D. N. Wiese
2019
Contributions of GRACE to understanding climate change
B. D. Tapley,
M. M. Watkins,
Frank Flechtner,
Christoph Reigber,
Srinivas Bettadpur,
Matthew Rodell,
Ingo Sasgen,
J. S. Famiglietti,
Felix W. Landerer,
D. P. Chambers,
J. T. Reager,
Alex Gardner,
Himanshu Save,
Erik R. Ivins,
Sean Swenson,
Carmen Böening,
Christoph Dahle,
D. N. Wiese,
Henryk Dobslaw,
M. E. Tamisiea,
I. Velicogna
Nature Climate Change, Volume 9, Issue 5
Time-resolved satellite gravimetry has revolutionized understanding of mass transport in the Earth system. Since 2002, the Gravity Recovery and Climate Experiment (GRACE) has enabled monitoring of the terrestrial water cycle, ice sheet and glacier mass balance, sea level change and ocean bottom pressure variations and understanding responses to changes in the global climate system. Initially a pioneering experiment of geodesy, the time-variable observations have matured into reliable mass transport products, allowing assessment and forecast of a number of important climate trends and improve service applications such as the U.S. Drought Monitor. With the successful launch of the GRACE Follow-On mission, a multi decadal record of mass variability in the Earth system is within reach.
2018
Emerging trends in global freshwater availability
Matthew Rodell,
J. S. Famiglietti,
D. N. Wiese,
J. T. Reager,
H. K. Beaudoing,
Felix W. Landerer,
Min‐Hui Lo
Nature, Volume 557, Issue 7707
Freshwater availability is changing worldwide. Here we quantify 34 trends in terrestrial water storage observed by the Gravity Recovery and Climate Experiment (GRACE) satellites during 2002-2016 and categorize their drivers as natural interannual variability, unsustainable groundwater consumption, climate change or combinations thereof. Several of these trends had been lacking thorough investigation and attribution, including massive changes in northwestern China and the Okavango Delta. Others are consistent with climate model predictions. This observation-based assessment of how the world's water landscape is responding to human impacts and climate variations provides a blueprint for evaluating and predicting emerging threats to water and food security.
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Co-authors
- Matthew Rodell 2
- J. S. Famiglietti 2
- J. T. Reager 2
- Felix W. Landerer 2
- H. K. Beaudoing 1
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