研究员，博士，博士生导师，中国科学院青年创新促进会优秀会员、湖南省杰出青年基金获得者，中国科学院亚热带农业生态过程重点实验室副主任、农业生态工程湖南省重点实验室副主任。主要从事碳氮磷循环及环境效应研究，研究兴趣包括大气沉降及其生态环境效应、土壤固碳及温室气体减排以及农业面源污染防控，致力于研究亚热带区域养分元素在田块的迁移转化过程及驱动机制，以及流域陆地养分循环对水体环境的影响机制，旨在为深化农田-流域养分循环过程，开发养分循环过程机理模型，研发土壤固碳减排、秸秆及有机废弃物循环利用及面源污染防控技术，服务农业绿色可持续发展。

主持了国家自然科学青年基金项目、面上项目（4项）、国家重点研发项目课题、中国科学院重点部署项目课题、湖南省重点研发项目等30多项科研任务。以第一作者或通讯作者在土壤及环境领域国内外主流期刊上发表论文60余篇，其中SCI论文30余篇；以主要作者分别在Science和Nature上发表论文1篇。担任世界气象组织大气总沉降专家咨询组专家、中国土壤学会氮素工作委员会委员、湖南省土壤肥料学会常务理事、湖南省生态学会理事、湖南省环境科学学会理事、《Agriculture》期刊领域主编和《农业环境科学学报》等期刊编委。参与获得2021年度中国生态环境十大科技进展。

教育经历

2000.09-2004.06 湖南农业大学 农业资源与环境专业 学士

2004.09-2010.06 中国农业大学 植物营养学专业 博士

2006.09-2010.06 德国霍恩海姆大学 景观与植物生态研究所 联合培养博士生（每年访问2-3月）

工作经历

2010.07-2012.12 中国科学院亚热带农业生态研究所 助理研究员

2012.12-2020.12 中国科学院亚热带农业生态研究所 副研究员

2014.08-2015.07 澳大利亚墨尔本大学 农业与兽医学院 访问学者

2020.12-至今    中国科学院亚热带农业生态研究所 研究员

国家自然科学基金面上项目，华中丘陵区小流域大气沉降氮的水体输运机制及面源氮负荷贡献（2025-2028）

国家自然科学基金面上项目，周丛生物影响下的稻田甲烷排放特征、机制与模拟模型研究（2021-2024）

国家自然科学基金面上项目，亚热带丘陵区氨气近源沉降特征、影响机制及其土壤N₂O排放效应（2018-2021）

国家自然科学基金面上项目，稻田-大气氨交换通量特征、影响机制与模拟模型研究（2014-2017）

国家自然科学青年基金项目，稻田秸秆还田的温室气体净排放及其对水分管理的响应（2012-2014）

国家自然科学基金 国际(地区)合作与交流项目课题，南方红壤茶园N₂O减排措施优化及其决策研究（2022-2026）

中国科学院青年创新促进会优秀会员项目，土壤碳氮循环与环境（2022-2024）

中国科学院青年创新促进会会员项目，地气氨交换研究（2017-2020）

中国科学院重点部署项目课题，流域环境与重要过程监测（2013-2015）

国家重点研发项目课题，南方中低产田生物多样性优化设计原理与绿色增产提质技术（2023-2027）

国家重点研发项目专题，双季稻田调碳减排技术研究（2022-2026）

国家重点研发项目专题，典型双季稻稻田磷素高效利用的沃土培育原理（2016-2020）

国家重点研发项目专题，稻田优化减氮控氨技术研究（2018-2021）

湖南省杰出青年基金项目，亚热带典型流域农业源氨气排放、沉降及其环境效应评价（2022-2024）

湖南省重点研发项目，秸秆炭化生产生物质炭基肥高效循环利用技术研究（2020-2022）

湖南省第三次国土调查耕地质量等级调查与评价项目（2020-2021）

湖南省自然科学基金，稻田温室气体净排放及水稻产量对施用生物质炭的响应（2013-2015）

永兴县第三次全国土壤普查项目，永兴县第三次全国土壤普查（成果汇总）（2023-2024）

1.Yi Wuying,Liu Guoping,Wang Min,Wang Juan,Chen Deli,Shen Jianlin*. Increased nitrogen deposition and airborne particulate matter pollution in the vicinity of intensive animal farms caused by ammonia emissions. Agriculture,Ecosystems and Environment,2025,387: 109634.

2.Li Zongming,He Jie,Shen Jianlin*,Li Yanyan,Yuan Quan,Zhu Qihong,Wu Jinshui. Origin and assembly characteristics of periphyton microbes in subtropical paddy fields: A case study in Tuojia catchment in Southern China. Applied Soil Ecology,2025,206: 105839.

3.Xu Zhimin,Deng Xingying,Lin Zheng,Wang Lei,Lin Lihong,Wu Xinyue,Wang Yifan,Li Huankai,Shen Jianlin*,Sun Weimin. Microplastics in agricultural soil: Unveiling their role in shaping soil properties and driving greenhouse gas emissions. Science of The Total Environment,2025,958: 177875.

4.Jiang Wenqian,Shen Jianlin*,Li Yong,Wang Juan,Gong Dianlin,Zhu Xiao,Liu Xuejun,Liu Ji,Reis Stefan,Zhu Qihong,Wu Jinshui. Contrasting change trends in dry and wet nitrogen depositions during 2011 to 2020: Evidence from an agricultural catchment in subtropical Central China.Science of The Total Environment,2024,907: 168094.

5.Wang Cong,Li Zongming,Shen Jianlin*,Li Yanyan,Chen Dan,Bolan Nanthi,Li Yong,Wu Jinshui. Biochar amendment increases the abundance and alters the community composition of diazotrophs in a double rice cropping system. Biology and Fertility of Soils,2023,59: 873–886.

6.Li Zongming,Shen Jupei,Wang Fangfang,Wang Meihui,Shen Jianlin*,Li Yong,Zhu Qihong,Wu Jinshui. Impacts of organic materials amendment on the soil antibiotic resistome in subtropical paddy fields. Frontiers in Microbiology,2023,13:1075234.

7.Shen Jianlin*,Li Yong*,Wang Yi,Li Yanyan,Zhu Xiao,Jiang Wenqian,Li Yuyuan,Wu Jinshui. Soil nitrogen cycling and environmental impacts in the subtropical hilly region of China: Evidence from measurements and modeling. Frontiers of Agricultural Science & Engineering,2022,9(3):407‒424.

8.Wang Cong,Ma Xiaofang,Shen Jianlin*,Chen Dan,Zheng Liang,Ge Tida,Li Yong,Wu Jinshui. Reduction in net greenhouse gas emissions through a combination of pig manure and reduced inorganic fertilizer application in a double-rice cropping system: Three-year results. Agriculture,Ecosystems and Environment,2022,326: 107799.

9.Liu Ji,Jiang Bingshen, Shen Jianlin*,Zhu Xiao,Yi Wuying,Li Yong,Wu Jinshui. Contrasting effects of straw and straw-derived biochar applications on soil carbon accumulation and nitrogen use efficiency in double-rice cropping systems. Agriculture,Ecosystems and Environment,2021,311: 107286.

10.Zhu Xiao, Shen Jianlin*,Li Yong,Liu Xuejun,Wu Wen,Zhou Feng,Wang Juan,Stefan Reis,Wu Jinshui. Nitrogen emission and deposition budget in an agricultural catchment in subtropical central China. Environmental Pollution,2021,289: 117870.

11.Yi Wuying,Shen Jianlin*,Liu Guoping,Wang Juan,Yu Lifei,Li Yong,Reis Stefan,Wu Jinshui. High NH₃ deposition in the environs of a commercial fattening pig farm in central south China. Environmental Research Letters,2021,16:125007.

12.Wu Yanzheng,Li Yong,Wang Honghao,Wang Jijun,Fu Xiaoqing,Shen Jianlin*,Wang Yi,Liu Xinliang,Meng Lei,Wu Jinshui. Response of N₂O emissions to biochar amendment on a tea field soil in subtropical central China: A three-year field experiment. Agriculture,Ecosystems and Environment,2021,318: 107473.

13.Wang Cong,Chen Dan, Shen Jianlin*,Yuan Quan,Fan Fenliang,Wei Wenxue,Li Yong,Wu Jinshui. Biochar alters soil microbial communities and potential functions 3–4 years after amendment in a double rice cropping system. Agriculture,Ecosystems and Environment,2021,311: 107291.

14.Liu Jieyun,Qiu Husen,Wang Cong, Shen Jianlin*,Zhang Wenzheng,Cai Jiumao,Tang Hong,Wu Jinshui. Effects of biochar amendment on greenhouse gas emission in two paddy soils with different textures. Paddy and Water Environment,2021,19: 87–98.

15.Jiang Bingshen, Shen Jianlin*,Sun Minghong,Hu Yajun,Jiang Wenqian,Wang Juan,Li Yong,Wu Jinshui. Paddy soil phosphorus availability and rice phosphorus uptake under various agronomic practices. Pedosphere,2021,31(1):103–115.

16.Liu Ji,Ouyang Xiuqin, Shen Jianlin*,Li Yong,Sun Wanru,Jiang Wenqian,Wu Jinshui. Nitrogen and phosphorus runoff losses were influenced by chemical fertilization but not by pesticide application in a double rice-cropping system in the subtropical hilly region of China. Science of the Total Environment,2020,715: 136852.

17.Yi Y.C., Shen J.L.*,Yang C.D.,Wang J.,Li Y.,Wu J.S. Dry deposition of ammonia around paddy fields in the subtropical hilly area in southern China. Atmospheric and Oceanic Science Letters,2020,13: 216–223.

18.Wang C., Shen J.L.*,Liu J.Y.,Qin H.L.,Yuan Q.,Fan F.L.,Hu Y.J.,Wang J.,Wei W.X.,Li Y.,Wu J.,Microbial mechanisms in the reduction of CH4 emission from double rice cropping system amended by biochar: A four-year study. Soil Biology and Biochemistry,2019,135: 251–263.

19.Wang C.,Liu J.Y., Shen J.L.*,Chen D.,Li Y.,Jiang B.S.,Wu J.S.,Effects of biochar amendment on net greenhouse gas emissions and soil fertility in a double rice cropping system: A 4-year field experiment. Agriculture Ecosystems & Environment,2018,262: 83–96.

20.Shen J.L.*,Chen D.,Bai M.,Sun J.,Lam S.K.,Mosier A.,Liu X.L.,Li Y.,Spatial variations in soil and plant nitrogen levels caused by ammonia deposition near a cattle feedlot. Atmospheric Environment,2018,176: 120–127.

21.Chen D.,Wang C., Shen J.L.*,Li Y.,Wu J.,Response of CH4 emissions to straw and biochar applications in double-rice cropping systems: Insights from observations and modeling. Environmental Pollution,2018,235: 95–103.

22.Wu Y.Z.,Li Y.,Fu X.Q., Shen J.L.*,Chen D.,Wang Y.,Liu X.L.,Xiao R.L.,Wei W.X.,Wu J.,Effect of controlled-release fertilizer on N2O emissions and tea yield from a tea field in subtropical central China. Environmental Science and Pollution Research,2018,25: 25580–25590.

23.Wang Cong, Shen Jianlin*,Tang Hong,Inubushi Kuzuyuki,Guggenberger Georg,Li Yong,Wu Jinshui. Greenhouse gas emissions in response to straw incorporation,water management and their interaction in a paddy field in subtropical central China. Archives of Agronomy and Soil Science,2017,63: 171–184.

24.Liu Xuejun^#,*,Xu Wen,Duan Lei,Du Enzai,Pan Yuepeng,Lu Xiankai,Zhang Lin,Wu Zhiyong,Wang Xuemei,Zhang Ying, Shen Jianlin^#,Song Ling,Feng Zhaozhong,Liu Xueyan,Song Wei,Tang Aohan,Zhang Yangyang,Zhang Xiuying,Collett Jr Jeffrey L. Atmospheric nitrogen emission,deposition and air quality impacts in China: An overview. Current Pollution Reports,2017,3: 1–19.

25.Shen Jianlin*,Chen Deli,Bai Mei,Sun Jianlei,Coates Trevor,Lam Shu Kee,Li Yong. Ammonia deposition in the neighbourhood of an intensive cattle feedlot in Victoria,Australia. Scientific Reports,2016,6(32793).

26.Shen Jianlin,Tang Hong,Liu Jieyun,Wang Cong,Li Yong*,Ge Tida,Jones Davey L.,Wu Jinshui. Contrasting effects of straw and straw-derived biochar amendments on greenhouse gas emissions within double rice cropping systems. Agriculture Ecosystems & Environment,2014,188: 264–274.

27.Shen Jianlin,Liu Jieyun,Li Yong*,Li Yuyuan,Wang Yi,LiuXuejun,Wu Jinshui. Contribution of atmospheric nitrogen deposition to diffuse pollution in a typical hilly red soil catchment in southern China. Journal of Environmental Sciences,2014,26: 1797–1805.

28.Liu Jieyun^#, Shen Jianlin^#,Li Yong,Su Yirong,Ge Tida,Jones Davey L.,Wu Jinshui*. Effects of biochar amendment on the net greenhouse gas emission and greenhouse gas intensity in a Chinese double rice cropping system. European Journal of Soil Biology,2014,65: 30–39.（共同第一作者）.

29.Shen Jianlin,Li Yong*,Liu Xuejun,Luo Xiaosheng,Tang Hong,Zhang Yangzhu,Wu Jinshui. Atmospheric dry and wet nitrogen deposition on three contrasting land use types of an agricultural catchment in subtropical central China. Atmospheric Environment,2013,67: 415–424.

30.Shen Jianlin,Liu Xuejun*,Zhang Ying,Fangmeier Andreas,Goulding Keith,Zhang Fusuo. Atmospheric ammonia and particulate ammonium from agricultural sources in the North China Plain. Atmospheric Environment,2011,45: 5033–5041.

31.Shen Jianlin,Tang Aohan,Liu Xuejun*,Kopsch Jenny,Fangmeier Andreas,Goulding Keith,Zhang Fusuo. Impacts of pollution controls on air quality in Beijing during the 2008 Olympic Games. Journal of Environmental Quality,2011,40: 37–45.

32.Liu Xuejun^#,*,Duan Lei,Mo Jiangming,Du Enzai, Shen Jianlin^#,Lu Xiankai,Zhang Ying,Zhou Xiaobing,He Chune,Zhang Fusuo. Nitrogen deposition and its ecological impact in China: An overview. Environmental Pollution,2011,159: 2251–2264.（共同第一作者）.

33.Shen J.L.,Tang A.H.,Liu X.J.*,Fangmeier A.,Goulding K.T.W.,Zhang F.S. High concentrations and dry deposition of reactive nitrogen species at two sites in the North China Plain. Environmental Pollution,2009,157: 3106–3113.

34.沈健林,刘学军*,张福锁. 北京近郊农田NH₃和NO₂干沉降研究. 土壤学报,2008,45: 165-169.

35.沈健林,黄明丽,唐傲寒,汪斯淼,韩文轩*,刘学军. 葎草(Humulus scandens)叶总氮和δ¹⁵N与大气活性氮气体的关系. 中国农业大学学报,2010,15: 84-88.

36.王聪, 沈健林*,郑亮,刘杰云,秦红灵,李勇,吴金水. 猪粪化肥配施对双季稻田CH₄和N₂O排放及其全球增温潜势的影响。环境科学,2014,35(8):3120–3127.

37.王杰飞,朱潇, 沈健林*,曾冠军,王娟,吴金水,李勇. 亚热带稻区大气氨/铵氮污染特征及干湿沉降. 环境科学,2017,38(6):2264–2272.

38.朱潇,王杰飞, 沈健林*,肖润林,王娟,吴金水,李勇. 亚热带农田和林地大气氮湿沉降与混合沉降比较. 环境科学,2018,39(6):2557–2565.

39.刘杰云,邱虎森,王聪,汤宏, 沈健林*,付金沐,吴金水. 小麦秸秆生物质炭添加对第四纪红壤CO₂和N₂O排放的影响. 农业现代化研究,2018,39(1):155–162.

40.谭亦杭, 沈健林*,蒋炳伸,李巧云,李勇,吴金水. 秸秆还田与水分管理对双季水稻氮素吸收及氮肥利用率的影响. 农业现代化研究,2018,39(3):411–419.

41.刘杰云,邱虎森,王聪, 沈健林*,吴金水. 生物质炭对双季稻田土壤反硝化功能微生物的影响. 环境科学,2019,40(5):2394–2403.

42.欧阳秀琴,王波, 沈健林*,朱潇,王杰飞,李勇,吴金水. 亚热带稻区大气NO₂、HNO₃及硝态氮污染特征及干湿沉降.环境科学,2019,40(6):2607–2614.

43.刘杰云,邱虎森,汤宏, 沈健林*,吴金水. 生物质炭对双季稻水稻土微生物生物量碳氮及可溶性有机碳氮的影响. 环境科学,2019,45(8),3799–3807.

44.吕天新,伍延正, 沈健林*,陈丹,姜文倩,王娟,李勇,吴金水. 氮肥深施及间种白三叶草对茶园N₂O排放的影响. 环境科学,2019,40(9),4221–4229.

45.姜文倩,朱潇, 沈健林*,黄钟霆,宫殿林,李勇,吴金水. 大气沉降向华中丘陵区稻田输入硫素通量的观测. 中国环境科学,2020,40(11):4848–4856.

46.蒋炳伸, 沈健林*,王娟,李勇,吴金水. 秸秆还田稻田土壤生物有效性磷及水稻磷吸收. 水土保持学报,2020,34(6):309–317.

47.孙铭鸿,蒋炳伸, 沈健林*,宋变兰,李巧云,李勇,吴金水. 猪粪化肥配施对稻田土壤氮素含量及氮肥利用效率的影响. 农业现代化研究,2021,42(1):175–183.

48.陈凯鹏,韦菊娴,陈丹,王聪*,沈健林*,李勇,吴金水. 化肥减量配施秸秆对双季稻田固氮微生物群落的影响. 环境科学,2022,43(10):4725–4734.

49.易武英,刘国平,王 娟,喻理飞,李 勇,吴金水,沈健林*. 亚热带丘陵区集约化养猪场氨气近源沉降的土壤和植物氮素响应. 地球环境学报,2023,14(2):182 – 192.

50.王凤仁,逄蕾,沈健林*,李言言,李宗明,王娟,吴金水. 秸秆还田下双季稻田土壤团聚体碳氮磷含量及生态化学计量比特征. 农业现代化研究,2023,44(3),550-557.

51.闫鹏,张靖,沈健林*,朱潇,王伟,王娟,吴金水. 有机无机肥配施对设施菜地N₂O排放和NH₃挥发的影响. 农业现代化研究,2023,44(4),701-711.

52.詹慧秀,朱潇,王娟*,沈健林*,李勇,吴金水. 亚热带稻区氨浓度多时间尺度变化及其干沉降. 环境科学,2024,45(8):4502-4511.

53.杨正宇,李宗明,李言言, 沈健林*,吴金水. 连续11年不同秸秆还田量下稻田甲烷增排效应变化研究. 土壤学报,2024.

54.何杰,李宗明,杨正宇,沈健林*,刘国平,吴金水. 牛粪化肥配施对双季稻田CH₄和N₂O排放的影响. 生态环境学报,2024,33(4):573-584.

55.李粤丰,闫鹏,沈健林*,李言言,王聪,王娟,吴金水. 有机无机肥配施对城郊设施甜玉米地N₂O排放的影响. 农业现代化研究,2024,45(2):326-335.

56.高雯媛,邹霖,朱俊毅,肖童觉,于奕,沈健林*. 湖南省地表水水质时空变化特征及驱动因子分析. 环境工程,2024,42(8):17-24.

57.王炎培,张靖,姜文倩,朱俊毅,吴金水,沈健林*. 生物炭和炭基肥施用对甜玉米地N₂O排放及氮淋溶影响. 农业环境科学学报,2025

58.刘卿,龚雨顺,王伟,方贤滔,吴金水,沈健林*. 湖南典型茶园土壤有机碳及其组分时空特征. 生态环境学报,2025

59.廖启元,李粤丰,詹慧秀,童成立,方贤滔,王聪,吴金水,沈健林*. 生物炭配施硝化/脲酶抑制剂及秸秆覆盖对红壤茶园氮磷淋失影响. 水土保持学报,2025

60.张海锋,张靖,王伟,李粤丰,王娟,吴金水,沈健林*. 减氮配施生物炭和炭基肥对红壤设施菜地N₂O排放和NH₃挥发的影响. 农业现代化研究,2025,46(3).

61.Guo J.H.,Liu X.J.,Zhang Y., Shen J.L.,Han W.X.,Zhang W. F.,Christie P.,Goulding K.W.T.,Vitousek P.M.,Zhang F.S*. Significant acidification in major Chinese croplands. Science,2010,327: 1008–1010.

62.Liu Xuejun,Zhang Ying,Han Wenxuan,Tang Aohan, Shen Jianlin,Cui Zhenling,Vitousek Peter,Erisman Jan Willem,Goulding Keith,Christie Peter,Fangmeier Andreas,Zhang Fusuo*. Enhanced nitrogen deposition over China. Nature,2013,494: 459–462.

63.Wen Zhang,Ma Xin,Xu Wen,Si Ruotong,Liu Lei,Ma Mingrui,Zhao Yuanhong,Tang Aohan,Zhang Yangyang,Wang Kai,Zhang Ying,Shen Jianlin,Zhang Lin,Zhao Yu,Zhang Fusuo,Goulding Keith,Liu Xuejun. Combined short-term and long-term emission controls improve air quality sustainably in China. Nature Communications,2024,15:5169.

64.Chang Yuxiao,Lin Lihong,Shen Jianlin,Lin Zheng,Deng Xingying,Sun Weimin,Wu Xinyue,Wang Yifan,Li Yongquan*,Xu Zhimin*. Enhanced nitrogen fixation and Cd passivation in rhizosphere soil by biochar-loaded nitrogen-fixing bacteria: Chemisorption and microbial mechanism. Journal of Hazardous Materials,2025,481: 136588.

出版专著

1.李勇, 沈健林,王毅等编著，分布式栅格流域环境系统模拟模型及应用,2017. 北京:科学出版社.

2.Liu Xuejun,Du Enzai (Eds). Atmospheric Reactive Nitrogen in China,2020. Sigapore: Springer Nature press.（参编）

3.颜晓元 等著. 土壤氮循环实验研究方法,2020. 北京:科学出版社.（参编）

4.吴永红 等著. 稻田周丛生物,2021. 北京:科学出版社.（参编）

5.孙波 张旭东 陆雅海 等著. 耕地地力提升与化肥养分高效利用,2022. 北京:科学出版社.（参编）

6. Bolan N.S.,Kirkham M.B. (Eds). Soil Constrains and Productivity,2023. London: CRC Press.（参编）

软件著作权

1. 沈健林. 大气活性氮干沉降速率模拟模型系统,登记证号：2015SR290595 原始取，全部权利， 完成日期：2015年9月30日

2.中国科学院亚热带农业生态研究所（沈健林完成）. 生态系统地气氨交换通量模拟模型系统. 登记证号：2022SR1474403， 完成日期：2022年6月30日

3. 中国科学院亚热带农业生态研究所（沈健林完成）. 大气硫素干沉降速率模拟模型系统. 登记证号：2022SR1474401， 完成日期：2022年6月30日 

专利

1.国家发明专利：沈健林,李勇,王杰飞,孙铭鸿,王娟,吴金水. 一种能够自动连续测定农田氨挥发的方法. 2018年7月1日,申请号：201810750008.8

2.国家发明专利：沈健林,朱潇,王娟,李勇,吴金水. 一种减少农田氮肥用量和氨挥发损失的方法. 2020年8月6日,专利号：ZL202010783702.7

3. 国家发明专利：王娟,沈健林,李宗明,杨正宇,王炎培,李粤丰,张海峰,张苗苗,曾冠军,宫殿林. 一种农田土壤氨挥发测试取样监测装置及其方法. 2024年8月2日，专利号：ZL20241069330.7