师资队伍

专任教师

王铁军
职称:教授
邮箱:tiejun.wang@tju.edu.cn
电话:022-83613933
地址:第16教学楼307室
所获学术奖项
2017.05,国家青年千人计划
2016.01,天津市青年千人计划
教育/工作经历
2017.06~今,天津大学表层地球系统科学研究院,教授.
2016.08~2017.05,天津大学表层地球系统科学研究院,副教授.
2013.10~2016.06,University of Nebraska-Lincoln, USA,Visiting Faculty.
2011.01~2012.05,National Institute of Water and Atmospheric Research, New Zealand,Scientist.
2010.02~2010.11,University of Washington-Seattle, USA,Research Associate.
2008.08~2010.01,University of Nebraska-Lincoln, USA,Research Associate.
2004.08~2008.05,University of Nebraska-Lincoln, USA,博士.
2001.08~2004.06,中国海洋大学,硕士.
1997.08~2001.06,青岛海洋大学,本科.
研究方向

(1)水文学
(2)生态水文学

代表性论文
(1)
Wang, T.*, Q. Liu, T.E. Franz, R. Li, Y. Lang, C.A. Fiebrich,2017,Spatial patterns of soil moisture from two regional monitoring networks in the United States,Journal of Hydrology,552, 578–585,https://doi.org/10.1016/j.jhydrol.2017.07.035.
(2)
Zou, L., C. Zhan, J. Xia, T.J. Wang, C.J. Gippel,2017,Implementation of evapotranspiration data assimilation with catchment scale distributed hydrological model via an ensemble Kalman filter,Journal of Hydrology,549, 685–702,http://dx.doi.org/10.1016/j.jhydrol.2017.04.036.
(3)
Foolad, F., T. Franz, T.J. Wang, J. Gibson, A. Kilic, R. Allen, A. Suyker,2017,Feasibility analysis of using inverse modeling for estimating field-scale evapotranspiration in maize and soybean fields from soil water content monitoring networks,Hydrology and Earth System Sciences,21, 1263–1277,10.5194/hess-21-1263-2017.
(4)
Wang*, T.J., T.E. Franz, J. You, M.D. Shulski, C. Ray,2017,Evaluating controls of soil properties and climatic conditions on the use of an exponential filter for converting near surface to root zone soil moisture contents,Journal of Hydrology,548, 683-696,http://dx.doi.org/10.1016/j.jhydrol.2017.03.055.
(5)
Wang*, T.J., T.E. Franz, R. Li, J. You, M.D. Shulski, C. Ray,2017,Evaluating climate and soil effects on regional soil moisture spatial variability using EOFs,Water Resources Research,2017WR020642,10.1002/2017WR020642.
(6)
Gibson, J., T. Franz, T.J. Wang, J. Gates, P. Grassini, H. Yang, D. Eisenhauer,2017,A case study of field-scale maize irrigation patterns in Western Nebraska: Implications to water managers and recommendations for hyper-resolution land surface modelling,Hydrology and Earth System Sciences,21, 1051–1062,10.5194/hess-21-1051-2017.
(7)
Wang*, T.J., Y.Y. Huang, X.H. Chen, and X. Chen,2016,Using grain-size distribution methods for estimation of air permeability,Groundwater,54(1), 131-142,10.1111/gwat.12323.
(8)
Yue, W., T.J. Wang*, T.E. Franz, X. Chen,2016,Spatiotemporal patterns of water table fluctuations and evapotranspiration induced by riparian vegetation in a semi-arid area,Water Resources Research,52, 1948–1960,0.1002/2015WR017546.
(9)
Avery, W., C. Finkenbiner, T.E. Franz, T.J. Wang, A.L. Nguy-Robertson, A. Suyker, T. Arkebauer, F. Munoz-Arriola,2016,Incorporation of globally available datasets into the cosmic-ray neutron probe method for estimating field scale soil water content,Hydrology and Earth System Sciences,20, 3859–3872,10.5194/hess-20-3859-2016.
(10)
Wang*, T.J., T.E. Franz, W. Yue, J. Szilagyi, V.A. Zlotnik, J. You, X. Chen, M.D. Shulski, A. Young,2016,Feasibility analysis of using inverse modeling for estimating natural groundwater recharge from a large-scale soil moisture monitoring network.,Journal of Hydrology,533, 250–265,10.1016/j.jhydrol.2015.12.019.
(11)
Lin, G.Q., T.J. Wang*, X.L. Zheng,2016,Assessing soil effects on temporal stability of absolute soil moisture content and soil moisture anomaly under different climatic conditions,Environmental Earth Sciences,75, 143.
(12)
Yue, W., X. Liu, T.J. Wang*, X. Chen,2016,Assessing impacts of water saving on groundwater balance in a large-scale arid irrigation district, northwest China,Irrigation Science,34(4), 297–312,10.1007/s00271-016-0504-x.
(13)
Wang*, T.J., T.E. Franz, V.A. Zlotnik, Y.J. Sheng, and M.D. Shulski,2015,Investigating soil controls on soil moisture spatial variability: numerical simulations and field observations,Journal of Hydrology,,524, 576–586,10.1016/j.jhydrol.2015.03.019.
(14)
Wang*, T.J., E. Istanbulluoglu, D. Wedin, and P. Hanson,2015,Impacts of devegetation on the temporal evolution of soil saturated hydraulic conductivity in a vegetated sand dune area,Environmental Earth Sciences,73, 7651–7660,10.1007/s12665-014-3936-8.
(15)
Wang*, T.J., T.E. Franz,2015,Field observations of regional controls of soil hydraulic properties on soil moisture spatial variability in different climate zones,Vadose Zone Journal,14, 8,10.2136/vzj2015.02.0032.
(16)
Chen, L., X.L. Zheng, T.J. Wang, and J. Zhang,2015,Factors influencing the manganese release from the soils of a reservoir shore,Environmental Science and Pollution Research,22, 11801–11812,10.1007/s11356-015-4443-5.
(17)
Wang*, T.J., D.A. Wedin, T.E. Franz, and J. Hiller,2015,Effect of vegetation on the temporal stability of soil moisture in grass-stabilized semi-arid sand dunes,Journal of Hydrology,521, 447–459,10.1016/j.jhydrol.2014.12.037.
(18)
Wang*, T.J., T.E. Franz, and V.A. Zlotnik,2015,Controls of soil hydraulic characteristics on modeling groundwater recharge under different climatic conditions,Journal of Hydrology,521, 470–481,10.1016/j.jhydrol.2014.12.040..
(19)
Franz, T.E., T.J. Wang, W. Avery, C. Finkenbiner, L. Brocca,2015,Combined analysis of soil moisture measurements from roving and fixed cosmic-ray neutron probes for multi-scale real-time monitoring.,Geophysical Research Letter,42, 3389–3396,10.1002/2015GL063963.
(20)
Wang*, T.J., X.H. Chen, A.M. Tang, and Y.J. Cui,2014,On the use of the similar media concept for scaling soil air permeability,Geoderma,235, 154–162,10.1016/j.geoderma.2014.07.006.
(21)
Wang*, T.J.,2014,Modeling the impacts of soil hydraulic properties on temporal stability of soil moisture under a semi-arid climate,Journal of Hydrology,519, 1214–1224,10.1016/j.jhydrol.2014.08.052.
(22)
Istanbulluoglu, E., T.J. Wang, O. Wright, and J. Lenters,2012,Interpretation of hydrologic trends from a water balance perspective: The role of groundwater storage in the Budyko hypothesis,Water Resources Research,48, W00H16,10.1029/2010WR010100.
(23)
Istanbulluoglu, E., T.J. Wang, and D. Wedin,2012,Evaluation of ecohydrologic model parsimony at local and regional scales in a semiarid grassland ecosystem,Ecohydrology,10.1002/eco.211,5, 121–142.
(24)
Wang*, T.J., and V.A. Zlotnik,2012,A complementary relationship between actual and potential evapotranspiration and soil effects,Journal of Hydrology,456, 146–150,10.1016/j.jhydrol.2012.03.034.
(25)
Soylu, E., E. Istanbulluoglu, J. Lenters, and T.J. Wang,2011,Quantifying the impact of groundwater depth on evapotranspiration in a semi arid grassland region,Hydrology and Earth System Sciences,15, 787–806,10.5194/hess-15-787-2011.
(26)
Zhao, P., M. Shao, and T.J. Wang,2010,Spatial distributions of surface-layer saturated hydraulic conductivity and controlling factors on dam farmlands,Water Resources Management,24, 247–2266,10.1007/s11269-009-9550-y.
(27)
Wang*, T.J., V.A. Zlotnik, J. Simunek, and M.G. Schaap,2009,Using pedotransfer functions in vadose zone models for estimating groundwater recharge in semiarid regions,Water Resources Research,45, W04412,10.1029/2008WR006903.
(28)
Wang*, T.J., E. Istanbulluoglu, J. Lenters, and D. Scott,2009,On the role of groundwater and soil texture in the regional water balance: An investigation of the Nebraska Sand Hills, USA,Water Resources Research,45, W10413,10.1029/2009WR007733.
(29)
Wang*, T.J., D. Wedin, and V.A. Zlotnik,2009,Field evidence of a negative correlation between saturated hydraulic conductivity and soil carbon in a sandy soil.,Water Resources Research,45, W07503,10.1029/2008WR006865.
(30)
Wang*, T.J., V.A. Zlotnik, D. Wedin, and K.D. Wally,2008,Spatial trends in saturated hydraulic conductivity of vegetated dunes in the Nebraska Sand Hills: effects of depth and topography,Journal of Hydrology,349, 88–97,10.1016/j.jhydrol.2007.10.027.
(31)
Zlotnik, V.A., T.J. Wang, J.L. Nieber, and J.A. ?imunek,2007,Verification of numerical solutions of the Richards equation using a traveling wave solution,Advances in Water Resources,30, 1973–1980,10.1016/j.advwatres.2007.03.008.