职称:教授
邮箱:luomin@fzu.edu.cn
所在系:地理科学与规划系
BRID:03850.00.01137
ORCID:0000-0003-3284-629X
Web of Science Researcher ID: JAD-1832-2023
学术网页:https://www.researchgate.net/profile/Min-Luo-13
https://www.scopus.com/authid/detail.uri?authorId=56105989200
https://webofscience.clarivate.cn/wos/author/record/JAD-1832-2023
湿地环境生态保育与功能开发专业委员会委员、闽江河口湿地生态系统定位观测研究站核心成员
福建省生态文明研究会理事、福建省科技特派员、泉州市科技特派员
中国土壤学会会员、中国生态学会会员、福建省海洋生态文明促进会会员、福建省海洋学会会员
国家基金委地学部基金函评人、Journal of Plant Ecology青年编委、水生生态学青年编委、Frontiers in Microbiology客座编辑
Global Change Biology、Soil Biology and Biochemistry、Journal of Applied Ecology等20多个高水平期刊审稿人
学习研修经历
2018/11-2019/11,美国克莱姆森大学 Pee & Dee Research Center 访问学者,合作导师:叶荣忠教授
2015/07-2018/10,福建师范大学 生态学博士后流动站,合作导师:仝川教授
2009/09-2015/01,福建师范大学,自然地理学专业,博士,导师:曾从盛研究员
2003/09-2006/04,38238威尼斯欢迎你,岩土工程专业,硕士,导师:黄真萍教授
1999/09-2003/07,38238威尼斯欢迎你,勘查技术与工程专业,学士
工作经历
2023/09-至今,澳门人威尼斯3966 教授
2022/12-2023/09,澳门人威尼斯3966 校聘教授
2016/06-2022/12,澳门人威尼斯3966 副教授
2009/07-2016/06,38238威尼斯欢迎你环境与资源学院 讲师
2006/04-2009/07,38238威尼斯欢迎你环境与资源学院 助教
主讲课程
本科课程:自然地理学,计算机辅助制图,人文地理与城乡规划导论,城乡规划制图实践
硕士课程:生态学理论与应用、综合自然地理学、专业英语
自然地理学被认定为福建省一流本科课程
自然地理学思政案例被新华思政网收录:https://xhsz.news.cn/curriculum/detail/1797
研究方向
主要从事全球变化影响下河口潮汐湿地铁元素的生物地球化学循环、有机碳厌氧代谢速率与途径分析、滨海植物根系—土壤—微生物三者间的物质循环和能量流动等领域的研究。先后主持国家自然科学基金面上项目、国家自然科学基金青年项目、中国博士后面上基金、福建省自然科学基金、38238威尼斯欢迎你科技发展基金等项目,在Global Biogeochemical Cycles、Soil Biology and Biochemistry、Functional Ecology、中国环境科学、环境科学、生态学报和环境科学学报等国内外刊物上发表研究成果50余篇。
科研项目
1. 国家自然科学基金面上项目(32071598):盐氮耦合效应对河口沼泽湿地根际激发效应的影响与调控机制.(主持)
2. 福建省自然科学基金面上项目(2020J01503):低水平盐水入侵对河口沼泽湿地根际激发效应的影响及其作用机制.(主持)
3. 国家自然科学基金青年项目(41501252):根系扰动对河口潮汐沼泽植物根际铁异化还原的影响及其机制.(主持)
4. 福建省自然科学基金青年项目(2016J05097):滨海沼泽植物根系泌氧对根际铁异化还原的影响及机制.(主持)
5. 福建闽江河口湿地国家级自然保护区管理处2023年度咨询课题(MJHKSD20230202):闽江河口沼泽湿地土壤碳循环关键过程对海平面上升的响应.(主持)
6. 中国博士后基金自然科学基金青年项目(2016M602052):亚热带河口湿地植物根系泌氧对土壤铁异化还原的影响.(主持)
7. 湿润亚热带生态-地理过程教育部重点实验室:滨海河口湿地互花米草根系激发效应和根际有机碳分解途径.(主持)
8. 中国科学院海岸带环境过程与生态修复重点实验室开放基金(2018KFJJ10):模拟盐水入侵对河口湿地有机碳厌氧代谢途径的影响.(主持)
9. 福建师范大学地理研究所(2023110303):典型滨海湿地入侵物种的控制及生态修复技术研究互花米草入侵监测与湿地蓝碳研究科研合作.(主持)
10. 福建省科技厅省属公益类科研专项(2015R1101029-7):东南沿海红树林湿地甲烷传输及排放研究.(参与)
11. 国家自然科学基金青年科学基金(41601102):亚热带河口湿地红树林甲烷传输机制研究.(参与)
指导省级以上老员工创新创业项目
1. 国家老员工创新创业项目(201610386020):滨海沼泽植物根系泌氧对根际铁异化还原的影响及其机制
2. 福建省老员工创新创业项目(41601102):盐水入侵对河口湿地有机碳矿化速率和途径的影响
科研论文
[1] Dehong Hu, Wenjing Lan, Min Luo*, Tianning Fan, Xin Chen, Ji Tan, Shihua Li*, Pingping Guo, Jiafang Huang, 2023. Increase in iron-bound organic carbon content under simulated sea-level rise: A “marsh organ” field experiment. Soil Biology and Biochemistry 187: 109217. (通讯作者,SCI 1区,TOP期刊)
[2] Tianning Fan, Min Luo*, Ji Tan, Dehong Hu, Xin Chen, Jiafang Huang, Shihua Li, Pingping Guo, Ji Chen*, 2023. Incorporating biotic phosphorus-acquisition strategies into soil phosphorus transformation under long-term salinization in a tidal wetland. Catena 231: 107274. (通讯作者,SCI 1区,TOP期刊)
[3] Ji Tan, Min Luo*, Fengfeng Tan, Eric Lichtfouse, Changwei Zhang, Xin Chen, Jiafang Huang, Yang Tan, Leilei Xiao. 2023. Aquaculture drastically increases methane production by favoring acetoclastic rather than hydrogenotrophic methanogenesis in shrimp pond sediments. Aquaculture 563: 738999. (通讯作者,SCI 1区,TOP期刊)
[4] Ji Tan, Eric Lichtfouse, Min Luo*, Yuxiu Liu, Fengfeng Tan, Changwei Zhang, Xin Chen, Jiafang Huang, Leilei Xiao. 2022. Iron reduction controls carbon mineralization in aquaculture shrimp pond sediments in subtropical estuaries. Journal of Geophysical Research: Biogeosciences 127(12): e2022JG007081. (通讯作者,SCI 2区)
[5] Min Luo, Daryl L. Moorhead, Raúl Ochoa-Hueso, Carsten W. Mueller, Samantha C. Ying, Ji Chen. 2022. Nitrogen loading enhances phosphorus limitation in terrestrial ecosystems with implications for soil carbon cycling. Functional Ecology 1365-2435: 14178. (高被引论文,第一作者,SCI 1区,TOP期刊)
[6] Yang Yang, Daryl L. Moorhead, Hayley Craig, Min Luo*, Xin Chen, Jiafang Huang, Jørgen E. Olesen, Ji Chen. 2022. Differential Responses of Soil Extracellular Enzyme Activities to Salinization: Implications for Soil Carbon Cycling in Tidal Wetlands. Global Biogeochemical Cycles 36. (通讯作者,SCI 1区,TOP期刊)
[7] Xin Chen, Min Luo*, Ji Tana, Changwei Zhang, Yuxiu Liu, Jiafang Huang, Yang Tan, Leilei Xiao, Zhanghua Xu. 2022. Salt-tolerant plant moderates the effect of salinity on soil organic carbon mineralization in a subtropical tidal wetland. Science of The Total Environment 837: 155855. (通讯作者,SCI 1区,TOP期刊)
[8] Changwei Zhang, Yuxue Zhang, Min Luo*, Ji Tan, Xin Chen, Fengfeng Tan, Jiafang Huang. 2022. Massive methane emission from tree stems and pneumatophores in a subtropical mangrove wetland. Plant and Soil 473(1-2): 489-505. (通讯作者,SCI 2区,TOP期刊)
[9] Xin Chen, Min Luo*, Yuxiu Liu, Ji Tan, Changwei Zhang, Fengfeng Tan, Jiafang Huang. 2022. Linking carbon-degrading enzyme activity to microbial carbon-use trophic strategy under salinization in a subtropical tidal wetland. Applied Soil Ecology 174: 104421. (通讯作者,SCI 2区)
[10] Yuxiu Liu, Min Luo*, Ji Chen, Rongzhong Ye, Ji Tan, Zhifeng Zhai, Yang Yang, Jiafang Huang. 2021. Root iron plaque abundance as an indicator of carbon decomposition rates in a tidal freshwater wetland in response to salinity and flooding. Soil Biology and Biochemistry 162: 108403. (通讯作者,SCI 1区,TOP期刊)
[11] Zhifeng Zhai, Min Luo*, Yang Yang, Yuxiu Liu, Xin Chen, Changwei Zhang, Jiafang Huang, Ji Chen. 2021. Trade-off between microbial carbon use efficiency and microbial phosphorus limitation under salinization in a tidal wetland. CATENA 209: 105809. (通讯作者,SCI 1区,TOP期刊)
[12] Jing Bai, Min Luo *, Yang Yang, Shuyao Xiao, Zhifeng Zhai, Jiafang Huang. 2021. Iron-bound carbon increases along a freshwater-oligohaline gradient in a subtropical tidal wetland, Soil Biology and Biochemistry 154: 108128. (通讯作者,SCI 1区,TOP期刊)
[13] Min Luo, Zhifeng Zhai, Rongzhong Ye, Ronglian Xing, Jiafang Huang, Chuan Tong. 2020. Carbon mineralization in tidal freshwater marsh soils at the intersection of low-level saltwater intrusion and ferric iron loading. CATENA 193: 104644. (第一作者,SCI 1区,TOP期刊)
[14] Shuyao Xiao, Min Luo*, Yuxiu Liu, Jing Bai, Yang Yang, Zhifeng Zhai, Jiafang Huang. 2020. Rhizosphere effect and its associated soil-microbe interactions drive iron fraction dynamics in tidal wetland soils. Science of The Total Environment 756: 144056. (通讯作者,SCI 1区,TOP期刊)
[15] Chuan Tong, Min Luo*, Jiafang Huang, Chenxin She, Yalan Li, Peng Ren. 2020. Greenhouse gas fluxes and porewater geochemistry following short-term pulses of saltwater and Fe(III) in a subtropical tidal freshwater estuarine marsh. Geoderma 369: 114340. (通讯作者,SCI 1区,TOP期刊)
[16] Min Luo, Wenfeng Zhu, Jiafang Huang, Yuxiu Liu, Xun Duan, Jie Wu, Chuan Tong. 2019. Anaerobic organic carbon mineralization in tidal wetlands along a low-level salinity gradient of a subtropical estuary: Rates, pathways, and controls. Geoderma 337(3): 1245-1257. (第一作者,SCI 1区,TOP期刊)
[17] Min Luo, Jia-Fang Huang, Wen-Feng Zhu, Chuan Tong. 2019. Impacts of increasing salinity and inundation on rates and pathways of organic carbon mineralization in tidal wetlands: a review. Hydrobiologia 111: 1-19. (第一作者;2020年环境类ESI高被引论文,SCI 3区)
[18] Yuxiu Liu, Min Luo*, Rongzhong Ye, Jiafang Huang, Leilei Xiao, Qikai Hu, Aijv Zhu, Chuan Tong. 2019. Impacts of the rhizosphere effect and plant species on organic carbon mineralization rates and pathways, and bacterial community composition in a tidal marsh. FEMS microbiology ecology 95(9): fiz120. (通讯作者,SCI 2区)
[19] Min Luo, Yuxiu Liu, Jiafang Huang, Leilei Xiao, Wenfeng Zhu, Xun Duan, Chuan Tong. 2018. Rhizosphere processes promote microbial-mediated ferric iron reduction over bulk soil: a potential contribution from root porosity and aerenchyma. Plant and Soil 433(1-2): 83-100. (第一作者,SCI 1区,TOP期刊)
[20] Min Luo, Jiafang Huang, Chuan Tong, Yuxiu Liu, Xun Duan, Yin Hu. 2017. Iron dynamics in a subtropical estuarine tidal marsh: effect of season and vegetation. Marine Ecology Progress Series 577: 1-15. (第一作者,SCI 2区,TOP期刊)
[21] Min Luo, Cong-Sheng Zeng, Chuan Tong, Jia-Fang Huang, Kai Chen, Feng-Qin Liu. 2016. Iron reduction along an inundation gradient in a tidal sedge (Cyperus malaccensis) marsh: the rates, pathways, and contributions to anaerobic organic matter mineralization. Estuaries and Coasts 39(6): 1679-1693. (第一作者,SCI 3区)
[22] Min Luo, Cong-Sheng Zeng, Chuang Tong, Jia-Fang Huang, Qiang Yua, Yan-Bin Guoa, Shu-Hua Wang. 2015. Kinetics of chemical and microbial iron reduction along an inundation gradient in a tidal marsh of the Min River Estuary, southeastern China. Geomicrobiology Journal 32(7): 635-647. (第一作者,SCI 3区)
[23] Min Luo, Cong-Sheng Zeng, Chuang Tong, Jia-Fang Huang, Qiang Yu, Yan-Bin Guo, Shu-Hua Wang. 2014. Abundance and speciation of iron across a subtropical tidal marsh of the Min River Estuary in the East China Sea. Applied Geochemistry 45: 1-13. (第一作者,SCI 3区)
[24] 黄小清, 仝川, 罗敏*等.九龙江河口潮滩湿地土壤有机碳储量、活性组分及稳定性沿淹水梯度的分布特征[J]. 环境科学, 2022,43(4): 2226-2236. (通讯作者,北大核心,EI收录)
[25] 孙一萍, 罗敏*, 刘育秀等. 2021. 盐分和淹水增加对河口潮汐淡水沼泽湿地土壤磷形态和磷酸酶活性的影响[J]. 环境科学学报, 41(12): :5150-5160. (通讯作者,北大核心)
[26] 谭季, 罗敏*, 黄佳芳等. 2020. 亚热带河口陆基养殖塘底泥甲烷产生动力学研究[J]. 环境科学学报, 40(2): 665-677. (通讯作者,北大核心)
[27] 朱爱菊, 仝川, 罗敏*等. 2019. 河口陆基养虾塘沉积物铁的含量和形态. 中国环境科学, 39(11), 4785-4795. (通讯作者,北大核心,EI收录)
[28] 李敬,黄佳芳,罗敏*等. 2019. 淹水增加对闽江河口淡水潮汐湿地孔隙水地球化学特征及CO2和CH4排放通量的影响[J]. 环境科学, 40(12):5493-5501. (通讯作者,北大核心,EI收录)
[29] 胡启凯, 罗敏*, 黄佳芳等. 2019. 闽江河口潮汐沼泽湿地天然低盐度梯度土壤胞外酶活性特征[J]. 环境科学学报, 39(9): 3107-3116. (通讯作者,北大核心)
[30] 朱文凤, 仝川, 罗敏*等. 2018. 模拟Fe(III)和盐水输入对闽江河口感潮淡水湿地沉积物及间隙水Fe和S的影响[J]. 环境科学学报, 38(11):4411-4421. (通讯作者)
[31] 段勋, 罗敏*, 黄佳芳等. 2017. 闽江河口潮滩沼泽湿地沉积物铁的形态和空间分布[J]. 环境科学学报, 37(10): 3780-3791. (通讯作者,北大核心)
[32] 罗敏, 黄佳芳, 刘育秀等. 2017. 根系活动对湿地植物根际铁异化还原的影响及机制研究进展[J]. 生态学报, 2017, 37(1): 156-166. (第一作者,北大核心)
[33] 罗敏, 曾从盛, 仝川等. 2014. 滨海潮滩湿地铁还原研究进展[J]. 湿地科学, 12(8): 527-532.
[34] 朱爱菊, 孙东耀, 谭季, 黄佳芳, 罗敏. 2019. 亚热带河口陆基养虾塘水体 CDOM 三维荧光光谱平行因子分析. 环境科学, 40(1): 164-171. (北大核心,EI收录)
[35] 汪艳, 谭季, 谭凤凤, 张昌威, 陈欣, 全文汇, 黄佳芳, 罗敏. 2023. 盐分增强对河口淡水潮汐湿地土壤活性碳组分和碳获取酶活性的影响[J].环境科学学报, 2023, 43(05): 459-470. (北大核心)
[36] 谭凤凤, 罗敏, 张昌威, 陈欣, 黄佳芳. 2023. 植物调节湿地CO2和CH4排放对淹水增强的响应. 中国环境科学, 43(1): 424-435. (北大核心,EI收录)
[37] Leilei Xiao, Shiling Zheng, Eric Lichtfouse, Min Luo, Yang Tan, Fanghua Liu. 2020. Carbon nanotubes accelerate acetoclastic methanogenesis: From pure culture to anaerobic soil [J]. Soil Biology and Biochemistry 150:107938. (SCI 1区,TOP期刊)
[38] Jiajia Li, Leilei Xiao, Shiling Zheng, Yuechao Zhang, Min Luo, Chuan Tong, Hengduo Xu, Yang Tan, Juan Liu, Oumei Wang, Fanghua Liu. 2018. A new insight into the strategy for methane production affected by conductive carbon cloth in wetland soil: Beneficial to acetoclastic methanogenesis instead of CO2 reduction. Science of the total environment 643: 1024-1030. (SCI 1区,TOP期刊)
[39] Leilei Xiao, Wenchao Wei, Min Luo, Hengduo Xua, Dawei Feng, Jiafeng Yu, Jiafang Huang, Fanghua Liu. 2019. A potential contribution of a Fe (III)-rich red clay horizon to methane release: Biogenetic magnetite-mediated methanogenesis. CATENA, 181: 104081. (SCI 1区,TOP期刊)
[40] Binaya Parajuli, Rongzhong Ye, Min Luo, Thomas F. Ducey, Dara Park, Matthew Smith, Gilbert Sigua. 2021. Contrasting carbon and nitrogen responses to tillage at different soil depths: An observation after 40-year of tillage management. Soil Science Society of America Journal, 85(4): 1256-1268. (SCI 3区)
[41] Binaya Parajuli, Min Luo, Rongzhong Ye, Thomas F. Ducey, Dara Park, Matthew Smith, Gilbert Sigua. 2021. Aggregate distribution and the associated carbon in norfolk soils under long-term conservation tillage and short-term cover cropping. Communications in Soil Science and Plant Analysis, 52(8), 859-870. (SCI 4区)
[42] Dongyao Sun, Jiafang Huang, Min Luo, Cheng Chen, Xue Lan, Weifang Hu. 2022. Dissimilatory nitrate reduction processes in surface sediments of shrimp ponds during the culture period. Frontiers in Marine Science, 9. (SCI 2区)
[43] Yuxiang Yuan, Cong Ding, Haitao Wu, Xue Tian, Min Luo, Weiyi Chang, Lei Qin, Liang Yang, Yuanchun Zou, Kaikai Dong, Xiaoyan Zhu, Ming Jiang, Marinus L. Otte. 2022. Dissimilatory iron reduction contributes to anaerobic mineralization of sediment in a shallow transboundary lake. Fundamental Research, S2667325822004435.
[44] Xiaoyu Li, Lirong Zhang, Lifeng Zhou, Jian Liu, Meng Zhou, Zhengyu Lin, Min Luo, Baohua Zhang, and Leilei Xiao. 2022. Production Potential of Greenhouse Gases Affected by Microplastics at Freshwater and Saltwater Ecosystems. Atmosphere, 13(11): 1796. ( SCI 3区)
[45] 曹琼, 黄佳芳, 罗敏, 谭季, 仝川. 2022. 滨海沼泽湿地转化为养殖塘对其碳储量的影响[J].中国环境科学, 42(03):1335-1345. (北大核心,EI收录)
[46] 胡芳, 曹琼, 黄佳芳, 罗敏, 郭萍萍, 仝川. 2023. 河口沼泽湿地转化为养虾塘对土壤胞外酶活性及CO2和CH4产生潜力的影响[J].环境科学学报, 1-11. (北大核心)
[47] 仝川, 罗敏, 陈鹭真, 黄佳芳. 2023. 滨海蓝碳湿地碳汇速率测定方法及中国的研究现状和挑战[J].生态学报, 2023(17):1-15. (北大核心)
[48] 刘娜,杨洋,仝川, 罗敏, 黄佳芳. 2023. 九龙江河口湿地4种不同生境土壤微生物代谢限制及碳利用效率. 环境科学学报, 43(6): 471-482. (北大核心)
[49] 仝川,罗敏,谭季. 2024. 湿地甲烷代谢对氮输入响应的复杂性及其机制分析[J]. 生态学报, 44(4): 1-12. (北大核心)
[50] C. Tong, J. Tan, M. Luo et al., Inundation counteracts the promoting effect of nitrogen enrichment on soil organic carbon mineralization in a tidal marsh, Fundamental Research, https://doi.org/10.1016/j.fmre.2024.01.013
教改论文
[1] 罗敏, 黄佳芳, 许章华等. 2022. 碳中和背景下基于滨海湿地控制实验系统的地理学实践教学改革[J].实验室研究与探索, 41(10):173-178. (第一作者,北大核心)
获奖经历
1. 2018年福建师范大学优秀博士后;奖励单位:福建师范大学;
2. 指导2021级本科生获2022年国际员工环境与可持续发展大会(ISCES)全球方案挑战赛三等奖。
3. 2023年9月,获38238威尼斯欢迎你教学优秀奖三等奖;奖励单位:38238威尼斯欢迎你;
4. 2022年12月,获教师教学创新大赛副高组(二等奖),38238威尼斯欢迎你,排名第一;
5. 2023年获38238威尼斯欢迎你教学优秀奖三等奖;奖励单位:38238威尼斯欢迎你;
6. 2010年获38238威尼斯欢迎你教学优秀奖三等奖;奖励单位:38238威尼斯欢迎你;
7. 2011年获38238威尼斯欢迎你教学优秀奖三等奖;奖励单位:38238威尼斯欢迎你;
8. 2012年获38238威尼斯欢迎你教学优秀奖三等奖;奖励单位:38238威尼斯欢迎你;
9. 2009年获38238威尼斯欢迎你青年教师最佳一节课二等奖;奖励单位:38238威尼斯欢迎你;
10. 2010年获38238威尼斯欢迎你环境与资源学院青年教师最佳一节课一等奖;奖励单位:38238威尼斯欢迎你;
11. 中国自然资源学会“国地杯”第五届老员工自然资源科技作品大赛优秀作品奖。