LIU Xueyan
Professional Title: Professor
Email: liuxueyan@tju.edu.cn
Tel: 022-83613932
Office Location:Rm 322, Building No.16
Academic Honors & Awards
2015.01 : Excellent Young Scientist, National Natural Science Foundation of China
2015.01 : Fellow of Youth Innovation Promotion Association, Chinese Academy of Sciences
2008.01 : President scholarship, Chinese Academy of Sciences
Education/Employment
2015.03~Now, Institute of Surface-Earth System Science, Tianjin University, China., Professor,.
2014.04~2015.02, State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, China., Associate professor,.
2011.11~2014.03, Tokyo University of Agriculture and Technology, Japan. Supported by JSPS Program for Next Generation World-Leading Researcher (NEXT Program, No. GS008)., Postdoctoral researcher,.
2009.11~2011.11, Tokyo University of Agriculture and Technology, Japan., JSPS Postdoctoral Fellowship for Foreign Researchers (No. 09316),.
2008.01~2009.01, State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, China., Assistant professor,.
2003.09~2008.05, Institute of Geochemistry, Chinese Academy of Sciences, China, Ph. D (Master-Doctoral Program) in Environmental Geochemistry,.
1999.09~2003.07, School of Geographic and Environmental Sciences, Guizhou Normal University, China., B. S. in Geographic sciences,.
Research

Coupled nitrogen and carbon biogeochemistry in terrestrial ecosystems and its responses to environmental change and anthropogenic N deposition. Nitrogen is the most critical limiting nutrient for microbes and plants. We investigate the biogeochemistry of nitrogen – how human activities alter the sources and processes of bioavailable N in surface-earth systems, and how ecosystems structure (species composition, alien plant invasion) and functions (Carbon dioxide fixation, nitrogen saturation and eutrophication) respond to changes of nitrogen dynamics against climate change (e.g., warming) and anthropogenic nitrogen deposition. We work across a variety terrestrial ecosystems - from the high arctic tundra in Alaska to temperate and subtropical forests in China - and across scales ranging from cellular nitrogen species in plant tissues to the whole system. Novel chemical, biological and isotopic (13C, 15N, 18O&17O) parameters are our major methods in our studies. Our overarching aim is to use basic scientific knowledge on nitrogen cycle to work toward a sustainable planet for future generations.

Research Projects
(1)
2018.01~2020.01, Stable isotope tracing of atmospheric nitrogen pollutants, Outstanding Youth Funds of Tianjin, China, (No. 17JCJQJC45400). Role: PI,.
(2)
2018.01~2022.01, Key nitrogen-use processes of forest plants and their responses to atmospheric nitrogen inputs, Key Project of National Natural Science Foundation of China, (No. 41730855). Role: PI,.
(3)
2017.01~2020.01, Key atmospheric processes influencing regional deposition responses to emissions, The Key Project of the Special Focus on ‘Causes and controlling techniques of atmospheric pollution’ of the China National Key Research and Development Plan, (No.: 2017YFC0210100). Role: PI,.
(4)
2016.01~2020.01, Coupled carbon and nitrogen biogeochemistry in forest and grassland ecosystems of northern China, The Key Project of the Special Focus on ‘Global Change and Response’ of the China National Key Research and Development Plan, (No.: 2016YFA060080). Role: Participant,.
(5)
2016.01~2018.01, Nitrogen isotope geochemistry. Excellent Young Scientist Foundation of NSFC, (No.: 41522301), Role: PI,.
(6)
2015.01~2018.01, Isotopic elucidation of N-use strategies in invasive compositea plants and coexisting species in southwestern China, Funded by the National Natural Science Foundation of China, (No.: 41473081). Role: PI,.
(7)
2013.01~2016.01, Mechanisms of nitrogen utilization and isotopic fractionations in bryophytes, Funded by the National Natural Science Foundation of China (No.: 41273026)., Role: PI,.
(8)
2010.01~2012.01, Dynamics and ecophysiological effects of atmospheric N deposition in moss-substrate systems, Funded by the National Natural Science Foundation of China (No.: 40903012). Role: PI,.
Teaching
Biogeochemistry
Selected Publications
(1)
Xu-Dong Zheng, Xue-Yan Liu*, Wei Song, Xin-Chao Sun, Cong-Qiang Liu, 2018, Nitrogen isotope variations of ammonium across rain events: Implications for different scavenging between ammonia and particulate ammonium, Environmental Pollution, doi.org/10.1016/j.envpol.2018.04.015,.
(2)
Liu XY*, Koba K*, Koyama L, Hobbie SE, Weiss MS, Inagaki Y, Shaver GR, Giblin AE, Hobara S, Nadelhoffer KJ, Sommerkorn M, Rastetter EB, Kling GW, Laundre JA, Yano Y, Makabe A, Yano M, Liu CQ, 2018, Nitrate is an important nitrogen source for arctic tundra plants, PNAS, 115 (13): 3398-3403,.
(3)
Yanhong Cao, Yi Shi, Xinchao Sun, Caiyan Lu*, Xueyan Liu*, 2018, Effects of elevated ozone on the contribution of nitrogen rhizodeposition by spring wheat to different soil N pools, Plant and Soil, DOI:10.1007/s11104-018-3592-y,.
(4)
Xinchao Sun*, Yuichi Onda, Akiko Hirata, Hiroaki Kato, Takashi Gomi, Xueyan Liu*, 2018, Effect of canopy openness and meteorological factors on spatial variability of throughfall isotopic composition in a Japanese cypress plantation, Hydrological Processes, DOI:10.1002/hyp.11475,.
(5)
Liu XY*, Xiao HW, Xiao HY*, Song W, Sun XC, Zheng XD, Liu CQ, Koba K, 2017, Stable isotope analyses of precipitation nitrogen sources in Guiyang, southwestern China, Environmental Pollution, 230: 486-494,.
(6)
Wang YL, Liu XY*, Song W, Yang W, Han B, Dou XY, Zhao XD, Song ZL, Liu CQ, Bai ZP*, 2017, Source appointment of nitrogen in PM2.5 based on bulk δ15N signatures and a Bayesian isotope mixing model, Tellus Series B: Chemical and Physical Meteorology, DOI: 10.1080/16000889.2017.1299672,.
(7)
Xuejun Liu, Wen Xu, Lei Duan, Enzai Du, Yuepeng Pan, Xiankai Lu, Lin Zhang, Zhiyong Wu, Xuemei Wang, Ying Zhang, Jianlin Shen, Ling Song, Zhaozhong Feng, Xueyan Liu, Wei Song, Aohan Tang, Yangyang Zhang, Xiuying Zhang, Jeffrey L. Collett Jr. (All authors cotributed equally), 2017, Recent progress on atmospheric nitrogen emission, deposition and environmental impacts in China, Current Pollution Reports, DOI: 10.1007/s40726-017-0053-9,.
(8)
Dong YP, Liu XY*, Sun XC*, Song W, Zheng XD, Li R, Liu CQ, 2017, Inter-species and intra-annual variations of moss nitrogen utilization: implications for nitrogen deposition assessment, Environmental Pollution, 230: 506-515,.
(9)
Sun XC*, Onda Y, Otsuki K, Kato H, Gomi T, Liu XY*, 2017, Immediate change in evapotranspiration partitioning after heavy thinning in a Japanese cypress plantation, Trees-Structure and Function, DOI: 10.1007/s00468-017-1555-1,.
(10)
Xinchao Sun*, Yuichi Onda, Hiroaki Kato, Takashi Gomi, Xueyan Liu*, 2017, Estimation of throughfall with changing stand structures for Japanese cypress and cedar plantations, Forest Ecology and Management, 402: 145-156,.
(11)
Tong YD, Zhang W, Wang XJ, Couture RM, Larssen T, Zhou F, Li J, Liang HJ, Liu XY, Bu XG, Zhao Y, He W, Zhang QG, Lin Y, 2017, Decline in Chinese lake phosphorus concentrations accompanied by shift in sources since 2006, Nature Geoscience, DOI: 10.1038/NGEO2967,.
(12)
Wang YL, Liu XY*, et al., 2016, Isotopic partitioning of nitrogen in PM2.5 at Beijing and a background site of China, Atmos. Chem. Phys. Discuss., doi:10.5194/acp-2016-187,.
(13)
Xiao-Dong Li, Cong-Qiang Liu, Xiao-Long Liu, Jing Yu, Xue-Yan Liu, 2015, Sources and Processes Affecting Nitrate in a Dam-Controlled Subtropical River, Southwest China, Aquatic Geochemistry, DOI: 10.1007/s10498-014-9231-1,.
(14)
Fang YT, Koba K, ... Liu XY et al., 2015, Microbial denitrification dominates nitrate losses from forest ecosystems, PNAS, 112, 5: 1470–1474,.
(15)
Fengshan Guo, Zhaoliang Song, Leigh Sullivan, Hailong Wang, Xueyan Liu, Xudong Wang, Zimin Li, Yuying Zhao, 2015, Enhancing phytolith carbon sequestration in rice ecosystems through basalt powder amendment, Chinese Science Bulletin, 60(6): 591–597,.
(16)
Liu XY, Koba K, Makabe A, Liu CQ, 2014, Nitrate dynamics in natural plants: Insights based on the concentration and natural isotope abundances of tissue nitrate, Frontiers in Plant Science, 5: 355. doi: 10.3389/fpls.2014.00355,.
(17)
Fang YT, Koba K, Yoh M, Makabe A, Liu XY, 2013, Pattern of foliar δ15N and its controls in Eastern Asian forests, Ecological Research, 28: 735–748,.
(18)
Liu XY, Koba K, Takebayashi Y, Liu CQ, Fang YT, Yoh M, 2013, Dual N and O isotopes of nitrate in natural plants: first insights into individual variability and organ-specific pattern, Biogeochemistry, 114: 399–411,.
(19)
Liu XY, Koba K, Makabe A, Li XD, Yoh M, Liu CQ, 2013, Ammonium first: natural mosses prefer atmospheric ammonium but vary utilization of dissolved organic nitrogen depending on habitat and nitrogen deposition, New Phytologist, 199 (2): 407–419,.
(20)
Liu XY, Koba K, Takebayashi Y, Liu CQ, Fang YT, Yoh M, 2012, Preliminary insights into δ15N and δ18O of nitrate in natural mosses: A new application of the denitrifier method, Environmental Pollution, 162, 48 – 55,.
(21)
Liu XY, Koba K, Liu CQ, Li XD, Yoh M, 2012, Pitfalls and new mechanisms in moss isotope bio-monitoring of atmospheric nitrogen deposition, Environmental Science and Technology, 46(22): 12557–12566,.
(22)
Liu XY, Koba K, Yoh M, Liu CQ., 2012, Nitrogen and oxygen isotope effects of tissue nitrate associated with nitrate acquisition and utilization in the moss Hypnum plumaeforme, Functional Plant Biology, 39(7), 598–608,.
(23)
Fang YT, Koba K, Makabe A, Zhu FF, Fan SY, Liu XY, Yoh M, 2012, Low δ18O values of nitrate produced from nitrification in temperate forest soils, Environmental Science and Technology, 46(16): 8723–8730,.
(24)
Liu XY, Xiao HY, Liu CQ, 2011, Physiological and isotopic signals in epilithic mosses for indicating anthropogenic sulfur on the urban-rural scale, Ecological Indicators, 11: 1245 – 1250,.
(25)
Fang YT, Koba K, Wang XM, Wen DZ, Li J, Takebayshi Y, Liu XY, Yoh M, 2011, nthropogenic imprints on nitrogen and oxygen isotopic composition of precipitation nitrate in a nitrogen polluted city of southern China, Atmospheric Chemistry and Physics, 11: 1313–1325,.
(26)
Liu XY, Xiao HY, Liu CQ, Li YY, Xiao HW, Wang YL, 2010, Response of stable carbon isotope in epilithic mosses to atmospheric nitrogen deposition, Environmental Pollution, 158, 2273 – 2281,.
(27)
Xiao HY, Tang CG, Xiao HW, Liu XY, Liu CQ, 2010, Mosses indicating atmospheric nitrogen deposition and sources in the Yangtze river drainage basin, China, Journal of Geophysical Research-Atmospheres, 115 (D14301),.
(28)
Xiao HY, Tang CG, Xiao HW, Liu XY, Liu CQ, 2009, Identifying the change of atmospheric sulphur sources in China using isotopic ratios in mosses, Journal of Geophysical Research-Atmosphere, 114, D16304, doi: 10.1029/2009JD012034,.
(29)
Liu XY, Xiao HY, Liu CQ, Xiao HW, Wang YL, 2009, Assessment of atmospheric sulfur with the epilithic moss Haplocladium microphyllum: Evidences from tissue sulfur and δ34S analysis, Environmental Pollution, 157: 2066 – 2071,.
(30)
Liu XY, Xiao HY, Liu CQ, Li YY, Xiao HW, 2008, Tissue nitrogen and 15N natural abundance in epilithic mosses for indicating atmospheric N deposition at Guiyang area, SW China, Applied Geochemistry, 23(9): 2708 – 2715,.
(31)
Xiao HY, Tang CG, Liu XY, Xiao HW, Liu CQ, 2008, Sulphur isotopic ratios in mosses indicating atmospheric sulphur sources in southern Chinese mountainous areas, Geophysical Research Letters, 35, L19807, doi: 10.1029/2008GL034255,.
(32)
Liu XY, Xiao HY, Liu CQ, Li YY, Xiao HW, 2008, Stable carbon and nitrogen isotopes of the moss Haplocladium microphyllum in an urban and a background area (SW China): the role of environmental conditions and atmospheric nitrogen deposition, Atmospheric Environment, 42(21): 5413 – 5423,.
(33)
Liu XY, Xiao HY, Liu CQ, Li YY, Xiao HW, 2008, Atmospheric transport of urban-derived NHx: Evidences from nitrogen concentration and δ15N in epilithic mosses at Guiyang, SW China, Environmental Pollution, 156(3): 715 – 722,.
(34)
Liu XY, Xiao HY, Liu CQ, Li YY, 2007, δ13C and δ15N of moss (Haplocladium microphyllum (Hedw.) Broth) for indicating environment variations and canopy retention on atmospheric nitrogen deposition, Atmospheric Environment, 41(23): 4897 – 4907,.