叶木军,男,江西吉安人,1991年生,中共党员,农学博士;2022年10月入职赣南师范大学生命科学学院从事教学、科研工作,是国家脐橙工程技术研究中心研究人员。
联系方式
江西省赣州市章贡区赣南师范大学(黄金校区)生命科学学院
电子邮箱:yemujun1202@163.com
教育经历
2015/09 - 2022/07 浙江大学,植物营养学,农学博士
2011/09 - 2015/07 江西农业大学,农业资源与环境,农学学士
主要研究领域
1、土壤微生物分子生态学
2、脐橙果园科学施肥与果实品质
主持或参与科研项目
1、“十三五”国家重点研发计划项目子课题,2017YFD0200707-01,新型高效生化抑制剂的筛选与应用,169.45万元,结题,参与;
2、国家自然科学基金面上项目,31772387,硅缓解水稻铝毒的生理与分子机制,60万元,结题,参与;
3、浙江省科技计划项目,2018C02036,药肥减施增效技术研发与应用-基于种养废弃物循环利用的药肥减施增效技术研发与应用,50万元,结题,参与。
代表性研究论文
1、Ye, M., Yin, C., Fan, X., Gao, Z., Chen, H., Tan, L., Chang, S.X., Zhao, Y., Liang, Y., 2021. Procyanidin inhibited N2O emissions from paddy soils by affecting nitrate reductase activity and nirS- and nirK-denitrifier populations. Biology and Fertility of Soils 57, 935-947. (IF5=7.116; 中科院1区Top)
2、Ye, M., Zheng, W., Yin, C., Fan, X., Chen, H., Gao, Z., Zhao, Y., Liang, Y., 2022. The inhibitory efficacy of procyanidin on soil denitrification varies with N fertilizer type applied. Science of the Total Environment 806, 150588. (IF5=10.237; 中科院2区Top)
3、Xiao, Z., Ye, M., Gao, Z., Jiang, Y., Zhang, X., Nikolic, N., Liang, Y., 2022. Silicon reduces aluminum-induced suberization by inhibiting the uptake and transport of aluminum in rice roots and consequently promotes root growth. Plant and Cell Physiology 63, 340-352. (IF5=5.783; 中科院2区)
4、Gao, Z., Tang, X., Ye, M., Gul, I., Chen, H., Yan, G., Chang, S.X., Liang, Y., 2021. Effects of silicon on the uptake and accumulation of arsenite and dimethylarsinic acid in rice (Oryza sativa L.). Journal of Hazardous Materials 409, 124442. (IF5=12.984; 中科院1区Top)
5、Xiao, Z., Yan, G., Ye, M., Liang, Y., 2021. Silicon relieves aluminum-induced inhibition of cell elongation in rice root apex by reducing the deposition of aluminum in the cell wall. Plant and Soil 462, 189-205. (IF5=5.440; 中科院2区Top)
6、Yin, C., Tan, C., Chen, H., Ye, M., Fan, X., Zheng, W., Gao, Z., Peng, H., Liang, Y., 2022. Insight into the role of competition in niche differentiation between ammonia-oxidizing archaea and bacteria in ammonium-rich alkaline soil: A network-based study. Soil Biology and Biochemistry 168, 108638. (IF5=9.956; 中科院1区Top)
7、Fan, X., Yin, C., Chen, H., Ye, M., Zhao, Y., Li, T., Wakelin, S.A., Liang, Y., 2019. The efficacy of 3,4-dimethylpyrazole phosphate on N2O emissions is linked to niche differentiation of ammonia oxidizing archaea and bacteria across four arable soils. Soil Biology and Biochemistry 130, 82-93. (IF5=9.956; 中科院1区Top)
8、Chen, H., Yin, C., Fan, X., Ye, M., Peng, H., Li, T., Zhao, Y., Wakelin, S.A., Chu, G., Liang, Y., 2019. Reduction of N2O emission by biochar and/or 3,4-dimethylpyrazole phosphate (DMPP) is closely linked to soil ammonia oxidizing bacteria and nosZI-N2O reducer populations. Science of the Total Environment 694, 133658. (IF5=10.237; 中科院2区Top)
9、Chen, H., Yin, C., Fan, X., Ye, M., Liang, Y., 2021. Effect of P availability on straw-induced priming effect was mainly regulated by fungi in croplands. Applied Microbiology and Biotechnology 105, 9403-9418. (IF5=5.365; 中科院2区Top)
10、Yin, C., Fan, X., Chen, H., Jiang, Y., Ye, M., Yan, G., Peng, H., Wakelin, S.A., Liang, Y., 2021. 3, 4-Dimethylpyrazole phosphate is an effective and specific inhibitor of soil ammonia-oxidizing bacteria. Biology and Fertility of Soils 57, 753-766. (IF5=7.116; 中科院1区Top)
授权发明专利
叶木军、梁永超、郑婉宁、倪亮、彭红云、劳千峰. 一种增强硝化抑制剂在酸性土壤中作用效果的方法. 发明专利,2021 中国. ZL201911221701.7
