Assimilation of Remote Sensing Data into Earth System Models

Assimilation of Remote Sensing Data into Earth System Models

In the Earth sciences, a transition is currently occurring in multiple fields towards an integrated Earth system approach, with applications including numerical weather prediction, hydrological forecasting, climate impact studies, ocean dynamics estimation and monitoring, and carbon cycle monitoring...

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Bibliographic Details
Main Author: Calvet, Jean-Christophe (auth)
Other Authors: De Rosnay, Patricia (auth), Penny, Stephen G. (auth)
Format: Book Chapter
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
land data assimilation system
land data assimilation
rainfall-runoff simulation
4D-Var data assimilation
total water storage
accuracy
ocean-atmosphere assimilation
precipitation
Earth system models
numerical weather prediction
fluorescence
GRACE
MCA analysis
weakly coupled data assimilation
GPM IMERG
atmospheric models
rainfall correction
remote sensing
microwave remote sensing
SMAP
land surface modeling
bending angle
floods soil moisture
vegetation
GPSRO
WRF
merged CMORPH
land surface model
temperature
4D-Var
data assimilation
data-driven methods
GSI
radio occultation data
rainfall
soil moisture
sea level anomaly
total cloud cover
land surface models
Mediterranean basin
interpolation
sea surface height
drought
TRMM 3B42
analog data assimilation
ocean models
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Summary:In the Earth sciences, a transition is currently occurring in multiple fields towards an integrated Earth system approach, with applications including numerical weather prediction, hydrological forecasting, climate impact studies, ocean dynamics estimation and monitoring, and carbon cycle monitoring. These approaches rely on coupled modeling techniques using Earth system models that account for an increased level of complexity of the processes and interactions between atmosphere, ocean, sea ice, and terrestrial surfaces. A crucial component of Earth system approaches is the development of coupled data assimilation of satellite observations to ensure consistent initialization at the interface between the different subsystems. Going towards strongly coupled data assimilation involving all Earth system components is a subject of active research. A lot of progress is being made in the ocean-atmosphere domain, but also over land. As atmospheric models now tend to address subkilometric scales, assimilating high spatial resolution satellite data in the land surface models used in atmospheric models is critical. This evolution is also challenging for hydrological modeling. This book gathers papers reporting research on various aspects of coupled data assimilation in Earth system models. It includes contributions presenting recent progress in ocean-atmosphere, land-atmosphere, and soil-vegetation data assimilation.
Physical Description:1 electronic resource (236 p.)
ISBN:books978-3-03921-641-3
9783039216406
9783039216413
Access:Open Access

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