Uncertainty of reference pixel soil moisture averages sampled at SMAP core validation sites

Fan Chen; W.T Crow; M.H. Cosh; A. Colliander; J. Asanuma; A. Berg; D.D. Bosch; Todd Caldwell; C. Holifield-Collins; J. Martinez-Fernandez; H. McNairn; P.J. Starks; Z. Su; J.P. Walker

doi:10.1175/JHM-D-19-0049.1

Uncertainty of reference pixel soil moisture averages sampled at SMAP core validation sites

Journal of Hydrometeorology

By: Fan Chen, W.T Crow, M.H. Cosh, A. Colliander, J. Asanuma, A. Berg, D.D. Bosch, Todd Caldwell, C. Holifield-Collins, J. Martinez-Fernandez, H. McNairn, P.J. Starks, Z. Su, and J.P. Walker

https://doi.org/10.1175/JHM-D-19-0049.1

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Abstract

Despite extensive efforts to maximize ground coverage and improve upscaling functions within core validation sites (CVS) of the NASA Soil Moisture Active/Passive (SMAP) mission, spatial averages of point-scale soil moisture observations often fail to accurately capture the true average of the reference pixels. Therefore, some level of pixel-scale sampling error from in situ observations must be considered during the validation of SMAP soil moisture retrievals. Here, uncertainties in the SMAP core site average soil moisture (CSASM) due to spatial sampling errors are examined and their impact on CSASM-based SMAP calibration and validation metrics is discussed. The estimated uncertainty (due to spatial sampling limitations) of mean CSASM over time is found to be large, translating into relatively large sampling uncertainty levels for SMAP retrieval bias when calculated against CSASM. As a result, CSASM-based SMAP bias estimates are statistically insignificant at nearly all SMAP CVS. In addition, observations from temporary networks suggest that these (already large) bias uncertainties may be underestimated due to under-sampled spatial variability. The unbiased root-mean-square error (ubRMSE) of CSASM is estimated via two approaches: classical sampling theory and triple collocation, both of which suggest that CSASM ubRMSE is generally within the range 0.01 to 0.02 m3/m3. Although limitations in both methods likely lead to underestimation of ubRMSE, the results suggest that CSASM captures the temporal dynamics of the footprint-scale soil moisture relatively well and is thus a reliable reference for SMAP ubRMSE calculations. Therefore, spatial sampling errors are revealed to have very different impacts on efforts to estimate SMAP bias and ubRMSE metrics using CVS data.

Suggested Citation

Chen, F., Crow, W., Cosh, M., Colliander, A., Asanuma, J., Berg, A., Bosch, D., Caldwell, T., Holifield-Collins, C., Martinez-Fernandez, J., McNairn, H., Starks, P., Su, Z., Walker, J., 2019, Uncertainty of reference pixel soil moisture averages sampled at SMAP core validation sites: Journal of Hydrometeorology, v. 20, no. 8, p. 1553-1569, https://doi.org/10.1175/JHM-D-19-0049.1.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Uncertainty of reference pixel soil moisture averages sampled at SMAP core validation sites
Series title	Journal of Hydrometeorology
DOI	10.1175/JHM-D-19-0049.1
Volume	20
Issue	8
Publication Date	July 29, 2019
Year Published	2019
Language	English
Publisher	American Meteorological Soceity
Contributing office(s)	Nevada Water Science Center
Description	17 p.
First page	1553
Last page	1569