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Evaluation of multi-model simulated soil moisture in NLDAS-2

Evaluation of multi-model simulated soil moisture in NLDAS-2
Evaluation of multi-model simulated soil moisture in NLDAS-2

The North American Land Data Assimilation System (NLDAS) phase 2 (NLDAS-2) has generated 31-years (1979-2008) of water and energy products from four state-of-the-art land surface models (Noah, Mosaic, SAC, VIC). The soil moisture data from these models have been used for operational drought monitoring activities, but so far have not yet been comprehensively evaluated. In this study, three available in situ soil moisture observation data sets in the United States were used to evaluate the model-simulated soil moisture for different time scales varying from daily to annual. First, we used the observed multiple layer monthly and annual mean soil moisture from the Illinois Climate Network to evaluate 20-years (January 1985-December 2004) of model-simulated soil moisture in terms of skill and analysis of error statistics. Second, we utilized 6-years (1 January 1997-31 December 2002) of daily soil moisture observed from 72 sites over the Oklahoma Mesonet network to assess daily and monthly simulation skill and errors for 3 model soil layers (0-10. cm, 10-40. cm, 40-100. cm). Third, we extended the daily assessment to sites over the continental United States using 8-years (1 January 2002-31 December 2009) of observations for 121 sites from the Soil Climate Analysis Network (SCAN). Overall, all models are able to capture wet and dry events and show high skill (in most cases, anomaly correlation is larger than 0.7), but display large biases when compared to in situ observations. These errors may come from model errors (i.e., model structure error, model parameter error), forcing data errors, and in situ soil moisture measurement errors. For example, all models simulate less soil moisture due to lack of modeled irrigation and ground water processes in Illinois, Oklahoma, and the other Midwest states.

Land surface models, NLDAS-2, Soil moisture, U.S., Validation
0022-1694
107-125
Xia, Youlong
dd51d092-f162-4643-adf3-f1b48f1a53af
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Ek, Michael B.
ce2724ad-0b64-4802-85c5-ad556f31b1e8
Dong, Jiarui
7a9b26bd-8859-4101-b4d7-9462d8d47f6b
Chaney, Nathaniel
a4df6277-1692-4475-bf94-0a29e8b8c06e
Wei, Helin
f58a4ae7-b03c-4a7c-8bbc-c167aa889cf3
Meng, Jesse
0378e245-14cf-45d8-b8b2-e35693fa8ff7
Wood, Eric F.
ee59ebb9-367e-48ce-beab-22666be5095d
Xia, Youlong
dd51d092-f162-4643-adf3-f1b48f1a53af
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Ek, Michael B.
ce2724ad-0b64-4802-85c5-ad556f31b1e8
Dong, Jiarui
7a9b26bd-8859-4101-b4d7-9462d8d47f6b
Chaney, Nathaniel
a4df6277-1692-4475-bf94-0a29e8b8c06e
Wei, Helin
f58a4ae7-b03c-4a7c-8bbc-c167aa889cf3
Meng, Jesse
0378e245-14cf-45d8-b8b2-e35693fa8ff7
Wood, Eric F.
ee59ebb9-367e-48ce-beab-22666be5095d

Xia, Youlong, Sheffield, Justin, Ek, Michael B., Dong, Jiarui, Chaney, Nathaniel, Wei, Helin, Meng, Jesse and Wood, Eric F. (2014) Evaluation of multi-model simulated soil moisture in NLDAS-2. Journal of Hydrology, 512, 107-125. (doi:10.1016/j.jhydrol.2014.02.027).

Record type: Article

Abstract

The North American Land Data Assimilation System (NLDAS) phase 2 (NLDAS-2) has generated 31-years (1979-2008) of water and energy products from four state-of-the-art land surface models (Noah, Mosaic, SAC, VIC). The soil moisture data from these models have been used for operational drought monitoring activities, but so far have not yet been comprehensively evaluated. In this study, three available in situ soil moisture observation data sets in the United States were used to evaluate the model-simulated soil moisture for different time scales varying from daily to annual. First, we used the observed multiple layer monthly and annual mean soil moisture from the Illinois Climate Network to evaluate 20-years (January 1985-December 2004) of model-simulated soil moisture in terms of skill and analysis of error statistics. Second, we utilized 6-years (1 January 1997-31 December 2002) of daily soil moisture observed from 72 sites over the Oklahoma Mesonet network to assess daily and monthly simulation skill and errors for 3 model soil layers (0-10. cm, 10-40. cm, 40-100. cm). Third, we extended the daily assessment to sites over the continental United States using 8-years (1 January 2002-31 December 2009) of observations for 121 sites from the Soil Climate Analysis Network (SCAN). Overall, all models are able to capture wet and dry events and show high skill (in most cases, anomaly correlation is larger than 0.7), but display large biases when compared to in situ observations. These errors may come from model errors (i.e., model structure error, model parameter error), forcing data errors, and in situ soil moisture measurement errors. For example, all models simulate less soil moisture due to lack of modeled irrigation and ground water processes in Illinois, Oklahoma, and the other Midwest states.

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More information

Published date: 6 May 2014
Additional Information: Funding Information: This work by NCEP/EMC was supported by the Climate Program Project of the Americas (CPPA) of NOAA Climate Program Office (CPO) as the core project for the EMC (Y. Xia, H. Wei, J. Meng) and the Office of Hydrological Development (J. Dong). We thank the NOAA Office of Global Program and NASA Land Surface Hydrology Program for their purchase of the Oklahoma Mesonet soil moisture data for NLDAS investigators, Illinois State Water Survey for providing soil moisture observations in Illinois State, Rolf Reichle who provided us quality-controlled SCAN daily soil moisture data, Drs. Yan Luo, and Yihua Wu from EMC, Dr. Konstantine Georgakakos from Hydrologic Research Center, and two anonymous reviewers whose comments and suggestions greatly improved the quality of this paper. The authors also thank Ruolan Xu from Princeton University in assisting for VIC model simulations.
Keywords: Land surface models, NLDAS-2, Soil moisture, U.S., Validation
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Identifiers

Local EPrints ID: 480779
URI: http://eprints.soton.ac.uk/id/eprint/480779
DOI: doi:10.1016/j.jhydrol.2014.02.027
ISSN: 0022-1694
PURE UUID: 5db38d6b-0f6e-4404-80e7-7f20a36f6623
ORCID for Justin Sheffield: ORCID iD orcid.org/0000-0003-2400-0630

Catalogue record

Date deposited: 09 Aug 2023 17:13
Last modified: 18 Mar 2024 03:33

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Contributors

Author: Youlong Xia
Author: Justin Sheffield ORCID iD
Author: Michael B. Ek
Author: Jiarui Dong
Author: Nathaniel Chaney
Author: Helin Wei
Author: Jesse Meng
Author: Eric F. Wood

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