From coarse resolution to practical solution: GRACE as a science communication and policymaking tool for sustainable groundwater management

[1]  J. Famiglietti,et al.  Groundwater Connections and Sustainability in Social‐Ecological Systems , 2023, Ground water.

[2]  J. Famiglietti,et al.  Groundwater depletion in California’s Central Valley accelerates during megadrought , 2022, Nature communications.

[3]  J. Cheshire Making the invisible visible , 2022 .

[4]  M. Kummu,et al.  Hotspots for social and ecological impacts from freshwater stress and storage loss , 2022, Nature communications.

[5]  A. Cazenave,et al.  Applications and Challenges of GRACE and GRACE Follow-On Satellite Gravimetry , 2022, Surveys in Geophysics.

[6]  Kai Su,et al.  Improving the Accuracy of Groundwater Storage Estimates Based on Groundwater Weighted Fusion Model , 2022, Remote. Sens..

[7]  A. Ducharne,et al.  GMD perspective: The quest to improve the evaluation of groundwater representation in continental- to global-scale models , 2021, Geoscientific Model Development.

[8]  S. Jasechko,et al.  Global groundwater wells at risk of running dry , 2021, Science.

[9]  J. Famiglietti,et al.  The hidden crisis beneath our feet , 2021, Science.

[10]  J. Kusche,et al.  Long‐Term (1979‐Present) Total Water Storage Anomalies Over the Global Land Derived by Reconstructing GRACE Data , 2021, Geophysical Research Letters.

[11]  N. Sneeuw,et al.  Downscaling GRACE total water storage change using partial least squares regression , 2021, Scientific data.

[12]  Maria Tengö,et al.  Solutions-oriented research for sustainability: Turning knowledge into action , 2021, Ambio.

[13]  R. Magagi,et al.  Data assimilation of satellite-based terrestrial water storage changes into a hydrology land-surface model , 2020, Journal of Hydrology.

[14]  I. Hoteit,et al.  Mapping groundwater abstractions from irrigated agriculture: big data, inverse modeling, and a satellite–model fusion approach , 2020, Hydrology and Earth System Sciences.

[15]  T. Russo,et al.  A Snapshot of the World's Groundwater Challenges , 2020 .

[16]  Zhigui Kang,et al.  Extending the Global Mass Change Data Record: GRACE Follow‐On Instrument and Science Data Performance , 2020, Geophysical Research Letters.

[17]  D. Long,et al.  Reconstruction of GRACE Data on Changes in Total Water Storage Over the Global Land Surface and 60 Basins , 2020, Water Resources Research.

[18]  Hu Liu,et al.  Evaluation of groundwater sustainability in the arid Hexi Corridor of Northwestern China, using GRACE, GLDAS and measured groundwater data products. , 2020, The Science of the total environment.

[19]  T. Oki,et al.  The Water Planetary Boundary: Interrogation and Revision , 2019, One Earth.

[20]  M. Bierkens,et al.  Environmental flow limits to global groundwater pumping , 2019, Nature.

[21]  G. Ferguson,et al.  Global Groundwater Sustainability, Resources, and Systems in the Anthropocene , 2019, Annual Review of Earth and Planetary Sciences.

[22]  Sujay V. Kumar,et al.  Global GRACE Data Assimilation for Groundwater and Drought Monitoring: Advances and Challenges , 2019, Water Resources Research.

[23]  T. Farr,et al.  Model-data fusion of hydrologic simulations and GRACE terrestrial water storage observations to estimate changes in water table depth , 2019, Advances in Water Resources.

[24]  M. Bierkens,et al.  Non-renewable groundwater use and groundwater depletion: a review , 2019, Environmental Research Letters.

[25]  B. D. Loomis,et al.  Regularization and error characterization of GRACE mascons , 2019, Journal of Geodesy.

[26]  Frank Flechtner,et al.  Contributions of GRACE to understanding climate change , 2019, Nature Climate Change.

[27]  David Walling,et al.  Combining Physically Based Modeling and Deep Learning for Fusing GRACE Satellite Data: Can We Learn From Mismatch? , 2019, Water Resources Research.

[28]  G. Coccia,et al.  Satellite Remote Sensing for Water Resources Management: Potential for Supporting Sustainable Development in Data‐Poor Regions , 2018, Water Resources Research.

[29]  A. Cazenave,et al.  Exploring the uncertainty in GRACE estimates of the mass redistributions at the Earth surface: implications for the global water and sea level budgets , 2018, Geophysical Journal International.

[30]  Nico Sneeuw,et al.  What Is the Spatial Resolution of grace Satellite Products for Hydrology? , 2018, Remote. Sens..

[31]  F. Landerer,et al.  Emerging trends in global freshwater availability , 2018, Nature.

[32]  E. Chaussard,et al.  Quantitative mapping of groundwater depletion at the water management scale using a combined GRACE/InSAR approach , 2018 .

[33]  R. Reedy,et al.  Global models underestimate large decadal declining and rising water storage trends relative to GRACE satellite data , 2018, Proceedings of the National Academy of Sciences.

[34]  James S. Famiglietti,et al.  Downscaling GRACE Remote Sensing Datasets to High-Resolution Groundwater Storage Change Maps of California's Central Valley , 2018, Remote. Sens..

[35]  A. Berg,et al.  Sensitivity of GRACE-derived estimates of groundwater-level changes in southern Ontario, Canada , 2017, Hydrogeology Journal.

[36]  M. Rodell,et al.  Benefits and pitfalls of GRACE data assimilation: A case study of terrestrial water storage depletion in India , 2017, Geophysical research letters.

[37]  M. Puma,et al.  Groundwater depletion embedded in international food trade , 2017, Nature.

[38]  Hyongki Lee,et al.  Integrated groundwater resource management in Indus Basin using satellite gravimetry and physical modeling tools , 2017, Environmental Monitoring and Assessment.

[39]  Srinivas Bettadpur,et al.  High‐resolution CSR GRACE RL05 mascons , 2016 .

[40]  M. Watkins,et al.  Quantifying and reducing leakage errors in the JPL RL05M GRACE mascon solution , 2016 .

[41]  Nico Sneeuw,et al.  Minimizing the effects of filtering on catchment scale GRACE solutions , 2016 .

[42]  Dan Murray,et al.  Advancing the State of Policy Delphi Practice: A Systematic Review Evaluating Methodological Evolution, Innovation, and Opportunities , 2016 .

[43]  Vincent Humphrey,et al.  Assessing Global Water Storage Variability from GRACE: Trends, Seasonal Cycle, Subseasonal Anomalies and Extremes , 2016, Surveys in Geophysics.

[44]  Anne Springer,et al.  Does GRACE see the terrestrial water cycle “intensifying”? , 2016 .

[45]  William M. Alley,et al.  Bringing GRACE Down to Earth , 2015, Ground water.

[46]  Annette Eicker,et al.  Satellites provide the big picture , 2015, Science.

[47]  S. Swenson,et al.  Quantifying renewable groundwater stress with GRACE , 2015, Water resources research.

[48]  M. Watkins,et al.  Improved methods for observing Earth's time variable mass distribution with GRACE using spherical cap mascons , 2015 .

[49]  Yang Hong,et al.  Drought and flood monitoring for a large karst plateau in Southwest China using extended GRACE data , 2014 .

[50]  J. Famiglietti The global groundwater crisis , 2014 .

[51]  Brian F. Thomas,et al.  River basin flood potential inferred using GRACE gravity observations at several months lead time , 2014 .

[52]  P. Döll,et al.  Global‐scale assessment of groundwater depletion and related groundwater abstractions: Combining hydrological modeling with information from well observations and GRACE satellites , 2014 .

[53]  Brian C. Gunter,et al.  Data assimilation of GRACE terrestrial water storage estimates into a regional hydrological model of the Rhine River basin , 2014 .

[54]  J. Famiglietti,et al.  A GRACE‐based water storage deficit approach for hydrological drought characterization , 2014 .

[55]  R. A. Manley,et al.  The Policy Delphi: A Method for Identifying Intended and Unintended Consequences of Educational Policy , 2013 .

[56]  M. Rodell,et al.  Water in the Balance , 2013, Science.

[57]  Nico Sneeuw,et al.  Analysis of GRACE uncertainties by hydrological and hydro-meteorological observations , 2012 .

[58]  R. Houborg,et al.  Drought indicators based on model‐assimilated Gravity Recovery and Climate Experiment (GRACE) terrestrial water storage observations , 2012 .

[59]  M. Bierkens,et al.  Nonsustainable groundwater sustaining irrigation: A global assessment , 2012 .

[60]  F. Landerer,et al.  Accuracy of scaled GRACE terrestrial water storage estimates , 2012 .

[61]  S. Swenson,et al.  Satellites measure recent rates of groundwater depletion in California's Central Valley , 2011 .

[62]  B. Scanlon,et al.  GRACE Hydrological estimates for small basins: Evaluating processing approaches on the High Plains Aquifer, USA , 2010 .

[63]  P. Döll,et al.  Groundwater use for irrigation - a global inventory , 2010 .

[64]  Patricia Gober,et al.  Credibility, salience, and legitimacy of boundary objects: water managers' assessment of a simulation model in an immersive decision theater , 2010 .

[65]  E. Ostrom A General Framework for Analyzing Sustainability of Social-Ecological Systems , 2009, Science.

[66]  Elizabeth A. Corley,et al.  Water Managers' Perceptions of the Science–Policy Interface in Phoenix, Arizona: Implications for an Emerging Boundary Organization , 2008 .

[67]  J. Famiglietti,et al.  Estimating groundwater storage changes in the Mississippi River basin (USA) using GRACE , 2007 .

[68]  S. Swenson,et al.  Remote sensing of groundwater storage changes in Illinois using the Gravity Recovery and Climate Experiment (GRACE) , 2006 .

[69]  M. Watkins,et al.  GRACE Measurements of Mass Variability in the Earth System , 2004, Science.

[70]  David W. Cash,et al.  Knowledge systems for sustainable development , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[71]  A. Dobermann,et al.  Agroecosystems, Nitrogen-use Efficiency, and Nitrogen Management , 2002, Ambio.

[72]  Mary Kay Rayens,et al.  Building Consensus Using the Policy Delphi Method , 2000 .

[73]  F. Hasson,et al.  Research guidelines for the Delphi survey technique. , 2000, Journal of advanced nursing.

[74]  Anne M. Williams,et al.  Applying the Delphi technique in a study of GPs' information requirements. , 1999, Health & social care in the community.

[75]  David H. Guston,et al.  Stabilizing the Boundary between US Politics and Science: , 1999, Social studies of science.

[76]  L. F. Moore,et al.  Using Delphi to achieve congruent objectives and activities in a pediatrics department. , 1979, Journal of medical education.

[77]  Joseph L. Awange,et al.  Efficient basin scale filtering of GRACE satellite products , 2018 .

[78]  Murray Turoff,et al.  The design of a policy Delphi , 1970 .