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Uncertainty in global groundwater storage estimates in a Total Groundwater Stress frameworkChanging rainfall and humidity within Southeast TexasEngineering crassulacean acid metabolism to improve water-use efficiencyGroundwater depletion during drought threatens future water security of the Colorado River BasinSatellite gravity measurement monitoring terrestrial water storage change and drought in the continental United States.Quality assessment of groundwater from the south-eastern Arabian Peninsula.Time-Series Transcriptomics Reveals That AGAMOUS-LIKE22 Affects Primary Metabolism and Developmental Processes in Drought-Stressed Arabidopsis.Assessing Groundwater Depletion and Dynamics Using GRACE and InSAR: Potential and Limitations.Bringing GRACE Down to Earth.Satellites provide the big picture.Hyper-resolution global hydrological modelling: what is next?Groundwater Development Stress: Global-Scale Indices Compared to Regional Modeling.Negative soil moisture-precipitation feedback in dry and wet regions.Comparing potential recharge estimates from three Land Surface Models across the Western US.Benefits and Pitfalls of GRACE Data Assimilation: a Case Study of Terrestrial Water Storage Depletion in India.Spatio-temporal variability of groundwater storage in India.The global groundwater crisisTracking the weight of Hurricane Harvey's stormwater using GPS dataHydrologic versus geomorphic drivers of trends in flood hazardTopography- and nightlight-based national flood risk assessment in CanadaScience and User Needs for Observing Global Mass Transport to Understand Global Change and to Benefit SocietyAre GRACE-era Terrestrial Water Trends Driven by Anthropogenic Climate Change?Rivers and Floodplains as Key Components of Global Terrestrial Water Storage VariabilityAssimilation of gridded terrestrial water storage observations from GRACE into a land surface modelGroundwater Storage Changes: Present Status from GRACE ObservationsReply to comment by Sahoo et al. on “Quantifying renewable groundwater stress with GRACE”Does GRACE see the terrestrial water cycle “intensifying”?A comparison of watershed storage trends over the eastern and upper Midwestern regions of the United States, 2003-2015Monitoring groundwater storage changes in complex basement aquifers: An evaluation of the GRACE satellites over East AfricaSustainable Groundwater Management in the Arid Southwestern US: Coachella Valley, CaliforniaThe spatial scale of model errors and assimilated retrievals in a terrestrial water storage assimilation systemDetection of human-induced evapotranspiration using GRACE satellite observations in the Haihe River basin of China
P2860
Q30385915-ECD04C67-0BF1-4CBE-9CF5-60AC3A9D6851Q30990770-1692EA50-2064-4BC6-ADBF-F22DA6036F12Q33787477-55E162F5-BF55-47CC-8EAF-B0C0228F47C7Q34469250-F396CD6A-9365-477D-8BBA-6180F4834D78Q36507360-0259832A-181C-42B7-87A6-08FC584F8F08Q38653190-28EAFCB1-C4C5-415F-9C83-7610579CC79FQ38898871-CB8DC7AD-D0DE-4F26-A952-C65CD5BC0AE7Q38941241-9E1BB0C1-4CB2-45EA-88D9-AF336D5B2942Q40467167-03ED84DA-E6BE-40A1-A55F-9A5F2746CAACQ46424884-92A2416B-D30D-4A48-AFD0-D04AE55F843EQ46570336-3424C9F1-7D76-435B-8B76-7476B293FF95Q47792937-ED525C14-AF1A-4A02-8822-9C018AFACE84Q52366478-4C904E43-6746-4D1F-B2DF-9D12664C1FC9Q52736145-0DD445B2-75FA-4391-A17C-A2611710E5E2Q54919262-52B7209F-78B6-4D63-8576-B0EDEA2D1AA6Q55209935-BA692DA9-4413-4AAF-87B0-4FDCF8CE0821Q56674491-5461F382-2A58-4B5A-B899-C4BD2A570B52Q57092644-F0C901F3-C5E5-44C3-9696-76E05AC49952Q57550302-0CC7E544-E8DC-42B5-B186-1EDF21DECBA5Q57866443-EA662323-B4D8-4756-9FF0-6B5442F9546FQ57874393-19CD8C41-05EF-4AD7-8905-45F48C1380BBQ58082582-D517C23C-6872-4372-9A39-E7C786BE8C8AQ58101415-A2CABAEC-0207-4EDA-88C9-2F3019B4AC91Q58101455-E2845412-A68F-4B70-8D93-40607D8576CFQ58101472-E3F4FA6E-AE05-4BE0-AE0F-555E0236DBE4Q58101489-2C270A87-4674-465B-BE26-9CA231F3ADA9Q58120378-82F6A464-1946-4BDE-8BFC-3543D88D13AEQ58265991-7A2182D6-6521-49B3-B86E-318B13112A3AQ58266008-37C3C9BD-83AD-4C88-A820-4135AF5C5609Q58266039-F5EDEC00-3271-468E-B133-18B3F2406CD5Q58393190-B8FA7515-F88C-4EE9-989A-0F0E24FC71EEQ58397869-A7582C51-9637-4916-A3FF-9024E9628F8D
P2860
description
2013 nî lūn-bûn
@nan
2013 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Environmental science. Water in the balance.
@ast
Environmental science. Water in the balance.
@en
type
label
Environmental science. Water in the balance.
@ast
Environmental science. Water in the balance.
@en
prefLabel
Environmental science. Water in the balance.
@ast
Environmental science. Water in the balance.
@en
P356
P1433
P1476
Environmental science. Water in the balance.
@en
P304
P356
10.1126/SCIENCE.1236460
P407
P577
2013-06-01T00:00:00Z