教师个人信息表
姓名 王晟强 性别
本人照片
出生年月   政治面貌 中共党员
籍贯 成都市 职称 助理教授
学历 研究生 学位 博士
联系电话 邮政编码 530004
Email shengqiang@gxu.edu.cn
QQ 微信
通讯地址 广西南宁市大学东路100号
所在学院 林学院 导师类型 校内导师
导师类别 硕士研究生导师
指导学科一
门类:理学 一级学科:生态学 二级学科
指导学科二
门类:农学 一级学科:农业资源利用 二级学科:土壤学
学习和工作经历 #工作经历:
2019.01至今 广西大学,林学院,助理教授
#教育经历:
2014.09-2018.12 四川农业大学,资源学院,生态学,理学博士
2011.09-2014.07 四川农业大学,资源环境学院,土壤学,农学硕士
2007.09-2011.07 四川农业大学,资源环境学院,农业资源与环境,农学学士
#留学经历:
2017.09-2018.09 加拿大湖首大学,自然资源管理学院,国家公派联合培养
学术兼职
主讲课程 #本科生课程:生态环境监测;生态环境评价;气象学
#研究生课程:景观生态学
主要研究方向 土壤生态恢复与重建;养分流失及环境效应
主持(或参与)的主要科研项目 #主持项目:
1. 广西自然科学青年基金,2019GXNSFBA185012,基于土壤团聚体角度揭示茶园土壤微生物活性演变机制,2019.09-2022.08
2. 广西大学人才引进项目,A3360051002,桂南茶园土壤质量演变机制研究,2019.01-2021.12
#主研项目(排名第二):
1. 国家自然科学地区基金,31960240,基于根际微生物关键过程的珍贵固氮树种对退化人工林红壤磷素组分和转化的影响及其调控机制,2020.01-2023.12
2. 广西自然科学面上基金,2019GXNSFAA185023,南亚热带退化针叶人工林近自然化改造土壤团聚体微结构的演变特征及其养分有效性的形成机制,2019.09-2022.08
3. 广西自然科学青年基金,2019GXNSFBA245096,施用猪粪生物炭对连栽桉树人工林土壤氮素转化关键过程的影响及其驱动机制,2019.09-2022.08
#指导项目:
1. 广西研究生教育创新计划,YCSW2020022,基于土壤团聚体角度揭示茶园土壤酶活性演变特征,2020.01-2021.01
取得的主要成果 #SCI:
1. Yu Linfei1, Wang Shengqiang1, Li Tingxuan*, Han Le, 2021. Response of soil faunal communities to tea tree cultivars in the hilly region of western Sichuan, China. Scientia Horticulturae (Q3), 275: 109701. (co-first author)
2. Wang Shengqiang, Yao Xianyu, Zhang Zhe, He Xinxin, Ye Shaoming*, 2021. Soil aggregation and aggregate-related exchangeable base cations under different aged tea (Camellia sinensis L.) plantations in the hilly regions of southern Guangxi, China. Soil Science and Plant Nutrition (Q3).
3. Wang Shengqiang, He Xinxin, Zhang Zhe, Ye Shaoming*, 2021. Tea planting age effects on the soil aggregation and aggregate-related organic matters, microbial biomass and activity in the southern Guangxi of China. Archives of Agronomy and Soil Science (Q2).
4. Wang Shengqiang, Ye Shaoming*, 2020. Dynamics of bacterial function characteristics in soil aggregates during the tea-planting process. Geoderma (Q1), 377: 114609.
5. Wang Shengqiang, Zhang Zhe, Ye Shaoming*, 2020. Response of soil fertility characteristics in water-stable aggregates to tea cultivation age in hilly region of southern Guangxi, China. Catena (Q1), 191: 104578.
6. Wang Shengqiang, Yao Xianyu, Ye Shaoming*, 2020. Soil aggregate-related organic carbon and relevant enzyme activities as affected by tea (Camellia sinensis L.) planting age in hilly region of southern Guangxi, China. Applied Soil Ecology (Q2), 150: 103444.
7. Wang Shengqiang, He Xinxin, Ye Shaoming*, 2020. Soil aggregation and aggregate-associated carbon, nitrogen, and phosphorus under different aged tea (Camellia sinensis L.) plantations in hilly region of southern Guangxi, China. Scientia Horticulturae (Q3), 262: 109007.
8. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, Han Y.H. Chen, 2019. Soil aggregate-associated bacterial metabolic activity and community structure in different aged tea plantations. Science of the Total Environment (Q2), 654: 1023-1032.
9. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, Zhang Xizhou, Han Y.H. Chen, 2019. Soil organic carbon and nutrients associated with aggregate fractions in a chronosequence of tea plantations. Ecological Indicators (Q2), 101: 444-452.
10. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, 2018. Tea plantation age effects on soil aggregate-associated carbon and nitrogen in the hilly region of western Sichuan, China. Soil and Tillage Research (Q1), 180: 91-98.
11. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, 2018. Effects of tea plantation age on soil aggregate-associated C- and N-cycling enzyme activities in the hilly areas of Western Sichuan, China. Catena (Q2), 171: 145-153.
12. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, 2018. Response of soil aggregate-associated microbial and nematode communities to tea plantation age. Catena (Q2), 171: 475-484.
13. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, 2017. Distribution of microbial biomass and activity within soil aggregates as affected by tea plantation age. Catena (Q2), 153: 1-8.
14. Wang Shengqiang, Li Tingxuan*, Zheng Zicheng, 2016. Effect of tea plantation age on the distribution of soil organic carbon and nutrient within micro-aggregates in the hilly region of western Sichuan, China. Ecological Engineering (Q3), 90: 113-119.
#中文:
1. 王晟强, 张喆, 叶绍明*, 2020. 桂南茶园土壤团聚体酶活性对植茶年限的响应. 生态学报, 40(18): 1-10.
2. 王晟强, 杜磊, 叶绍明*, 2020. 桂南茶园土壤团聚体有机碳及养分对植茶年限的响应. 应用生态学报, 31(3): 837-844.
3. 王晟强, 郑子成, 李廷轩*, 2014. 四川茶园土壤微团聚体组成及其分形特征. 林业科学, 50(9): 10-17.
4. 王晟强, 郑子成, 李廷轩*, 2014. 应用Le Bissonnais法研究茶园土壤团聚体稳定性. 茶叶科学, 34(3): 307-314.
5. 王晟强, 郑子成, 李廷轩*, 李彦, 2013. 植茶年限对土壤团聚体中交换性盐基离子分布的影响. 土壤学报, 50(5): 1013-1020.
6. 王晟强, 郑子成, 李廷轩*, 2013. 植茶年限对土壤团聚体氮、磷、钾含量变化的影响. 植物营养与肥料学报, 19(6): 1393-1402.
数据更新日期 2020-09-21 填报责任人 王晟强
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