿人
Frontiers in Microbiology 审稿人
