科研人员

方运霆(课题组组长)

方运霆(Yunting Fang 

主要研究兴趣包括1)土壤氮素转化、氮流失、气态氮损失、植物氮吸收偏好及其微生物过程及其对干扰的响应;2)陆地生态系统氮循环的历史变化;3)大气和水体氮来源和去向。已经在1)氮循环在生态系统的内部循环、氮流失、气态氮损失及其对氮沉降的响应;2)量化氮沉降速率、组成和历史;3)氮稳定同位素技术在氮素过程和动态的应用等方面取得了重要进展。

      自2001年来已发表论文170余篇,其中SCI刊物论文120余篇。本人作为第一作者和通讯作者已发表SCI论文55,包括PNASGlobal Change BiologyAtmospheric chemistry and PhysicsAnalytical ChemistryEnvironmental Science and TechnologySoil Biology and BiochemistryEcosystemsBiogeosciencesOecologiaJournal of Geophysical ResearchTellus BPlant and SoilForest Ecology and Management等。总引次数达5279余次

主要学术任职

       Ecological Research编委(2010年至今)、Open Journal of Forestry编委(2011年至今)、生态学杂志编委(2016年起)、PeerJ编委(2017年起)。

     BiogeosciencesBiogeochemistryAtmospheric EnvironmentAtmospheric ResearchGeoderaPlant and SoilForest Ecology and Management Ecological ResearchEnvironmental Science & TechnologyJournal of Forestry ResearchWater, Soil & Air Pollution、《生态学报》、《植物生态学报》、《应用生态学报》、《生态学杂志》和《岩石学报》的审稿人。

     欧洲地球科学联盟成员(20082011)、日本地球科学联盟成员(2009-2012)、美国生态学学会会员(2014年至今)、中国生态学学会成员(2012年至今)、中国生态学会稳定同位素生态专业委员会委员(2016年至今),辽宁省“兴辽人才计划”创新领军人才。 

主要研究项目

1国家重点研发计划"中国北方森林和草地生态系统碳氮耦合循环与碳源汇效应研究"子课题"生态系统碳氮耦合循环生物学机制"2016/7–2021/6、在研、主持。

2中国科学院前沿科学重点研究项目、QYZDB-SSW-DQC002、全球变暖和氮沉降对我国东北典型森林植物多样性和碳氮循环的影响机理、2016/9–2020/12、在研、主持。

3. 中国科学院重点实验室、中国科学院森林生态与管理重点实验室大型森林野外科研平台和常规监测项目-清原森林野外增温平台建设、2016/7–2018/12、在研、主持。

4国家自然科学基金委员会面上项目、41773094、增温对我国东北典型针阔混交林土壤氮损失的影响,2018/1–2021/12、在研、主持。

5中科院战略性先导科技专项B"土壤微生物"子课题"东北黑土旱地氮素循环" 2014/6–2019/5、在研、主持

6国家自然科学基金委优秀青年基金项目、31422009、森林生态系统氮循环、2015/1-2017、已结题、主持。

7国家自然科学基金委面上项目,31370464、用硝酸盐氮氧同位素自然丰度量化我国南方森林土壤硝化和反硝化作用速率、2014/1–2017/12、已结题、主持。

8.中国科学院沈阳应用生态研究所森林与土壤生态国家重点实验室自主重大项目,LFSE2013-13、我国森林生态系统大气沉降氮去向:15N示踪研究、2013/7–2016/7、已结题、主持。

9. 中国科学院科研仪器设备研制项目,基于法拉第磁光旋转光谱大气NOX双组分测定和涡度相关通量,2020-2021,在研、主持。 

10. 中国科学院王宽诚率先人才计划卢嘉锡国际团队课题,我国东北森林生态系统结构和功能对全球变化的响应及其机制,2019-2021,在研、主持。

发表文章列表

1. Zhi Quan, Bin Huang, Caiyan Lu, Chenxia Su, Linlin Song, Xinghan Zhao, Yi Shi, Xin Chen, Yunting Fang*. Effects of ryegrass amendments on immobilization and mineralization of nitrogen in a plastic shed soil: A 15N tracer study. Catena, 2021, 203: 105325. 

2. Feifei Zhu#, Luming Dai#, Erik A. Hobbie, Yuying Qu, Dan Huang, Geshere A. Gurmesa, Xulun Zhou, Ang Wang, Yinghua Li, Yunting Fang*. Quantifying nitrogen uptake preference for mature forests: an in situ whole tree paired 15N labeling method. Tree Physiology, 2021, DOI:10.1093/treephys/tpab060.

3. Chenxia Su, Weixing Zhu, Ronghua Kang, Zhi Quan, Yi Shi, Xin Chen, Yunting Fang*. Interannual and seasonal variabilities in soil NO fluxes from a rainfed maize field in the Northeast China. Environmental Pollution, 2021, 286: 117312.

4. Linlin Song, Wendell W. Walters, Yuepeng Pan, Zhengjie Li, Mengna Gu, Yihang Duan, Xuemei Lü, Yunting Fang*. 15N natural abundance of vehicular exhaust ammonia, quantified by active sampling techniques. Atmospheric Environment, 2021, 225(15): 118430.

5. Chenxia Su, Ronghua Kang, Wentao Huang, Yunting Fang*. Temporal patterns of N2O fluxes from a rainfed maize field in Northeast China. Frontiers in Environmental Science, 2021,9: 668084.

6. Wang, Ang; Chen, Dexiang; Phillips, Oliver; Gundersen, Per; Zhou, Xulun; Gurmesa, Geshere; Li, Shanlong; Zhu, Weixing; Hobbie, Erik A; Wang, Xueyan; Fang, Yunting*. Dynamics and multi-annual fate of atmospherically deposited nitrogen in montane tropical forests. Global Change Biology, 2021, 27(10): 2076-2087.

7.  Huang Shaonan, Wang Fan, Elliott, Emily M., Zhu Feifei, Zhu Weixing, Koba Keisuke, Yu Zhongjie, Hobbie Erik A., Michalski Greg, Kang Ronghua, Wang Anzhi, Zhu Jiaojun, Fu Shenglei, Fang Yunting*. Multiyear measurements on Δ17O of stream nitrate indicate high nitrate production in a temperate forest. Environmental Science & Technology, 2020, 54: 4231-4239. 

8.  Su Chenxia, Kang Ronghua, Zhu Weixing, Huang Wentao, Song Linlin, Wang Ang, Liu Dongwei, Quan Zhi, Zhu Feifei, Fu Pingqing, Fang Yunting*. δ15N of nitric oxide produced under aerobic or anaerobic conditions from seven soils and their associated N isotope fractionations. Journal of Geophysical Research-Biogeosciences, 2020, 125(9): e2020JG005705.

9.   Quan Zhi#; Li Shanlong#; Zhang Xin; Zhu Feifei; Li Peipei; Sheng Rong; Chen Xin; Zhang Limei; He Ji-Zheng; Wei Wenxue; Fang Yunting*; Fertilizer nitrogen use efficiency and fates in maize cropping systems across China: field 15N tracer studies, Soil & Tillage Research, 2020, 197: 104498.

10.  Li Zhengjie; Wendell W. Walters; Meredith G. Hastings; Zhang Yanlin; Song Linlin; Liu Dongwei; Zhang Wenqi; Pan Yuepeng; Fu Pingqing; Fang Yunting*; Nitrate isotopic composition in precipitation at a Chinese megacity: Seasonal variations, atmospheric processes, and implications for sources, Earth and Space Science, 2019, 6(11): 2200-2213.

11.  Li Shanlong; Gurmesa A. Gurmesa; Zhu Weixing; Gundersen Per, Zhang Shasha; Xi Dan; Huang Shaonan; Wang Ang; Zhu Feifei; Jiang Yong; Zhu Jiaojun; Fang Yunting*; Fate of atmospherically deposited NH4+ and NO3- in two temperate forests in China: temporal pattern and redistribution, Ecology Applications, 2019, 29(6): 10.1002/eap

12.  Zhu Feifei; Dai Luming; Erik A. Hobbie; Keisuke Koba; Liu Xueyan; Geshere A. Gurmesa; Huang Shaonan; Li Shanlong; Li Yinghua; Han Shijie; Fang Yunting*; Uptake patterns of Glycine, Ammonium, and Nitrate differ among four common tree species of Northeast China, Frontiers in plant science, 2019, 10, 799.

13.  Huang Shaonan; Emily M. Elliott; J David Felix; Pan Yuepeng; Liu Dongwei; Li Shanlong; Li Zhengjie; Zhu Feifei; Fu Pingqing; Fang Yunting*; Seasonal pattern of ammonium 15N natural abundance in precipitation at a rural forested site and implication for NH3 source partitioning, Environmental Pollution, 2019, 247: 541-549.

14.  Quan Zhi; Huang Bin; Lu Caiyan; Shi Yi; Chen Xin; Zhou Jianbin; Fang Yunting*; Formation of extractable organic nitrogen in an agricultural soil: A 15N labeling study, Soil Biology and Biochemistry, 2018, 118: 161-165.

15.  Quan Zhi; Li Shanlong; Zhu Feifei; Zhang Limei; He Jizheng; Wei Wenxue; Fang Yunting*; Fates of 15N-labeled fertilizer in a black soil-maize system and the response to straw incorporation in Northeast China, Journal of Soils and Sediments, 2018, 18(4): 1441-1452.

16.  Ren Hanyan#; Xu Zhuwen#; Isbell Forest; Huang Janhui; Han Xingguo; Wan Shiqiang; Wang Ruzhen; Chen Shiping; Zeng Dehui; Jiang Yong; Fang Yunting*; Exacerbated nitrogen limitation ends transient stimulation of grassland productivity by increased precipitation, Ecological Monographs, 2017, 87(3): 457-469. 

17.  Xi Dan; Bai Ren; Zhang Limei; Fang Yunting*; Contribution of anammox to nitrogen removal in two temperate forest soils, Applied and Environmental Microbiology, 2016, 82(15) : 4602–4612.

18.  Tu Ying; Fang Yunting*; Liu Dongwei; Pan Yuepeng; Modifications to the azide method for nitrate isotope analysis, Rapid Communications in Mass Spectrometry, 2016, 30: 1213-1222.

19.  Zhang Shasha; Fang Yunting*; Xi Dan; Adaptation of micro-diffusion method for the analysis of 15N natural abundance of ammonium in samples with small volume, Rapid Communications in Mass Spectrometry, 2015, 29(14): 1297-1306.

20.  Liu DongWei;Fang YunTing*; Tu Ying; Pan YuePeng; Chemical method for nitrogen isotopic analysis of ammonium at natural abundance. Analytical Chemistry, 2014, 86(8): 3787–3792.

21.  Koba Keisuke; Fang Yunting*; Mo Jiangming; Zhang Wei; Lu Xiankai; Liu Lei; Zhang Tao; Takebayashi Yu; Toyoda Sakae; Yoshida Naohiro; Suzuki Keisuke; Yoh Muneoki; Senoo Keishi, The 15N natural abundance of the N lost from an N-saturated subtropical forest in southern China, Journal of Geophysical Research-Biogeosciences, 2012, 117, DOI: 10.1029/2010JG001615.

22.  Zhi Quan, Xin Zhang*, Yunting Fang*, Eric A. Davidson. Different quantification approaches for nitrogen use efficiency lead to divergent estimates with varying advantages. Nature Food, 2021, 2: 241-245.

23.  Wenjun Zhou#, Dan Xi#, Yunting Fang*, Ang Wang, Liqing Sha, Qinghai Song, Yuntong Liu, Liguo Zhou, Ruiwu Zhou, Youxing Lin, Jinbo Gao, D. Balasubramanian, Yun Deng, Wenfu Zhang, Yiping Zhang*. Microbial processes responsible for soil N2O production in a tropical rainforest, illustrated using an in situ 15N labeling approach. Catena, 2021, 202: 105214.

24.  Shaonan Huang, Yunting Fang*, Feifei Zhu, Emily M. Elliott, J. David Felix, Fan Wang, Shanlong Li, Dongwei Liu, Linlin Song, Zhengjie Li, Pingqing Fu, Shenglei Fu*. Multiyear measurements on 15N natural abundance of precipitation nitrate at a rural forested site in Northeast China. Atmospheric Environment, 2021, 253: 118353.

25.  Zhi Quan, Xin Zhang*, Feifei Zhu, Shanlong Li, Xinghan Zhao, Xin Chen, Limei Zhang, Jizheng He, Wenxue Wei, Yunting Fang*. Fates and use efficiency of nitrogen fertilizer in maize cropping systems and their responses to technologies and management practices: a global analysis on field 15N tracer studies. Earth’s Future, 2021, DOI: 10.1029/2020EF001514.

26.  Zhou Xulun#; Wang Ang#; Hobbie Erik A; Zhu Feifei; Qu Yuying; Dai Luming; Li Dejun; Liu Xueyan; Zhu,Weixing; Keisuke Koba; Li Yinghua*; Fang Yunting*. Mature conifers assimilate nitrate as efficiently as ammonium from soils in four forest plantations. New Phytologist, 2021, 229: 3184–3194. 

27.  Ming Yang, Xiaoqing Zhu, Yang Bai, Di Sun, Hongtao Zou*, Yunting Fang*, Yulong Zhang. Coated controlled-release urea creates a win-win scenario for producing more staple grains and resolving N loss dilemma worldwide. Journal of Cleaner Production. 2021, 288. https://doi.org/10.1016/j.jclepro.2020.125660.

28.  Li Zhengjie; Hastings Meredith G.*; Walters Wendell W.; Tian Lide; Clemens Steven C.; Song Linlin; Shao Lili; Fang Yunting*; Isotopic evidence that recent agriculture overprints climate variability in nitrogen deposition to the Tibetan Plateau, Environment International, 2020, 138: 105614. 

29.  Lin Guigang; Gao Meixia; Zeng DeHui*; Fang Yunting*. Aboveground conservation acts in synergy with belowground uptake to alleviate phosphorus deficiency caused by nitrogen addition in a larch plantation. Forest Ecology and Management, 2020, 473: 118309

30.  Tang Wenguang; Chen Dexiang*; Oliver L. Phillips; Liu Xian; Zhou Zhang; Li Yide; Xi Dan; Zhu Feifei; Fang Jingyun; Zhang Limei; Lin Mingxian; Wu Jianhui; Fang Yunting*; Effects of long-term increased N deposition on tropical montane forest soil N2 and N2O emissions, Soil Biology & Biochemistry, 2018, 126: 194-203.

31.  Wang Ang; Zhu Weixing; Per Gundersend; Oliver L. Phillips; Chen Dexiang*; Fang Yunting*; Fates of atmospheric deposited nitrogen in an Asian tropical primary forest, Forest Ecology and Management, 2018, 411: 213-222.

32.  Wang Ang; Fang Yunting*; Chen Dexiang*; Oliver L. Phillips; KeisukeKoba; Zhu Weixing; Zhu Jiaojun; High nitrogen isotope fractionation of nitrate during denitrification in four forest soils and its implications for denitrification rate estimates, Science of the Total Environment, 2018, 633: 1078-1088.

33.  Pan Yuepeng*; Tian Shili; Liu Dongwei; Fang Yunting*; Zhu Xiaying; Gao Meng; Gregory R. Wentworth; Greg Michalski; Huang Xiaojuan; Wang Yuesi; Source Apportionment of Aerosol Ammonium in an Ammonia-Rich Atmosphere: An Isotopic Study of Summer Clean and Hazy Days in Urban Beijing, Journal of Geophysical Research-Atmospheres, 2018,123(10): 5681-5689.

34.  Pan Yuepeng*; Tian Shili; Liu Dongwei; Fang Yunting*; Zhu Xiaying; Gao Meng; Gao Jian; Greg Michalski; Wang Yuesi; Isotopic evidence for enhanced fossil fuel sources of aerosol ammonium in the urban atmosphere, Environmental Pollution, 2018, 238: 942-947.

35.  Zong Zheng; Wang Xiaoping; Tian Chongguo*; Chen Yingjun; Fang Yunting*; Zhang Fan; Li Cheng; Sun Jianzhong; Li Jun; Zhang Gan; First assessment of NOx sources at a regional background site in North China using isotopic analysis linked with modeling, Environmental Science & Technology, 2017, 51: 5923-5931.

36.  Liu Dongwei#; Zhu Weixing*; Wang Xiaobo#; Pan Yuepeng; Wang Chao; Xi Dan; Bai Edith; Wang Yuesi; Han Xingguo; Fang Yunting*; Abiotic versus biotic controls on soil nitrogen cycling in drylands along a 3200 km transect, Biogeosciences, 2017, 14: 989-1001.

37.  Pan Yuepeng*; Tian Shili; Liu Dongwei; Fang Yunting*; Zhu Xiaying; Zhang Qiang; Zheng Bo; Greg Michalski; Wang Yuesi; Fossil Fuel Combustion-Related Emissions Dominate Atmospheric Ammonia Sources during Severe Haze Episodes: Evidence from 15N-Stable Isotope in Size-Resolved Aerosol. Ammonium, Environmental Science and Technology, 2016, 50 (15): 8049-8056.  

38.  Pan Yuepeng*; Tian Shili; Liu Dongwei; Fang Yunting*; Zhu Xiaying; Zhang Qiang; Zheng Bo; Greg Michalski; Wang Yuesi; Reply to Comment on "Fossil Fuel Combustion-Related Emissions Dominate Atmospheric Ammonia Sources during Severe Haze Episodes: Evidence from 15N-Stable Isotope in Size-Resolved Aerosol Ammonium", Environmental Science and Technology, 2016, 50 (19): 10767-10768.

39.  Bai Ren; Xi Dan; He Jizheng; Hu Hangwei; Fang Yunting*; Zhang Limei*; Activity, abundance and community structure of anammox bacteria along depth profiles in three contrasting paddy soils, Soil Biology and Biochemistry, 2015, 91: 212-221.  

40.  Ren Haiyan*,#; Xu Zhuwen#; Huang Jianhui*; Lü Xiaotao; Zeng Dehui; Yuan Zhiyou; Han Xingguo; Fang Yunting*; Increased precipitation induces a positive plant-soil feedback in a semi-arid grassland, Plant and Soil, 2015, 389(1-2): 211–223.   

41.  Wang Ang; Fang YunTing*; Chen DeXiang*; Koba Keisuke; Makabe Akiko; Li YiDe; Luo TuShou; Yoh Muneoki; Variations in 15N natural abundance of plant and soil systems in four remote tropical rainforests, southern China, Oecologia, 2014, 174: 567–580. 

42.  Li Jiong; Fang YunTing*; Yoh Muneoki; Wang XueMei; Wu ZhiYong; Kuang YuanWen; Wen Dazhi*; Organic nitrogen deposition in precipitation in metropolitan Guangzhou city of southern China, Atmospheric Research, 2012, 113: 57–67.

43.  Fang Yunting; Keisuke Koba*; Akiko Makabe; Chieko Takahashi; Zhu Weixing; Takahiro Hayashi; Azusa A. Hokari; Rieko Urakawa; Edith Bai; Benjamin Z. Houlton; Xi Dan; Zhang Shasha; Kayo Matsushita; Tu Ying; Liu Dongwei; Zhu Feifei; Wang Zhenyu; Zhou Guoyi; Chen Dexiang; Tomoko Makita; Hiroto Toda, Liu Xueyan, Chen Quansheng, Zhang Deqiang, Li Yide, and Muneoki Yoh. Microbial denitrification dominates nitrate losses from forest ecosystems, Proceedings of the National Academy of Sciences of the United States of America (PNAS), 2015, 112(5): 1470-1474.

44.  Fang Yunting; Wang Xuemei*; Zhu Feifei; Wu Zhiyong; Li Jiong; Zhong Liuju; Chen Duohong; Yoh Muneoki; Three-decade changes in chemical composition of precipitation in Guangzhou city, southern China: has precipitation recovered from acidification following sulphur dioxide emission control? Tellus Series B-Chemical and Physical Meteorology, 2012, 65, 20213, http://dx.doi.org/10.3402/tellusb.v65i0.20213.

45.  Fang Yunting; Koba Keisuke; Yoh Muneoki*; Makabe Akiko; Liu Xueyan; Patterns of foliar δ15N and their control in Eastern Asian forests, Ecological Research, 2012, 28(5): 735-748.

46.  Fang Yunting; Koba Keisuke*; Makabe Akiko; Zhu Feifei; Fan Shaoyan; Liu Xueyan; Yoh Muneoki; Low δ18O values of nitrate produced from nitrification in temperate forest soils, Environmental Science & Technology, 2012, 46(16): 8723-8730. 

47.  Fang Yunting*; Yoh Muneoki; Koba Keisuke; Zhu Weixing; Takebayashi Yu; Xiao Yihua; Lei Chunyi; Mo Jiangming; Zhang Wei; Lu Xiankai; Nitrogen deposition and forest nitrogen cycling along an urban-rural transect in southern China, Global Change Biology, 2011, 172(2): 872-885.

48.  Fang Yunting*; Koba Keisuke; Wang Xuemei; Wen Dazhi; Li Jiong; Takebayashi Y; Liu XY, Yoh Muneoki; Anthropogenic imprints on nitrogen and oxygen isotopic composition of precipitation nitrate in a nitrogen-polluted city in southern China, Atmospheric Chemistry and Physics, 2011, 11(3): 1313-1325.

49.  Fang Yunting*; Gundersen Per; Rolf D. Vogt; Koba Keisuke; Chen Fusheng; Chen Xiyun; Yoh Muneoki; Atmospheric deposition and leaching of nitrogen in Chinese forest ecosystems, Journal of Forest Research, 2011, 16(5): 341-350.

50.  Fang Yunting*; Gundersen Per; Zhang Wei; Zhou Guoyi; Christiansen Jesper Riis; Mo Jiangming; Dong Shaofeng; Zhang Tao; Soil-atmosphere exchange of N2O, CO2 and CH4 along a slope of an evergreen broad-leaved forest in southern China, Plant and Soil, 2009, 319(1-2): 37-48.

51.  Fang Yunting*; Zhu Weixing; Gundersen Per; Mo Jiangming; Zhou Guoyi; Yoh Muneoki; Large Loss of Dissolved Organic Nitrogen from Nitrogen-Saturated Forests in Subtropical China, Ecosystems, 2009, 12(1): 33-45.

52.  Fang Yunting*; Gundersen Per; Mo Jiangming; Zhu Weixing; Nitrogen leaching in response to increased nitrogen inputs in subtropical monsoon forests in southern China, Forest Ecology and Management, 2009, 257(1): 332-342.

53.  Fang Yunting; Yoh Muneoki; Mo Jiangming*; Gundersen Per; Zhou Guoyi; Response of Nitrogen Leaching to Nitrogen Deposition in Disturbed and Mature Forests of Southern China, Pedosphere, 2009, 19(1): 111-120.

54.  Fang Yunting*; Gundersen Per; Mo Jiangming; Zhu Weixing; Input and output of dissolved organic and inorganic nitrogen in subtropical forests of South China under high air pollution, Biogeosciences, 2008, 5(2): 339-352.

55.  Fang Yunting; Zhu Weixing; Mo Jiangming*; Zhou Guoyi; Gundersen Per; Dynamics of soil inorganic nitrogen and their responses to nitrogen additions in three subtropical forests, South China, Journal of Environmental Sciences, 2006, 18(4): 752-759.

56.  Quan, Z., Zhang, X*., Fang, Y. T. The undefined N source might be overestimated by 15N tracer trials. Global Change Biology, 2021, 27: 467–468.

57.  Chao Wang, Lingrui Qu, Liuming Yang, Dongwei Liu, Ember Morrissey, Ziping Liu, Qingkui Wang, Yunting Fang, Edith Bai*, Large-scale importance of microbial carbon use efficiency and necromass to soil organic carbon. Global Change Biology, 2021. DOI: 10.1111/gcb.15550.

58.  Han Bing; Mo LiuYing; Fang YunTing; Di Hong J; Wang JunTao; Shen JuPei; Zhang LiMei*. Rates and microbial communities of denitrification and anammox across coastal tidal flat lands and inland paddy soils in East China, Applied Soil Ecology, 2021, 157: 103768.

59.  Kou, D.Yang, G. B.Li, F.; Feng, X. H.; Zhang, D. Y.; Mao, C.; Zhang, Q. W.; Peng, Y. F.; Ji, C. J.; Zhu, Q. A.; Fang, Y. T.; Liu, X. Y.; Xu-Ri; Li, S. Q.; Deng, J.; Zheng, X. H.; Fang, J. Y.; Yang, Y. H*. Progressive nitrogen limitation across the Tibetan alpine permafrost region. Nature Communications, 2020, 11: 3331. https://doi.org/10.1038/s41467-020-17169-6.

60.   Zong Zheng; Tian Chongguo*; Li Jun*; Syed Jabir Hussain; Zhang Wei; Fang Yunting; Jiang, Jiang Yifan; Nasir Jawad; Mansha Muhammad; Rizvi Syed Hussain Haider; Shafiq Muhammad; Bin Farhan Suhaib; Zhang Gan. Isotopic Interpretation of Particulate Nitrate in the Metropolitan City of Karachi, Pakistan: Insight into the Oceanic Contribution to NOx. Environmental Science & Technology, 2020, 54(13): 7787-7797.

61.   Zong Zheng; Sun Zeyu; Xiao Leilei; Tian Chongguo*; Liu Junwen*; Sha Qinge; Li Jun; Fang Yunting; Zheng Junyu; Zhang Gan. Insight into the Variability of the Nitrogen Isotope Composition of Vehicular NOx in China, Environmental Science & Technology, 2020, 54(22): 14246-14253.

62.   Walters Wendell W.*; Song Linlin; Chai Jiajue; Fang Yunting; Colombi Nadia; Hastings Meredith G.. Characterizing the spatiotemporal nitrogen stable isotopic composition of ammonia in vehicle plumes. Atmospheric Chemistry and Physics, 2020, 20(19): 11551-11567.

63.   Xue Dongmei*; Yu Hang; Fang Yunting; Shan Jun; Xi Dan; Wang Yidong; Kuzyakov Yakov; Wang ZhongLiang*. N-15-tracer approach to assess nitrogen cycling processes: Nitrate reduction, anammox and denitrification in different pH cropland soils, Catena, 2020, 193: 104611.

64.   Pan Yuepeng; Gu Mengna; Song Linlin; Tian Shili; Wu Dianming; Walters Wendell W; Yu Xingna; Lu Xuemei; Ni Xue; Wang Yanjun; Cao Jing; Liu Xuejun; Fang Yunting; Wang Yuesi. Systematic low bias of passive samplers in characterizing nitrogen isotopic composition of atmospheric ammonia. Atmospheric Research, 2020, 243, 105018.

65.   Pan Yuepeng*; Gu Mengna; He Yuexin; Wu Dianming; Liu Chunyan; Song Linlin; Tian Shili; Lu Xuemei; Sun Yang; Song Tao; Walters Wendell W.; Liu Xuejun; Martin Nicholas A.; Zhang Qianqian; Fang Yunting; Ferracci Valerio; Wang Yuesi. Revisiting the Concentration Observations and Source Apportionment of Atmospheric Ammonia. Advances in Atmospheric Sciences, 2020, 37(9): 933-938.

66.   Liu Bo; Biswas Shekhar R.; Yang Jian; Lite Zhihua; He Hong S.; Liang Yu*; Lau Matthew K.; Fang Yunting; Han Shijie. Strong influences of stand age and topography on post-fire understory recovery in a Chinese boreal forest. Forest Ecology and Management, 2020, 473, 118307.

67.   Wang Chao; Wang Xu; Pei Guangting; Xia Zongwei; Peng Bo; Sun Lifei; Wang Jian; Gao Decai; Chen Shidong; Liu Dongwei; Dai Weiwei; Jiang Ping; Fang Yunting; Liang Chao; Wu Nanping; Bai Edith*; Stabilization of microbial residues in soil organic matter after two years of decomposition, Soil Biology and Biochemistry, 2020, 141: 107687.

68.   Zong Zheng, Tan Yang, Wang Xiao, Tian Chongguo*, Li Jun*, Fang Yunting, Chen Yingjun, Cui Song, Zhang Gan. 2020. Dual-modelling-based source apportionment of NOx in five Chinese megacities: Providing the isotopic footprint from 2013 to 2014. Environment International, 137: 105592.

69.   Zhang Yangyang; Katherine B. Benedict;Tang Aohan; Sun Yele; Fang Yunting; Liu Xuejun*; Persistent nonagricultural and periodic agricultural emissions dominate sources of ammonia in Urban Beijing: Evidence from N-15 stable isotope in vertical profiles, Environmental Science & Technology, 2020, 54(1): 102-109.

70.   Sui Yuanyuan#; Ou Yang#*; Yan Baixing; Alain N. Rousseau; Fang Yunting; Geng Runzhe; Wang Lixia; Ye Nan; A dual isotopic framework for identifying nitrate sources in surface runoff in a small agricultural watershed, northeast China, Journal of Cleaner Production, 2020, 246: 119074.

71.   Du Shuai; Shen Jupei*; Hu Hangwei; Wang Juntao; Han Lili; Sheng Rong; Wei Wenxue; Fang Yunting; Zhu Yongguan; Zhang Limei; He Jizheng; Large-scale patterns of soil antibiotic resistome in Chinese croplands, Science of the Total Environment, 2020, 712, 136418.

72.   Alienor Lavergne*; Steven Voelker; Adam Csank; Heather Graven; Hugo J. De Boer; Valerie Daux; Iain Robertson; Isabel Dorado-Linan; Elisabet Martinez-Sancho; Giovanna Battipaglia; Keith J. Bloomfield; Christopher J. Still; Frederick C. Meinzer; Todd E. Dawson; Julio Camarero; J. Rory Clisby; Fang Yunting; Annette Menzel, Rachel M. Keen, John S. Roden, I. Colin Prentice, Historical changes in the stomatal limitation of photosynthesis: empirical support for an optimality principle, New Phytologist, 2020, 225(6): 2484-2497.

73.   Wang Xueying; Liu Xiaodong*; Fang Yunting; Jin Jing; Wu Libin; Fu Pingqing; Huang Huihui; Zhang Huijun; Steven D Emslie; Application of delta15N to trace the impact of penguin guano on terrestrial and aquatic nitrogen cycles in Victoria Land, Ross Sea region, Antarctica, The Science of the Total Environment, 2020, 709: 134496.

74.   Li, Y. H.; Wang, S. Q.; Li, H. B.; Fang, Y. T.; Yang, L.; Su, F. Contribution of co-denitrification to nitrous oxide production from subsurface wastewater infiltration system, Ecological Engineering, 2020, 151,105854

75.   Chang Ruiying; Zhou Wenjun; Fang Yunting; Bing Haijian; Sun Xiangyang, Wang Genxu*; Anthropogenic nitrogen deposition increases soil carbon by enhancing new carbon of the soil aggregate formation, Journal of Geophysical Research-Biogeosciences, 2019, 124, 572-584.

76.   Chang Yunhua; Zhang Yanlin*; Li Jiarong; Tian Chongguo; Song Linlin; Zhai Xiaoyao; Zhang Wenqi; Huang Tong; Lin Yuchi; Zhu Chao; Fang Yunting; Moritz F. Lehmann; Chen Jianmin*; Isotopic constraints on the atmospheric sources and formation of nitrogenous species in clouds influenced by biomass burning, Atmospheric Chemistry and Physics, 2019, 19, 12221-12234.

77.   Craine J.M.*; Andrew J. Elmore; Wang Lixin; Pascal Boeckx; Sylvain Delzon; Fang Yunting; Alan Gray; Rossella Guerrieri; Michael J. Gundale; Peter Hietz; David M. Nelson; Pablo L. Peri; Pamela H. Templer; Christiane Werner. 2019. Reply to: Data do not support large-scale oligotrophication of terrestrial ecosystems, Nature Ecology and Evolution 3, 1287-1288.

78.   Geshere Abdisa Gurmesa*; Lu Xiankai; Per Gundersen; Mao Qinggong; Fang Yunting; Mo Jiangming*; Species Differences in Nitrogen Acquisition in Humid Subtropical Forest Inferred From N-15 Natural Abundance and Its Response to Tracer Addition, Forests, 2019, 10(11). DOI: 10.3390/f10110991.

79.   Han Lili; Wang Qing; Shen Ju-Pei; Hong J. Di; Wang Juntao; Wei Wenxue; Fang Yunting; Zhang Limei*; He Jizheng; Multiple factors drive the abundance and diversity of the diazotrophic community in typical farmland soils of China, Fems Microbiology Ecology, 2019, 95(8). DOI: 10.1093/femsec/fiz113.

80.   Wu Libin; Ren Hong; Wang Peng; Chen Jing; Fang Yunting; Hu Wei; Ren Lujie; Deng Junjun; Song Yu; Li Jie; Sun Yele; Wang Zifa; Liu CongQiang; Ying Qi; Fu Pingqing*; Aerosol Ammonium in the Urban Boundary Layer in Beijing: Insights from Nitrogen Isotope Ratios and Simulations in Summer 2015, Environmental Science & Technology Letters, 2019, 6, 389-395.

81.   Xia Xinghui*; Li Siling; Wang Fan; Zhang Sibo; Fang Yunting; Li Jianghanyang; Michalski Greg; Zhang Liwei; Triple oxygen isotopic evidence for atmospheric nitrate and its application in source identification for river systems in the Qinghai-Tibetan Plateau, Science of the Total Environment, 2019, 688: 270-280.

82.   Xing Xiaoyi; Xu Huifang; Zhang Wenzhao; Hou Haijun; Qin Hongling; Liu Yi; Zhang Limei; Fang Yunting; Wei Wenxue; Sheng Rong*; The characteristics of the community structure of typical nitrous oxide-reducing denitrifiers in agricultural soils derived from different parent materials, Applied Soil Ecology, 2019, 142, 8-17.

83.   Zhao Zhibo; He Jizheng; Stefan Geisen*; Han Lili; Wang Juntao; Shen Jupei; Wei Wenxue; Fang Yunting; Li Peipei and Zhang Limei*; Protist communities are more sensitive to nitrogen fertilization than other microorganisms in diverse agricultural soils, Microbiome, 2019, 7(1): 33.

84.   Joseph M Craine*; Andrew J Elmore; Wang Lixin; Julieta Aranibar; MarijnBauters; Pascal Boeckx; Brooke E Crowley; Melissa A Dawes; Sylvain Delzon; Alex Fajardo; Fang Yunting; Lei Fujiyoshi; Alan Gray; RossellaGuerrieri; Michael J Gundale; David J Hawke; PeterHietz; MathieuJonard; ElizabethKearsley; Tanaka Kenzo; Mikhail Makarov; SaraMara?ón-Jiménez; Terrence P McGlynn; Brenden E McNeil; Stella G Mosher; David M Nelson; Pablo L Peri; Jean ChristopheRoggy; Rebecca Sanders-DeMott; Song Minghua; PaulSzpak; Pamela HTempler,Dewidine Van der Colff; Christiane Werner; Xu Xingliang; Yang Yang; Yu Guirui; KatarzynaZmudczyńska-Skarbek; Isotopic evidence for oligotrophication of terrestrial ecosystems, Nature Ecology and Evolution, 2018, 2(11) : 1735-1744.

85.   Chen Chongjuan; Jia Yufu; Chen Yuzhen; Imran Mehmood; Fang Yunting; Wang Guoan*; Nitrogen isotopic composition of plants and soils in an arid mountainous terrain: south slope versus north slope, Biogeosciences, 2018, 15: 369-377.

86.   Wu Libin; Liu Xiaodong*; Fang Yunting; Hou Shengjie; Xu Liqiang Wang Xueying; Fu Pingqing; Nitrogen cycling in the soil–plant system along a series of coral islands affected by seabirds in the South China Sea, Science of the Total Environment, 2018, 627, 166-175.

87.   Lu Deliang; Wang G.Geoff*; Zhang Jinxin; Fang Yunting; Zhu Chunyu; Zhu Jiaojun*; Converting larch plantations to mixed stands: Effects of canopy treatment on the survival and growth of planted seedlings with contrasting shade tolerance, Forest Ecology and Management, 2018, 409: 19-28.

88.   Yan Tao; Zhu Jiaojun*; Fang Yunting; Yang Kai; Li Mingcai; Effects of thinning on nitrogen status of a larch plantation, illustrated by 15N natural abundance and N resorption, Scandinavian Journal of Forest Research,2018, 33(4): 357-364.

89.  Isobe, Kazuo*, Ikutani, Junko, Fang, Yunting, Yoh, Muneoki, Mo, Jiangming, Suwa, Yuichi, Yoshida, Makoto, Senoo, Keishi, Otsuka, Shigeto, Koba, Keisuke. 2018. Highly abundant acidophilic ammonia-oxidizing archaea causes high rates of nitrification and nitrate leaching in nitrogen-saturated forest soils. Soil Biology and Biochemistry 122: 220-227.

90.   Zong Zheng; Tan Yang; Wang Xiaoping; Tian Chongguo*; Fang Yunting; Chen Yingjun; Fang Yin; Han Guangxuan; Li Jun; Zhang Gan; Assessment and quantification of NOx sources at a regional background site in North China: Comparative results from a Bayesian isotopic mixing model and a positive matrix factorization model, Environmental Pollution, 2018, 242:1379-1386.

91.   Jia Xiaoxu; Zhu Yuanjun*; Huang Laiming; Wei Xiaorong; Fang Yunting; LianhaiWue; Andrew Binley; Shao Mingan*; Mineral N stock and nitrate accumulation in the 50 to 200 m profile on the Loess Plateau, Science of the Total Environment, 2018, 633: 999-1006.

92.   Qin Shuping; Pang Yaxing; Timothy Clough; Nicole Wrage-M€onnig; Hu Chunsheng*; Zhang Yuming; Zhou Shungui; Fang Yunting; N2 production via aerobic pathways may play a significant role in nitrogen cycling in upland soils, Soil Biology and Biochemistry, 2017, 108: 36-40.  

93.   Li Renshan; Yang Qingpeng*; Zhang Weidong; Zheng Wenhui; Chi Yonggang; Xu Ming; Fang Yunting; Arthur Gessler; Li Maihe; Wang Silong*; Thinning effect on photosynthesis depends on needle ages in a Chinese fir (Cunninghamia lanceolata) plantation, Science of the Total Environment, 2017, 580: 900-906.  

94.   Pan Yuepeng*; Liu Yongwen; Gregory R.Wentworth; Zhang Lin; Zhao Yuanhong; Li Yi; Liu Xuejun; Du Enzai; Fang Yunting; Xiao Hongwei; Ma Hongyuan; Wang Yuesi; Letter to the editor: Critical assessments of the current state of scientific knowledge, terminology, and research needs concerning the ecological effects of elevated atmospheric nitrogen deposition in China, Atmospheric Environment, 2017, 153: 109-116. 

95.   Geshere Abdisa Gurmesa; Lu Xiankai; Per Gundersen; Fang Yunting; Mao Qinggong; Hao Chen; Mo Jiangming*; Nitrogen input N-15 signatures are reflected in plant 15N natural abundances in subtropical forests in China, Biogeosciences, 2017, 14(9) : 2359-2370.

96.   Wang Chao; Liu Dongwei; Luo Wentao; Fang Yunting; Wang Xiaobo; Lu Xiaotao; Jiang Yong; Han Xingguo; Bai Edith; Variations in leaf carbon isotope composition along an arid and semi-arid grassland transect in northern China, Journal of Plant Ecology, 2016, 9(5):576-585.

97.   Geshere Abdisa Gurmesa; Lu Xiankai; Per Gundersen; Mao Qinggong; Zhou Kaijun; Fang Yunting; Mo Jiangming*; High retention of 15Nlabeled nitrogen deposition in a nitrogen saturated oldgrowth tropical forest, Global Change Biology, 2016, 22: 3608-3620.

98.   Zhang Weidong; Chao Lin; Yang Qingpeng; Wang Qingkui; Fang Yunting; Wang Silong*; Litter quality mediated nitrogen effect on plant litter decomposition regardless of soil fauna presence, Ecology, 2016, 97(10): 2834–2843.

99.   Quan Zhi; Huang Bin; Lu Caiyan*; Shi Yi; Chen Xin; Zhang Haiyang; Fang Yunting; The fate of fertilizer nitrogen in a high nitrate accumulated agricultural soil, Scientific Reports, 2016, 6: 21539.

100.  Yang Ming; Fang Yunting; Sun Di; Shi Yuanliang*; Efficiency of two nitrification inhibitors (dicyandiamide and 3, 4-dimethypyrazole phosphate) on soil nitrogen transformations and plant productivity: a meta-analysis, Scientific Reports, 2016, 6: 22075.

101.  Hu Feilong; Liu Bo; Liu Zhimin*; Fang Yuting;CA Busso; Effects of grazing on plant species diversity and carbon partitioning in semiarid rangelands of northeastern China, Phyton-International Journal of Experimental Botany, 2015, 84(1): 209-221.

102.  Wang Chao#; Wang Xiaobo#; Liu Dongwei; Wu Honghui; Lu Xiaotao; Fang Yunting; Cheng Weixin; Luo Wentao; Jiang Ping; Shi Jasen; Yin Huaqun; Zhou Jizhong; Han Xingguo*; Bai Edith*; Aridity threshold in controlling ecosystem nitrogen cycling in arid and semi-arid grasslands, Nature Communications, 2014, 5. DOI: 10.1038/ncomms5799. 

103.  Zhang Wei*; Wang Keya; Luo Yiqi; Fang Yunting; Yan Junhua; Zhang Tao; Zhu Xiaomin; Chen Hao; Wang Wantong; Mo Jiangming; Methane uptake in forest soils along an urban-to-rural gradient in Pearl River Delta, South China, Scientific Reports, 2014, 4. DOI: 10.1038/srep05120.  

104.  Liu Xueyan; Koba Keisuke*; Takebayashi Yu; Liu Congqiang; Fang Yunting; Muneoki Yoh; Dual N and O isotopes of nitrate in natural plants: first insights into individual variability and organ-specific patterns, Biogeochemistry, 2013, 114(1-3): 399-411.  

105.  Wang Xuemei*; Wu Zhiyong; Shao Min; Fang Yunting; Zhang Leiming; Chen Fei; Chan Pakwai; Fan Qi; Wang Qian; Zhu Shengjie; Bao Ruoyu; Atmospheric nitrogen deposition to forest and estuary environments in the Pearl River Delta region, southern China, Tellus Series B-Chemical and Physical Meteorology, 2013, 65, 20480, http://dx.doi.org/10.3402/tellusb.v65i0.20480.   

106.  Zhao Lei; Hu Yalin; Lin Guigang; Gao Yongchao; Fang Yunting; Zeng Dehui*; Mixing effects of understory plant litter on decomposition and nutrient release of tree litter in two plantations in northeast China, 2013, Plos One, 8(10), e76334.  

107.  Lu Xiankai; Mo Jiangming*; Gilliam FrankS.; Fang Hua; Zhu Feifei; Fang Yunting; Zhang Wei; Huang Juan; Nitrogen Addition Shapes Soil Phosphorus Availability in Two Reforested Tropical Forests in Southern China, 2012, Biotropica, 44(3): 302-311.

108.  Isobe Kazuo*; Koba Keisuke; Suwa Yuichi; Ikutani Junko; Fang Yunting; Yoh Muneoki; Mo Jiangming; Otsuka Shigeto; Senoo Keishi; High abundance of ammonia-oxidizing archaea in acidified subtropical forest soils in southern China after long-term N deposition, FEMS Microbiology Ecology, 2012, 80(1): 193-203.

109.  Liu Xueyan; Koba Keisuke*; Takebayashi Yu; Liu Congqiang; Fang Yunting; Yoh Muneoki; Preliminary insights into delta N-15 and delta O-18 of nitrate in natural mosses: A new application of the denitrifier method, Environmental Pollution, 2012, 162: 48-55.

110.  Isobe Kazuo*; Koba Keisuke; Suwa Yuichi; Ikutani Junjo; Kuroiwa Megumi; Fang Yunting; Yoh Muneoki; Mo Jiangming; Otsuka Shigeto; Senoo Keishi; Nitrite transformations in an N-saturated forest soil, Soil Biology and Biochemistry, 2012, 52: 61-63.

111.  Lu Xiankai; Mo Jiangming*; Gilliam FrankS.; Yu Guirui; Zhang Wei; Fang Yunting; Huang Juan; Effects of experimental nitrogen additions on plant diversity in tropical forests of contrasting disturbance regimes in southern China, Environmental Pollution, 2011, 159(10): 2228-2235.

112.  Hu Xiaofei; Chen Fusheng*; Nagle Gregory; Fang Yunting; Yu Mingquan; Soil phosphorus fractions and tree phosphorus resorption in pine forests along an urban-to-rural gradient in Nanchang, China, Plant and Soil, 2011, 346(1-2): 97-106.

113.  Lu Xiankai; Mo Jiangming*; Gilliam FrankS.; Zhou Guoyi; Fang Yunting; Effects of experimental nitrogen additions on plant diversity in an old-growth tropical forest, Global Change Biology, 2010, 16(10): 2688-2700.

114.  Koba Keisuke*; Isobe Kazuo; Takebayashi Y, Fang Yunting; Sasaki Yuji; Saito W; Yoh Muneoki; Mo Jiangming; Liu L; Lu X; Zhang T; Zhang W; Senoo K; δ15N of soil N and plants in a N-saturated, subtropical forest of southern China, Rapid Communications in Mass Spectrometry, 2010, 24(17): 2499-2506.

115.  Liu Kehui; Fang Yunting; Yu Fangming; Liu Qiang; Li Furong; Peng Shaolin*; Soil Acidification in Response to Acid Deposition in Three Subtropical Forests of Subtropical China, Pedosphere, 2010, 20(3): 399-408.

116.  Takebayashi Yu; Koba Keisuke*; Sasaki Yuji; Fang Yunting; Yoh Muneoki; The natural abundance of N-15 in plant and soil-available N indicates a shift of main plant N resources to NO3- from NH4+ along the N leaching gradient, Rapid Communications in Mass Spectrometry, 2010, 24(7): 1001-1008.

117.  Zhang Wei; Mo Jiangming*; Zhou Guoyi; Gundersen Per; Fang Yunting; Lu Xiankai; Zhang Tao; Dong Shaofeng; Methane uptake responses to nitrogen deposition in three tropical forests in southern China, 2008, Journal of Geophysical Research, 113: D11116.

118.  Mo Jiangming*; Fang Hua; Zhu Weixing; Zhou Guoyi; Lu Xiankai; Fang Yunting; Decomposition responses of pine (Pinus massoniana) needles with two different nutrient-status to N deposition in a tropical pine plantation in southern China, Annals of Forest Science, 2008, 65, 405. DOI: 10.1051/forest:2008017.

119.  Mo Jiangming*; Zhang Wei; Zhu Weixing; Gundersen Per; Fang Yunting; Li Dejun; Wang Hui; Nitrogen addition reduces soil respiration in a mature tropical forest in southern China, 2008, Global Change Biology, 14(2): 403-412.

120.  Zhang Wei; Mo Jiangming*; Yu Guirui; Fang Yunting; Li Dejun; Lu Xiankai; Wang Hui; Emissions of nitrous oxide from three tropical forests in Southern China in response to simulated nitrogen deposition, Plant and Soil, 2008, 306(1-2): 221-236.

121.  Mo Jiangming*; Brown Sandra; Xue Jinghua; Fang Yunting; Li Zhian; Li Dejun; Dong Shaofeng; Response of nutrient dynamics of decomposing pine (Pinus massoniana) needles to simulated N deposition in a disturbed and a rehabilitated forest in tropical China, Ecological Research, 2007, 22(4): 649-658.

122.  Mo Jiangming*; Zhang Wei; Zhu Weixing; Fang Yunting; Li Dejun; Zhao Ping; Response of soil respiration to simulated N deposition in a disturbed and a rehabilitated tropical forest in southern China, Plant and Soil, 2007, 296(1-2): 125-135.

123.  Mo Jiangming*; Brown Sandra; Xue Jinghua; Fang Yunting; Li Zhian; Response of litter decomposition to simulated N deposition in disturbed, rehabilitated and mature forests in subtropical China, Plant and Soil, 2006, 282(1-2): 135-151. 

124.  方运霆*, 刘冬伟, 朱飞飞, 图影, 李善龙, 黄韶楠, 全智, 王盎. (2020) 氮稳定同位素技术在陆地生态系统氮循环研究中的应用(生态技术与方法专辑). 植物生态学报. 44 (4): 373-383.

125.  刘冬伟, 图影, 方运霆*. (2017) 铵盐和硝酸盐稳定同位素丰度测定方法及其应用案例.应用生态学报, 28(07):2353-2360.

126.  方运霆, 莫江明周国逸. (2005) 离子交换树脂袋法研究森林土壤硝态氮及其对氮沉降增加的响应生态环境学报, 14(4): 483-487.

127.  方运霆, 莫江明李德军曹裕松. (2005) 鼎湖山马尾松群落能量分配及其生产的动态.  广西植物, 25(1): 26-32.

128.  方运霆, 莫江明周国逸薛璟花. (2005) 鼎湖山主要森林类型植物胸径生长对氮沉降增加的初期响应热带亚热带植物学报, 13(3): 198-204.

129.  方运霆莫江明江远清李德军, Gundersen P. (2005) 鼎湖山森林土壤渗透水酸度和无机氮含量对模拟氮沉降增加的早期响应热带亚热带植物学报, 13(2): 123-129.

130.  方运霆莫江明周国逸张德强薛璟花. (2005) 鼎湖山南亚热带常绿阔叶林植物和土壤微量元素含量广西植物, 25(6): 504-510.

131.  方运霆莫江明周国逸,Gundersen P, 李德军江远清. (2004) 南亚热带森林土壤有效氮含量及其对模拟氮沉降增加的初期响应生态学报, 24(11): 2353-2359.

132.  方运霆莫江明, Brown S, 周国逸张倩媚李德军. (2004) 鼎湖山自然保护区土壤有机碳贮量和分配特征生态学报, 24(1): 135-142.

133.  方运霆莫江明, Gundersen P, 周国逸李德军. (2004) 森林土壤氮素转换及其对氮沉降的响应生态学报, 24(7): 1523-1531.

134.  方运霆莫江明肖金香. (2003) 关于木材能源使用的一些新认识江西农业大学学报(自然科学), 25(4): 618-622.

135.  方运霆莫江明黄忠良欧阳学军. (2003) 鼎湖山马尾松、荷木混交林生态系统碳素积累和分配特征热带亚热带植物学报, 11(1): 47-52.

136.  方运霆莫江明彭少麟李德军. (2003) 森林演替在南亚热带森林生态系统碳吸存中的作用生态学报, 23(9): 1687-1694.

137.  方运霆肖金香莫江明. (2002) 林业活动在吸收大气CO2与减缓全球变暖中的作用.  江西农业大学学报(自然科学), 24(6): 796-801.

138.  方运霆莫江明. (2002) 鼎湖山马尾松林生态系统碳素分配和贮量的研究广西植物, 22(4): 305-310.

139.  Pan Yuepeng*, Tian Shili, Wu Dianming, Xu Wen, Zhu Xiaying, Liu Chunyan, Li Dejun, Fang Yunting, Duan Lei, Liu Xuejun, Wang Yuesi. 2020. Ammonia should be considered in field experiments mimicking nitrogen deposition. Atmospheric and Oceanic Science Letters, 13(3): 248-251.

140.  顾梦娜,潘月鹏,何月欣,田世丽,王彦君,吕雪梅,倪雪,孙杰,吴电明,方运霆.稳定同位素模型解析大气氨来源的参数敏感性.环境科学. 417):(已接收). https://doi.org/10.13227/j.hjkx.201911132  

141.  韩士杰*, 袁志友, 方运霆, 王智平. 2016)中国北方森林和草地生态系统碳氮耦合循环与碳源汇效应研究[J].北京林业大学学报, 38(12):128-130.

142.  Liu Weili; Qi Lin; Fang Yunting; Yang Jian*; Wildfire effects on ecosystem nitrogen cycling in a Chinese boreal larch forest, revealed by 15N natural abundance, Biogeosciences Discussions, 2016, doi:10.5194/bg-2016-91.

143.  Toda Hideshige; Suzuki Keisuke; Wang Dexuan; Mo Jiangming; Fang Yunting; Feng Zhaozhong; Zhang Yuxin; Yang Liu; Measurement of Atmospheric Nitrogen Deposition and Nitrogen Leaching Rates in Several Forests in China  [in Japanese], Environmental science, 2010, 23(4), 268-276.

144.  Wang Hui; Mo Jiangming *; Lu Xiankai; Xue Jinghua; Li Jiong; Fang Yunting; Effects of elevated nitrogen deposition on soil microbial biomass carbon in major subtropical forests of southern China, Frontiers of Forestry in China, 2009, 4 (1), 21-27.

145.  张炜莫江明方运霆鲁显楷王晖. (2008) 氮沉降对森林土壤主要温室气体通量的影响生态学报, 28(5): 2309-2319.

146.  王晖莫江明鲁显楷薛璟花李炯方运霆. (2008) 南亚热带森林土壤微生物量碳对氮沉降的响应生态学报, 28(2): 470-478.

147.  鲁显楷莫江明李德军张炜方运霆. (2007) 鼎湖山主要林下层植物光合生理特性对模拟氮沉降的响应北京林业大学学报, 29(6): 1-9.

148.  刘可慧于方明彭少麟方运霆李富荣. (2007) 模拟酸雨对珍稀濒危植物红豆杉幼苗的影响研究生态环境, 16(2): 309-312.

149.  江远清莫江明方运霆李志安. (2007) 鼎湖山主要森林类型土壤交换性阳离子含量及其季节动态特征广西植物, 27(1): 106-113.

150.  莫江明方运霆林而达李玉娥. (2006) 鼎湖山主要森林土壤N2O排放及其对模拟N沉降的响应植物生态学报, 30(6): 901-910.

151.  王晖莫江明薛璟花方运霆李炯. (2006) 氮沉降增加对森林凋落物分解酶活性的影响热带亚热带植物学报, 14(6): 539-546.

152.  鲁显楷莫江明彭少麟方运霆李德军林琼芳. (2006) 鼎湖山季风常绿阔叶林林下层3种优势树种游离氨基酸和蛋白质对模拟氮沉降的响应生态学报, 26(03): 743-753.

153.  莫江明方运霆李德军林而达李玉娥. (2006) 鼎湖山主要森林土壤CO2排放和CH4吸收特征广西植物, 26(2): 142-147, 124.

154.  刘可慧彭少麟莫江明黄忠良方运霆. (2005) 酸沉降对森林植物影响过程和机理.  生态环境学报, 14(6): 953-960.

155.  李德军莫江明彭少麟方运霆. (2005) 南亚热带森林两种优势树种幼苗的元素含量对模拟氮沉降增加的响应.生态学报, 25(9): 2165-2172.

156.  李德军莫江明方运霆李志安. (2005) 模拟氮沉降对南亚热带两种乔木幼苗生物量及其分配的影响植物生态学报, 29(4): 543-549.

157.  莫江明方运霆徐国良李德军薛璟花. (2005) 鼎湖山苗圃和主要森林土壤CO2排放和CH4吸收对模拟N沉降的短期响应生态学报, 25(4): 682-690.

158.  莫江明, Brown S, 彭少麟孔国辉方运霆. (2005) 人为干扰对鼎湖山马尾松林土壤细根和有机质的影响生态学报, 25(3): 491-499.

159.  莫江明彭少麟, Brown S, 方运霆孔国辉. (2004) 鼎湖山马尾松林植物养分积累动态及其对人为干扰的响应植物生态学报, 2 (6): 810-822.

160.  李德军莫江明方运霆薛璟花. (2004) 鼎湖山自然保护区不同演替阶段森林土壤中有效微量元素状况研究广西植物, 24(6): 529-534.

161.  李德军莫江明方运霆江远清. (2004) 木本植物对高氮沉降的生理生态响应热带亚热带植物学报, 12(5): 482-488.

162.  薛璟花莫江明李炯方运霆李德军. (2004) 氮沉降对外生菌根真菌的影响生态学报, 24(8): 1789-1796.

163.  莫江明薛璟花方运霆. (2004) 鼎湖山主要森林植物凋落物分解及其对N沉降的响应.  生态学报, 24 (7): 1413-1420.

164.  李德军莫江明方运霆蔡锡安薛璟花徐国良. (2004) 模拟氮沉降对三种南亚热带树苗生长和光合作用的影响生态学报, 24(5): 876-882.

165.  莫江明彭少麟, Brown S, 孔国辉方运霆. (2004) 鼎湖山马尾松林群落生物量生产对人为干扰的响应生态学报, 24(2): 193-200.

166.  肖金香方运霆. 2003. 江西资溪县马头山自然保护区森林小气候变化特征研究江西农业大学学报, 25(5): 661-665.

167.  莫江明方运霆彭少麟, Brown S, 周国逸. 2003. 鼎湖山南亚热带常绿阔叶林碳素积累和分配特征生态学报, 23(10): 1970-1976.

168.  李德军莫江明方运霆彭少麟. 2003. 氮沉降对森林植物的影响生态学报, 23(9): 1891-1900.

169.  徐国良黄忠良欧阳学军方运霆彭闪江. 2002. 鼎湖山地表无脊椎动物多样性及其与凋落物的关系动物学研究, 23(6): 477-482.

170.  莫江明方运霆张德强孔国辉冯肇年. 2002. 鼎湖山马尾松林降水再分配对养分动态影响广西植物, 22(6): 529-533.

171.  莫江明方运霆孔国辉孟泽冯肇年. 2002. 鼎湖山人为干扰下马尾松林水文生态功能热带亚热带植物学报, 10(02): 99-104. 

172.  莫江明孔国辉, Brown S, 方运霆张佑昌. 2001. 鼎湖山马尾松林凋落物及其对人类干扰的响应研究植物生态学报, 25(6): 656-664.

173.  莫江明彭少麟方运霆郁梦德孔国辉张佑昌. 2001. 鼎湖山马尾松针阔叶混交林土壤有效氮动态的初步研究.生态学报, 21(3): 492-497.

专著:

1.傅声雷,张卫信,邵元虎,时雷雷,张晓,史楠楠,赵灿灿,张晨露,刘占锋,毛鹏,林永标,余世钦,曹建波,孙峰,徐国良,赵杰,吴建平,刘胜杰,王晓丽,孙毓鑫,方运霆,万松泽. 土壤生态学—土壤食物网及其生态功能。科学出版社,2019. 1~270.

2.习丹,方运霆. 第六章 利用15N稳定同位素成对标记和配对技术研究土壤氮气.产生量. 235-244. 曹亚澄,张金波,温腾主编. 《稳定同位素示踪技术与质谱分析:在土壤、生态、环境研究中的应用》。科学出版社,2018.

3.朱伟兴王霏霏莫江明方运霆傅声雷. 2009. 第六章:人类活动主导下陆地生态系中氮素生物地球化学循环的改变邬建国、杨劼主编.《现代生态学讲座(IV-理论与实践》,高等教育出版社, pp120-147.(英文专著,中文摘要)