A global near-real-time soil moisture index monitor for food security using integrated SMOS and SMAP
A global near-real-time soil moisture index monitor for food security using integrated SMOS and SMAP
Soil Moisture (SM) is a direct measure of agricultural drought. While there are several global SM indices, none of them directly use SM observations in a near-real-time capacity and as an operational tool. This paper presents a near-real-time global SM index monitor based on integrated SMAP (Soil Moisture Active Passive) and SMOS (Soil Moisture and Ocean Salinity) remote sensing data. We make use of the short period (2015–2018) of SMAP datasets in combination with two approaches—Cumulative Distribution Function Mapping (CDFM) and Bayesian conditional process—and integrate them with SMOS data in a way that SMOS data is consistent with SMAP. The integrated SMOS and SMAP (SMOS/SMAP) has an increased global revisit frequency and a period of record from 2010 to the present. A four-parameter Beta distribution was fitted to the SMOS/SMAP dataset for each calendar month of each grid cell at ~36 km resolution for the period from 2010 to 2018. We used an asymptotic method that guarantees the values of the bounding parameters of the Beta distribution will envelop both the smallest and largest observed values. The Kolmogorov-Smirnov (KS) test showed that more grids globally will pass if the integrated dataset is from the Bayesian conditional approach. A daily global SM index map is generated and posted online based on translating each grid's integrated SM value for that day to a corresponding probability percentile relevant to the particular calendar month from 2010 to 2018. For validation, we use the Canadian Prairies Ecozone (CPE). We compare the integrated SM with the SMAP core validation and RISMA sites from ISMN, compare our indices with other models (VIC, ESA's CCI SM v04.4 integrated satellite data, and SPI-1), and make a two-by-two comparison of candidate indices using heat maps and summary CDF statistics. Furthermore, we visually compare our global SM-based index maps with those produced by other organizations. Our Global SM Index Monitor (GSMIM) performed, in many tests, similarly to the CCI's product SM index but with the advantage of being a near-real-time tool, which has applications for identifying evolving drought for food security conditions, insurance, policymaking, and crop planning especially for the remote parts of the globe.
Bayesian conditional process, Beta distribution, Canadian prairies, Cumulative distribution function mapping, Data integration, ESA's CCI SM, Global, Near-real-time, Remote sensing, SMAP, SMOS, Soil moisture, VIC
Sadri, Sara
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Pan, Ming
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Wada, Yoshihide
682ed230-5586-496a-b105-ee06ac3d6a8b
Vergopolan, Noemi
3c455209-3f04-4ef3-9687-d637239ec4b4
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Famiglietti, James S.
63a42c65-8cd8-4d31-9eee-fecfc6f1fb03
Kerr, Yann
937fcc90-4f41-4403-b24d-4ca9106457ec
Wood, Eric
8352c1b4-4fd3-42fe-bd23-46619024f1cf
1 September 2020
Sadri, Sara
11bee5cb-2584-4f1d-a4af-127a311f26c3
Pan, Ming
5f0a6106-cf97-4213-b345-6b220f3d9bc4
Wada, Yoshihide
682ed230-5586-496a-b105-ee06ac3d6a8b
Vergopolan, Noemi
3c455209-3f04-4ef3-9687-d637239ec4b4
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Famiglietti, James S.
63a42c65-8cd8-4d31-9eee-fecfc6f1fb03
Kerr, Yann
937fcc90-4f41-4403-b24d-4ca9106457ec
Wood, Eric
8352c1b4-4fd3-42fe-bd23-46619024f1cf
Sadri, Sara, Pan, Ming, Wada, Yoshihide, Vergopolan, Noemi, Sheffield, Justin, Famiglietti, James S., Kerr, Yann and Wood, Eric
(2020)
A global near-real-time soil moisture index monitor for food security using integrated SMOS and SMAP.
Remote Sensing of Environment, 246, [111864].
(doi:10.1016/j.rse.2020.111864).
Abstract
Soil Moisture (SM) is a direct measure of agricultural drought. While there are several global SM indices, none of them directly use SM observations in a near-real-time capacity and as an operational tool. This paper presents a near-real-time global SM index monitor based on integrated SMAP (Soil Moisture Active Passive) and SMOS (Soil Moisture and Ocean Salinity) remote sensing data. We make use of the short period (2015–2018) of SMAP datasets in combination with two approaches—Cumulative Distribution Function Mapping (CDFM) and Bayesian conditional process—and integrate them with SMOS data in a way that SMOS data is consistent with SMAP. The integrated SMOS and SMAP (SMOS/SMAP) has an increased global revisit frequency and a period of record from 2010 to the present. A four-parameter Beta distribution was fitted to the SMOS/SMAP dataset for each calendar month of each grid cell at ~36 km resolution for the period from 2010 to 2018. We used an asymptotic method that guarantees the values of the bounding parameters of the Beta distribution will envelop both the smallest and largest observed values. The Kolmogorov-Smirnov (KS) test showed that more grids globally will pass if the integrated dataset is from the Bayesian conditional approach. A daily global SM index map is generated and posted online based on translating each grid's integrated SM value for that day to a corresponding probability percentile relevant to the particular calendar month from 2010 to 2018. For validation, we use the Canadian Prairies Ecozone (CPE). We compare the integrated SM with the SMAP core validation and RISMA sites from ISMN, compare our indices with other models (VIC, ESA's CCI SM v04.4 integrated satellite data, and SPI-1), and make a two-by-two comparison of candidate indices using heat maps and summary CDF statistics. Furthermore, we visually compare our global SM-based index maps with those produced by other organizations. Our Global SM Index Monitor (GSMIM) performed, in many tests, similarly to the CCI's product SM index but with the advantage of being a near-real-time tool, which has applications for identifying evolving drought for food security conditions, insurance, policymaking, and crop planning especially for the remote parts of the globe.
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More information
Accepted/In Press date: 3 May 2020
e-pub ahead of print date: 22 May 2020
Published date: 1 September 2020
Additional Information:
Funding Information:
This work was supported by NASA Soil Moisture Cal/Val Activities as a SMAP Mission Science Team Member (grant number NNX14AH92G ).
Publisher Copyright:
© 2020 Elsevier Inc.
Keywords:
Bayesian conditional process, Beta distribution, Canadian prairies, Cumulative distribution function mapping, Data integration, ESA's CCI SM, Global, Near-real-time, Remote sensing, SMAP, SMOS, Soil moisture, VIC
Identifiers
Local EPrints ID: 475247
URI: http://eprints.soton.ac.uk/id/eprint/475247
ISSN: 0034-4257
PURE UUID: b4ad88b1-a6f9-4eab-b7a5-af81d8cbaaa4
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Date deposited: 14 Mar 2023 17:48
Last modified: 18 Mar 2024 03:33
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Contributors
Author:
Sara Sadri
Author:
Ming Pan
Author:
Yoshihide Wada
Author:
Noemi Vergopolan
Author:
James S. Famiglietti
Author:
Yann Kerr
Author:
Eric Wood
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