Name: WANG Ping
Current Appointment: Professor
Education:
2008: Ph.D., Hydrogeology, Lomonosov Moscow State University, Russia
Areas of Specialization:
Arctic Hydrogeology
Dryland Ecohydrology
Surface-groundwater interactions
Representative Publications:
Wang P., Huang Q., Liu S., Liu Y., Li Z., Pozdniakov S.P., Wang T., Kazak E.S., Frolova N.L., Gabysheva O.I., Zhang J., Bai B., Yu J., Min L., Shpakova R.N., Hao L., Gabyshev, V.A. 2024. Climate warming enhances chemical weathering in permafrost-dominated eastern Siberia. Science of The Total Environment, 906, 167367.
Wang T.*, Wu Z., Wang P.*, Wu T., Zhang Y., Yin J., Yu J., Wang H., Guan X., Xu H., Yan D., Yan, D. 2023. Plant-groundwater interactions in drylands: A review of current research and future perspectives. Agricultural and Forest Meteorology, 341, 109636.
Hao L., Wang P.*; Gojenko B., Yu J., Lv A.*, Li F., Kenjabaev S., Kulmatov R., Khikmatov F. 2023. Five decades of freshwater salinization in the Amu Darya River basin. Journal of Hydrology: Regional Studies, 47, 101375.
Wang P., Huang Q., Liu S., Cai H., Yu J., Wang T., Chen X., Pozdniakov S.P. 2022. Recent regional warming across the Siberian lowlands: a comparison between permafrost and non-permafrost areas. Environmental Research Letters, 17(5), 054047.
Liu S., Wang P.*, Huang Q., Gabysheva O.I., Li Z., Zhang J., Kazak E.S., Liu Y., Bazarzhapov T.Zh., Shpakova R.N. Gabyshev V.A., Pozdniakov S.P., Frolova N.L. 2022. A database of water chemistry in eastern Siberian rivers. Scientific Data, 9, 737.
Huang Q., Ma N., Wang P.* 2022. Faster increase in evapotranspiration in permafrost-dominated basins in the warming Pan-Arctic. Journal of Hydrology, 615 (Part A): 128678.
Liu S., Wang P*. 2022. Emerging solute-induced mineralization in Arctic rivers under climate warming. Science of The Total Environment, 851: 158091.
Pozdniakov S.P., Wang P.*, Grinevsky S.O., Frolova N.L. 2022. A physically based model of a two-pass digital filter for separating groundwater runoff from streamflow time series. Water Resources Research, 58(3): e2021WR031333.
Wang T., Wang P.*, Wu Z., Yu J., Pozdniakov S.P., Guan X., Wang H., Xu H., Yan D. 2022. Modeling revealed the effect of root dynamics on the water adaptability of phreatophytes. Agricultural and Forest Meteorology, 320, 108959.
Pozdniakov S.P., Vasilevskiy P.Y., Wang P.* 2022. Analysis of a steady-state model of groundwater discharge in a river valley without and with evapotranspiration. Advances in Water Resources, 168, 104306.
Liu S., Wang P.*, Huang Q., Yu J., Pozdniakov S.P., Kazak E.S. 2022. Seasonal and spatial variations in riverine DOC exports in permafrost-dominated Arctic river basins, Journal of Hydrology, 612: 128060.
Shi S., Wang P.*, Yu J.* 2022. Vegetation greening and climate change promote an increase in evapotranspiration across Siberia. Journal of Hydrology, 610: 127965.
Liu S., Wang P.*, Yu J., Wang T., Cai H., Huang Q., Pozdniakov S.P., Zhang Y., Kazak E.S. 2022. Mechanisms behind the uneven increases in early, mid- and late winter streamflow across four Arctic river basins. Journal of Hydrology, 606: 127425.
Vasilevskiy P.Y., Wang P.*, Pozdniakov S.P., Wang T., Zhang Y., Zhang X., Yu J. 2022. Simulating River/Lake—Groundwater Exchanges in Arid River Basins: An Improvement Constrained by Lake Surface Area Dynamics and Evapotranspiration. Remote Sensing, 14(7): 1657.
Wang P., Huang Q., Pozdniakov S.P., Liu S., Ma N., Wang T., Zhang Y., Yu J., Xie J., Fu G., Frolova N. L., Liu C. 2021. Potential role of permafrost thaw on increasing Siberian river discharge. Environmental Research Letters, 16(3), 034046.
Wang P., Huang Q., Tang Q., Chen X., Yu J., Pozdniakov S.P., Wang T. 2021. Increasing annual and extreme precipitation in permafrost-dominated Siberia during 1959–2018. Journal of Hydrology, 603, 126865.
Zhang H., Yu J.*, Wang P.*, Wang T., Li Y. 2021. Groundwater-fed oasis in arid Northwest China: insights into hydrological and hydrochemical processes. Journal of Hydrology, 597, 126154.
Liu Y., Wang P.*, Gojenko B., Yu J., Wei L., Luo D., Xiao T. 2021. A review of water pollution arising from agriculture and mining activities in Central Asia: Facts, causes and effects. Environmental Pollution, 291, 118209.
Shi S., Wang P.*, Zhang Y., Yu J.* 2021. Cumulative and time-lag effects of the main climate factors on natural vegetation across Siberia. Ecological Indicators,133, 108446.
Wang T., Wang P.*, Wang Z., Niu G., Yu J.*, Ma N., Wu Z., Pozdniakov S.P., Yan D. 2021. Drought adaptability of phreatophytes: Insight from vertical root distribution in drylands of China. Journal of Plant Ecology, 16(4), 1128-1142.
Pozdniakov S.P., Wang P.*, Lekhov V.A. 2019. An approximate model for predicting the specific yield under periodic water table oscillations, Water Resources Research, 55(7), 6185-6197.
Wang T.-Y., Wang P.*, Zhang Y.-C., Yu J.-J.*, Du C.-Y., Fang Y.-H. 2019. Contrasting groundwater depletion patterns induced by anthropogenic and climate-driven factors on Alxa Plateau, northwestern China. Journal of Hydrology, 576, 262-272.
Wang T.-Y., Yu J.-J.*, Wang P.*, Min L.-L., Pozdniakov S. P., Yuan G.-F. 2019 Estimating groundwater evapotranspiration by phreatophytes using combined water level and soil moisture observations. Ecohydrology, 12(5), e2092.
Vasilevskiy P.Y., Wang P.*, Pozdniakov S.P., Davis P. 2019. Revisiting the modified Hvorslev formula to account for the dynamic process of streambed clogging: field validation. Journal of Hydrology, 568, 862-866.
Wang P., Niu GY., Fang YH., Wu RJ., Yu JJ., Yuan GF., Pozdniakov S.P., Scott R.L. 2018. Implementing Dynamic Root Optimization in Noah-MP for Simulating Phreatophytic Root Water Uptake, Water Resources Research, 54(3), 1560-1575.
Wang P., Pozdniakov S.P., Vasilevskiy P.Y. 2017. Estimating groundwater-ephemeral stream exchange in hyper-arid environments: Field experiments and numerical simulations, Journal of Hydrology, 555, 68-79.
Pozdniakov S.P., Wang P.*, Lekhov M.V. 2016. A semi-analytical generalized Hvorslev formula for estimating riverbed hydraulic conductivity with an open-ended standpipe permeameter. Journal of Hydrology, 540, 736-743.
Wang P., Pozdniakov S.P., Shestakov V.M. 2015. Optimum experimental design of a monitoring network for parameter identification at riverbank well fields. Journal of Hydrology, 523(0), 531-541.
Wang P., Pozdniakov S.P. 2014. A statistical approach to estimating evapotranspiration from diurnal groundwater level fluctuations, Water Resources Research, 50(3), 2276-2292.
Wang P., Grinevsky S.O., Pozdniakov S.P., Yu J., Dautova D.S., Min L., Du C., Zhang Y.2014. Application of the water table fluctuation methodfor estimating evapotranspiration at two phreatophyte-dominated sitesunder hyper-arid environments. Journal of Hydrology, 519, Part B(0): 2289-2300.
Wang P., Yu J., Pozdniakov S.P., Grinevsky S.O., Liu C. 2014. Shallow groundwater dynamics and its driving forces in extremely arid areas: a case study of the lower Heihe River in northwestern China, Hydrological Processes, 28(3), 1539-1553.
Wang P., Yu J., Zhang Y., Liu C. 2013. Groundwater recharge and hydrogeochemical evolution in the Ejina Basin, northwest China. Journal of Hydrology, 476: 72-86.
Wang P., Zhang Y., Yu J., Fu G., Ao F. 2011. Vegetation dynamics induced by groundwater fluctuations in the lower Heihe River Basin, northwestern China. Journal of Plant Ecology, 4: 77-90.
Major Research Projects:
1. Streamflow and groundwater responses to climate changes: insights from dry Chinese inland to humid Russian Subarctic basins (NSFC, 42061134017)
2. Resilience of arid riparian ecosystem: consideration of feedback between root and river/groundwater dynamics (NSFC, 42071042)
3. Water use strategy of phreatophytes in arid regions based on plant root optimality (NSFC, 41671023)
Office Address:
Room 928, Building No. A, IGSNRR
11A Da Tun Road
An Wai, Beijing 100101
People’s Republic of China
Telephone: 86-10-6488-1192
Fax: 86-10-6488-1192
Email: wangping@igsnrr.ac.cn
https://scholar.google.com/citations?user=7ozrwp0AAAAJ&hl=en
Updated on November 15, 2023
