师资队伍

专任教师

王铁军

职称：教授

邮箱：tiejun.wang@tju.edu.cn

电话：022-87370831

地址：第16教学楼307室

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)

Sun, S., Che, T., Li, H., Wang, T., Ma, C., Liu, B. et.，2019，Water and carbon dioxide exchange of an alpine meadow ecosystem in the northeastern Tibetan Plateau is energy-limited，Agricultural and Forest Meteorology，275, 283-295.

(2)

Adane, Z., Zlotnik, V. A., Rossman, N. R., Wang, T., & Nasta, P.，2019，Sensitivity of Potential Groundwater Recharge to Projected Climate Change Scenarios: A Site-Specific Study in the Nebraska Sand Hills, USA，Water，11(5), 950.

(3)

Akbariyeh, S., Pena, C. A. G., Wang, T., Mohebbi, A., Bartelt-Hunt, S., Zhang, J., & Li, Y.，2019，Prediction of nitrate accumulation and leaching beneath groundwater irrigated corn fields in the Upper Platte basin under a future climate scenario，Science of The Total Environment.

(4)

Wang, T.J.*, S. K. Singh, A. Bárdossy，2019，On the use of the critical event concept for quantifying soil moisture dynamics，Geoderma，335, 27-34，doi:10.1016/j.geoderma.2018.08.013.

(5)

Wang, Z., Wang*, T., & Zhang, Y.，2019，Interplays between State and Flux Hydrological Variables across Vadose Zones: A Numerical Investigation，Water，11(6), 1295.

(6)

Zhan, C., Han, J., Zou, L., Sun, F. and Wang, T.，2019，Heteroscedastic and symmetric efficiency for hydrological model evaluation criteria，Hydrology Research.

(7)

Liu, Q. Wang*, T., Han, Q., Sun, S., Liu, C., Chen, X.，2019，Diagnosing environmental controls on actual evapotranspiration and evaporative fraction in a water-limited region from northwest China，Journal of Hydrology.

(8)

Di, C., Wang*, T., Istanbulluoglu, E., Jayawardena, A. W., Li, S., Chen, X.，2019，Deterministic chaotic dynamics in soil moisture across Nebraska，Journal of Hydrology.

(9)

Sun, S., Z. Song, X. Wu, T.J. Wang, Y. Wu, W. Du, T. Che, C. Huang, X. Zhang, B. Ping, X. Lin, P. Li, Y. Yang, B. Chen，2018，Spatio-temporal variations in water use efficiency and its drivers in China over the last three decades，Ecological Indicators，94, 292-304，doi:10.1016/j.ecolind.2018.07.003.

(10)

Yang, P., J. Xia, C. Zhan, T.J. Wang，2018，Reconstruction of terrestrial water storage anomalies in Northwest China during 1948–2002 using GRACE and GLDAS products，Hydrology Research.

(11)

Yan, Z., T.J. Wang, L. Wang, X. Yang, P. Smith, M. Hilpert, S. Li, J. Shang, V. Bailey, C. Liu，2018，Microscale Water Distribution and its Effects on Organic Carbon Decomposition in Unsaturated Soils，Science of The Total Environment，644, 1036-1043，doi:10.1016/j.scitotenv.2018.06.365.

(12)

Zhong, J., S.L. Li, J. Liu, H. Ding, X. Sun, S. Xu, T. Wang, R.M. Ellam, C.Q. Liu，2018，Climate variability controls on CO2 consumption fluxes and carbon dynamics for monsoonal rivers: Evidence from Xijiang River, Southwest China，Journal of Geophysical Research: Biogeosciences，doi:10.1029/2018jg004439.

(13)

Di, C., Wang, T.*, Yang, X., Li, S.，2018，An improved Grassberger–Procaccia algorithm for analysis of climate system complexity，Hydrology and Earth System Sciences，22(10), 5069-5079，https://doi.org/10.5194/hess-22-5069-2018.

(14)

D'Alessio, M., T.J. Wang, C.E. Swift, M.S. Shanmungam, and C. Ray，2018，A Tier-I leaching risk assessment of three anticoagulant compounds in the forested areas of Hawai'i，Science of The Total Environment，630, 889-902，https://doi.org/10.1016/j.scitotenv.2018.02.257.

(15)

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.

(16)

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.

(17)

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.

(18)

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.

(19)

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.

(20)

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.

(21)

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.

(22)

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.

(23)

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.

(24)

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.

(25)

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.

(26)

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.

(27)

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.

(28)

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.

(29)

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.

(30)

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.

(31)

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.

(32)

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..

(33)

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.

(34)

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.

(35)

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.

(36)

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.

(37)

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.

(38)

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.

(39)

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.

(40)

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.

(41)

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.

(42)

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.

(43)

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.

(44)

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.

(45)

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.