姓名：罗功文                 职称：副教授（校聘） 博导

E-mail: gongwenluo@hunau.edu.cn

个人简介   

罗功文，男，1991.05，湖南常德人，九三学社社员，副教授，博士生导师。2020年6月毕业于南京农业大学，农学博士，师从沈其荣院士。2020年7月以神农学者青年英才I层次人才全职引进ufc下注平台，现为农业资源与环境学系教师。中国土壤学会青年工作委员会委员，中国植物营养与肥料学会肥料发展委员会委员，iMeta青年编委，water、Agronomy等杂志客座编辑，国家自然科学基金函评专家。主要研究方向为：土壤微生物资源开发与应用，土壤障碍消减与作物产能提升，新型多功能肥料研发等。以第一作者或通讯作者在mSystems、Soil Biology and Biochemistry、Functional Ecology、Journal of Hazardous Materials等国际权威期刊发表SCI论文30余篇，近5年被引1500余次，H指数21，参编中文著作《中国有机（类）肥料》1 部。作为研究骨干参与了国家973计划项目—“作物高产高效的土壤微生物区系特征及调控”（2015CB150500）子课题，国家重点研发专项—“肥料磷素转化与高效利用机理”（2017YFD0200200）子课题中相关研究。现主持国家自然科学基金、湖南省重点研发计划项目课题、省级科研创新计划项目、ufc下注平台高层次人才项目等。参加国内外学术会议30余次，获“第十七届中国青年土壤科学工作者暨第十二届中国青年植物营养与肥料科技工作者学术会议学术报告一等奖”、南京农业大学和中国植物营养与肥料学会“优秀博士学位论文”等荣誉。

工作经历

2020/07月-今：ufc下注平台，ufc下注平台，农业资源与环境学系

2020/12-2022/12：中国科学院亚热带农业生态研究所，生态学，博士后，

合作导师：李德军 研究员

教育经历 

2017/09-2020/06：南京农业大学，植物营养学，博士，导师：沈其荣 院士

2015/09-2017/09：南京农业大学，植物营养学，硕士，导师：郭世伟 教授

2011/09-2015/06：ufc下注平台，农业资源与环境专业，学士

学术/社会兼职

1、中国土壤学会青年工作委员会委员，中国植物营养与肥料学会肥料发展委员会委员，湖南省土壤肥料学会新型肥料研发委员会委员；

2、iMeta 杂志青年编委，water、Agronomy等杂志客座编辑；

3、国家自然科学基金函评专家；

4、九三学社湖南省委资源环境专门委员会委员，九三学社湖南省委民主监督专门委员会委员。

主要承担课程

1、本科生：《土壤肥料学》、《土壤微生物学》，《专业专题讲座》、《农业环境保护进展》等；

2、研究生：《农业污染生物修复技术》、《农业资源与环境研究技术》、《农业资源与环境专题》、《高级试验设计与统计》、《研究生论文写作》等。

员工培养

目前招收博士研究生1名，硕士研究生5名，指导博士研究生4名，硕士研究生14名，分为3个研究小组，主要围绕作物多样化种植、土壤有益菌种资源挖掘、新型肥料研发开展土壤障碍消减与作物产能提升相关研究。欢迎农业资源与环境、生态学、作物学、微生物学、生物信息学、基因组学、环境科学与工程等专业的员工报考研究生。

研究小组1 土壤障碍消减与作物产能提升——作物多样化种植与群体优化

 研究小组2 土壤障碍消减与作物产能提升——土壤有益菌种资源挖掘与应用

研究小组3 土壤障碍消减与作物产能提升——新型多功能肥料创制与应用

学术论文（第一/通讯作者）

Luo G.W., Ling N., Nannipieri Paolo, Chen H., Raza W., Wang M., Guo S.W., Shen Q.R. Long-term fertilisation regimes affect the composition of the alkaline phosphomonoesterase encoding microbial community of a vertisol and its derivative soil fractions. Biology and Fertility of Soils. 2017, 1-14.

Luo G.W., Rensing C., Chen H., Liu M.Q., Wang M., Guo S.W., Ling N., Shen Q.R. Deciphering the associations between soil microbial biodiversity and ecosystem multifunctionality deiven by long-term fertilization managements. Functional Ecology. 2017, 1103-1116.

Luo G.W., Friman V.P., Chen H.n, Liu M.Q., Wang M., Guo S.W., Ling N., Shen Q.R. Long-term fertilization management drives the abundance and composition of N-cycling-related microbial groups via soil particle-size and microhabitat differentiation. Soil Biology and Biochemistry. 2018, 213-223.

Luo, G.W., Li L., Friman V.P., Guo J.J., Guo S.W., Shen Q.R., Ling N. Organic amendments increase crop yields by improving microbe-mediated soil functioning of agroecosystems: A meta-analysis. Soil Biology and Biochemistry. 2018, 105-115.

Luo, G.W., Wang T.T., Li K.S., Li L., Zhang J.W., Guo S.W., Ling N., Shen Q.R. Historical-nitrogen deposition and straw addition facilitate the resistance of soil multifunctionality to drying-wetting cycles. Applied Environmental Microbiology. 2019, e02251-18.

Luo, G.W., Ning L., Chao X., Michaela A.D, Les G.F. Guo S.W., Yakov K, Shen QR. Nitrogen-inputs regulate microbial functional and genetic resistance and resilience to drying–rewetting cycles, with implications for crop yields. Plant and Soil 2019, 441(1-2), 301-315.

Luo, G.W., Sun B., Li L., Li M.H., Liu M.Q., Zhu Y.Y., Guo S.W., Ling N., Shen Q.R. Understanding how long-term organic amendments increase soil phosphatase activities: insight into phoD- and phoC-harbouring microbial communities. Soil Biology and Biochemistry 2019, 107632.

Luo, G.W., Xue C., Jiang Q.H., Xiao Y., Zhang F.G., Guo S.W., Shen Q.R., Ling N. Soil carbon, nitrogen, and phosphorus cycling microbial populations and their resistance to global change depend on soil C:N:P stoichiometry. mSystems 2020, e00162-20.

Xie, G., Kong, X., Kang, J., Su, N., Luo, G.W.* (通讯作者), Fei, J. Community-level dormancy potential regulates bacterial beta-diversity succession during the co-composting of manure and crop residues. Science of The Total Environment 2021, 772, 145506.

Xie, G., Kong, X., Kang, J., Su, N., Fei, J. Luo, G.W.* (通讯作者). Fungal community succession contributes to product maturity during the co-composting of chicken manure and crop residues. Bioresource Technology 2021, 328.

Luo, G.W., Luo G, Jin T, Zhang H, Fei J. Deciphering the diversity and functions of plastisphere bacterial communities in plastic-mulching croplands of subtropical China. J Hazard Mater 2022, 422:126865.

Yang Z, Zhang Y, Wang Y, Zhang H, Zhu, Q, Luo, G.W.* (通讯作者). Intercropping regulation of soil phosphorus composition and microbially-driven dynamics facilitates maize phosphorus uptake and productivity improvement. Field Crops Res 2022, 287:108666.

Wang Y, Zhang Y, Zhang H, Yang Z, Luo, G.W.* (通讯作者). Intercropping-driven nitrogen trade-off enhances maize productivity in a long-term experiment. Field Crops Res 2022, 287:108671.

Zhang H, Luo, G.W.* (共同作者), Wang Y, Zhang Y. Crop rotation-driven change in physicochemical properties regulates microbial diversity, dominant components, and community complexity in paddy soils. Agr Ecosyst Environ 2023, 343:108278.

Zhang Y, Zhao H, Hu A, Wang Y, Luo, G.W.* (通讯作者). Understanding how reed-biochar application mitigates nitrogen losses in paddy soil: Insight into microbially-driven nitrogen dynamics. Chemosphere 2022, 295:133904.

Wang Y, Zhang Y, Zhao H, Hu A, Luo, G.W.* (通讯作者). The effectiveness of reed-biochar in mitigating phosphorus losses and enhancing microbially-driven phosphorus dynamics in paddy soil. J Environ Manage 2022, 314:115087.

Luo, G.W., Zhang H, Jin T, Fei J. Crop types and irrigation regimes as drivers of plastisphere bacterial communities in plastic-mulching croplands of subtropical China. Appl Soil Ecol 2023, 182: 204696.

Kong X, Luo, G.W. (并列第一), Yan B, Xie G. Dissolved organic matter evolution can reflect the maturity of compost: Insight into common composting technology and material composition. J Environ Manage 2023, 326:116747 (环境科学与生态学，中科院П区，IF = 8.91).

Luo Z, Song H, Huang M, Luo, G.W.* (通讯作者). Dense planting with reducing nitrogen rate increased nitrogen use efficiency and translocated nitrogen in grains in double-cropped rice. Agronomy 2022, 12:1090.

Liu X, Rong X, Luo, G.W.* (通讯作者). Community succession of microbial populations related to C–N–P–S biological transformations regulates product maturity during cow-manure-driven composting. Bioresource Technology 2023, 369,128493.

Su N, Xie G, Luo, G.W.* (通讯作者). The effectiveness of eight-years phosphorus reducing inputs on double cropping paddy: Insights into productivity and soil-plant phosphorus tradeoff. Science of The Total Environment 2023, 866, 161429.

Hu W, Zhang Y, Luo, G.W.* (通讯作者). Coupling amendment of biochar and organic fertilizers increases maize yield and phosphorus uptake by regulating soil phosphatase activity and phosphorus-acquiring microbiota. Agr Ecosyst Environ 2023, 355:108582.

Wang Y, Zhang H, Luo, G.W.* (通讯作者). Crop rotation-driven changes in rhizosphere metabolite profiles regulate soil microbial diversity and functional capacity. Agr Ecosyst Environ 2023, 358:108716.

Yang Z, Zhang Y, Luo, G.W.* (通讯作者). Regulation of soil C–N–P stoichiometry by intercropping mitigates microbial resource limitations and contributes to maize productivity. Plant and Soil 2023.

罗功文，张玉平，张振华. 乡村背振兴背景下地方农业院校新“土郎中”培育的模式改革与实践——以ufc下注平台为例. 高等农业教育 2022, 5:82-87.