Version 4 of the SMAP Level-4 Soil Moisture Algorithm and Data Product

The NASA Soil Moisture Active Passive (SMAP) mission Level-4 Soil Moisture (L4_SM) product provides global, 3-hourly, 9-km resolution estimates of surface (0-5 cm) and root-zone (0-100 cm) soil moisture with a mean latency of ~2.5 days. The underlying L4_SM algorithm assimilates SMAP radiometer brig...

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Bibliographic Details
Published in:	Journal of advances in modeling earth systems Vol. 11; no. 10; pp. 3106 - 3130
Main Authors:	Reichle, Rolf H, Liu, Qing, Koster, Randal D, Crow, Wade T, Lannoy, Gabrielle J M De, Kimball, John S, Ardizzone, Joseph V, Bosch, David, Colliander, Andreas, Cosh, Michael, Kolassa, Jana, Mahanama, Sarith P, Prueger, John, Starks, Patrick, Walker, Jeffrey P, McNairn, Heather
Format:	Journal Article
Language:	English
Published:	Goddard Space Flight Center American Geophysical Union 01-10-2019 John Wiley & Sons, Inc American Geophysical Union (AGU)
Subjects:	Algorithms Bias Brightness temperature Calibration Catchment area Catchment land surface model Climate Data assimilation Earth Resources And Remote Sensing Estimates In situ measurement Kalman filters Land surface models L‐band passive microwave Precipitation Radiometers Root zone Runoff Soil Soil analysis Soil moisture Soil Moisture Active Passive Soil surfaces Stream discharge Stream flow Streamflow measurements Surface radiation temperature Surface runoff Uncertainty Rmse
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Summary:	The NASA Soil Moisture Active Passive (SMAP) mission Level-4 Soil Moisture (L4_SM) product provides global, 3-hourly, 9-km resolution estimates of surface (0-5 cm) and root-zone (0-100 cm) soil moisture with a mean latency of ~2.5 days. The underlying L4_SM algorithm assimilates SMAP radiometer brightness temperature (Tb) observations into the NASA Catchment land surface model using a spatially-distributed ensemble Kalman filter. Version 4 of the L4_SM modeling system includes a reduction in the upward recharge of surface soil moisture from below under non-equilibrium conditions, resulting in reduced bias and improved dynamic range of L4_SM surface soil moisture compared to earlier versions. This change and additional technical modifications to the system reduce the mean and standard deviation of the observation-minus-forecast Tb residuals and overall soil moisture analysis increments while maintaining the skill of the L4_SM soil moisture estimates versus independent in situ measurements; the average, bias-adjusted RMSE in Version 4 is 0.039 m(exp 3) m(exp -3) for surface and 0.026 m(exp 3) m(exp -3) for root-zone soil moisture. Moreover, the coverage of assimilated SMAP observations in Version 4 is near-global owing to the use of additional satellite Tb records for algorithm calibration. L4_SM soil moisture uncertainty estimates are biased low (by 0.01-0.02 m(exp 3) m(exp -3)) against actual errors (computed versus in situ measurements). L4_SM runoff estimates, an additional product of the L4_SM algorithm, are biased low (by 35 mm year (exp -1)) against streamflow measurements. Compared to Version 3, bias in Version 4 is reduced by 46% for surface soil moisture uncertainty estimates and by 33% for runoff estimates.
Bibliography:	GSFC GSFC-E-DAA-TN73170 Goddard Space Flight Center
ISSN:	1942-2466 1942-2466
DOI:	10.1029/2019MS001729