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                  研究領域是生物圈與大氣圈之間的相互作用。研究方向涉及生物365app學、邊界層365app學、穩定同位素生態學與水文學。目前的研究重點包括:湖泊與大氣之間溫室氣體交換、穩定同位素方法在碳水循環中的應用 。



                  2009.07 中國科學院地理科學與資源研究所  理學博士

                  2005.06 南京信息工程大學365app學專業      理學碩士

                  2002.06 南京信息工程大學農業365app學專業  理學學士



                  2015.03至今   美國耶魯大學森林環境學院       訪問學者

                  2013.04至今   南京信息工程大學365体育app   副教授

                  2011.01-2011.07 美國耶魯大學森林環境學院      博士後

                  2009.07-2013.03 南京信息工程大學365体育app  講師

                  2008.01-2009.01 美國耶魯大學森林環境學院      訪問學者

                  2005.07-2006.08 廣東省365app                  365app預報員



                  [1]      Xiao W,X Wen, W Wang, Q Xiao, J Xu, C Cao, J Xu, C Hu, J Shen, S Liu, X Lee (2015)Spatial distribution and temporal variability of stable water isotopes in aLarge and Shallow Lake. In review

                  [2]      HuC, Y Wang, W Wang, S Liu, M Piao, W Xiao,X Lee (2015) Trends in evaporation of a large subtropical lake. In review

                  [3]      Xiao W,S Liu, H Li, Q Xiao, W Wang, Z Hu, C Hu, Y Gao, J Shen, X Zhao, M Zhang, X Lee(2014) A flux-gradient system for simultaneous measurement of CH4,CO2 and H2O fluxes at a lake-air interface. EnvironmentalScience and Technology 48: 1449014498.

                  [4]      WangW, W Xiao, C Cao, Z Gao, Z Hu, SLiu, S Shen, L Wang, Q Xiao, J Xu, D Yang, X Lee (2014) Temporal and spatialvariations in radiation and energy balance across a large freshwater lake inChina. Journal of Hydrology 511: 811-824.

                  [5]      LeeX, S Liu, W Xiao, W Wang, Z Gao, CCao, C Hu, Z Hu, S Shen, Y Wang, X Wen, Q Xiao, J Xu, J Yang, M Zhang (2014)The Taihu Eddy Flux Network: an observational program on energy, water, andgreenhouse gas fluxes of a large freshwater lake. Bulletin of AmericanMeteorological Society, 95: 1583-1594

                  [6]      ShenS, D Yang, W Xiao*, S Liu, X Lee(2014) Constraining anthropogenic CH4 emission in Nanjing and theYangtze River Delta, China using atmospheric CO2 and CH4 mixingratios. Advances in Atmospheric Sciences 31: 1343–1352.

                  [7]      HuZ, J Yang, Q Xiao, S Liu, W Xiao, XLee (2014) Temporal dynamics and regulation of ecosystem metabolism in a largesubtropical shallow lake (Lake Taihu). International Journal of EnvironmentalResearch and Public Health 12: 3691–3706.

                  [8]      ZhangX, X Lee, TJ Griffis, JM Baker, W Xiao(2014) Estimating regional greenhouse gas fluxes: An uncertainty analysis ofplanetary boundary layer techniques and bottom-up inventories. AtmosphericChemistry and Physics 14: 10705–10719.

                  [9]      ZhangX, X Lee, TJ Griffis, AE Andrews, JM Baker, MD Erickson, N Hu, W Xiao (2015) Quantifying nitrous oxidefluxes on multiple spatial scales in the Upper Midwest, USA. InternationalJournal of Biometeorology 59: 299–310.

                  [10]  ZhangX, X Lee, TJ Griffis, JM Baker, M Erickson, N Hu, W Xiao (2014) The influence of plants on atmospheric methane in anagriculture-dominated landscape. International Journal of Biometeorology58:819-833.

                  [11]  Xiao W,S Liu, W Wang, D Yang, J Xu, Chang Cao, H Li, X Lee (2013) Transfercoefficients of momentum, sensible heat and water vapour in the amtosphericsurface layer of a large freshwater lake. Boundary-Layer Meteorology 148:479-494.

                  [12]  DengB, S Liu, W Xiao, W Wang, J Jin, XLee (2013) Evaluation of the CLM4 lake model at a large and shallow freshwaterlake. Journal of Hydrometeorology 14: 636-649. online data supplement

                  [13]  WelpL, X Lee, T Griffis, XF Wen, W Xiao,SG Li, XM Sun, ZM Hu, M Val Martin, J Huang (2012) A meta-analysis of watervapor deuterium-excess in the mid-latitude atmospheric surface layer. GlobalBiogeochemical Cycles 26: GB3021, doi:10.1029/2011GB004246

                  [14]  Xiao W,X Lee, X Wen, X Sun, S Zhang (2012) Modeling biophysical controls on canopyfoliage water 18O enrichment in wheat and corn. Global ChangeBiology 18: 1769-1780 doi: 10.1111/j.1365-2486.2012.02648.x.

                  [15]  GriffisTG, X Lee, JM Baker, K Billmark, N Schultz, M Erickson, X Zhang, J Fassbinder, W Xiao, N Hu (2011) Oxygen isotopecomposition of evapotranspiration and its relation to C4 photosyntheticdiscrimination. Journal of Geophysical Research –Biogeosciences 116, G01035,doi:10.1029/2010JG001514

                  [16]  GriffisTJ, SD Sargent, X Lee, JM Baker, J Greene, M Erickson, X Zhang, K Billmark, NSchultz, W Xiao, N Hu (2010)Determining the oxygen isotope composition of evapotranspiration using eddycovariance. Boundary-Layer Meteorology 137: 307-326.

                  [17]  Xiao W,X Lee, TJ Griffis, K Kim, LR Welp, Q Yu (2010) A modeling investigation ofcanopy-air oxygen isotopic exchange of water vapor and carbon dioxide in asoybean field. Journal of Geophysical Research – Biogeosciences 115: G01004,doi:10.1029/2009JG001163.




                  [1]      國家自然科學基金面上項目,2015-2018,開放水面蒸發同位素富集經典模型在太湖的直接檢驗與發展,主持人

                  [2]      國家自然科學基金青年項目,2012-2014  ,冠層尺度葉片水18O富集過程與機制的模型研究 ,主持人

                  [3]      江蘇省自然科學基金面上項目 ,2011-2014 ,通過動態連續監測CO2CH4通量預測太湖藍藻水華爆發 ,主持人

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