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Continental-scale water and energy flux analysis and validation for North American Land Data Assimilation System project phase 2 (NLDAS-2): 2. Validation of model-simulated streamflow

Continental-scale water and energy flux analysis and validation for North American Land Data Assimilation System project phase 2 (NLDAS-2): 2. Validation of model-simulated streamflow
Continental-scale water and energy flux analysis and validation for North American Land Data Assimilation System project phase 2 (NLDAS-2): 2. Validation of model-simulated streamflow

This is the second part of a study on continental-scale water and energy flux analysis and validation conducted in phase 2 of the North American Land Data Assimilation System project (NLDAS-2). The first part concentrates on a model-by-model comparison of mean annual and monthly water fluxes, energy fluxes and state variables. In this second part, the focus is on the validation of simulated streamflow from four land surface models (Noah, Mosaic, Sacramento Soil Moisture Accounting (SAC-SMA), and Variable Infiltration Capacity (VIC) models) and their ensemble mean. Comparisons are made against 28-years (1 October 1979-30 September 2007) of United States Geological Survey observed streamflow for 961 small basins and 8 major basins over the conterminous United States (CONUS). Relative bias, anomaly correlation and Nash-Sutcliffe Efficiency (NSE) statistics at daily to annual time scales are used to assess model-simulated streamflow. The Noah (the Mosaic) model overestimates (underestimates) mean annual runoff and underestimates (overestimates) mean annual evapotranspiration. The SAC-SMA and VIC models simulate the mean annual runoff and evapotranspiration well when compared with the observations. The ensemble mean is closer to the mean annual observed streamflow for both the 961 small basins and the 8 major basins than is the mean from any individual model. All of the models, as well as the ensemble mean, have large daily, weekly, monthly, and annual streamflow anomaly correlations for most basins over the CONUS, implying strong simulation skill. However, the daily, weekly, and monthly NSE analysis results are not necessarily encouraging, in particular for daily streamflow. The Noah and Mosaic models are useful (NSE > 0.4) only for about 10% of the 961 small basins, the SAC-SMA and VIC models are useful for about 30% of the 961 small basins, and the ensemble mean is useful for about 42% of the 961 small basins. As the time scale increases, the NSE increases as expected. However, even for monthly streamflow, the ensemble mean is useful for only 75% of the 961 small basins.

0148-0227
Xia, Youlong
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Mitchell, Kenneth
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Ek, Michael
ce2724ad-0b64-4802-85c5-ad556f31b1e8
Cosgrove, Brian
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Sheffield, Justin
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Luo, Lifeng
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Alonge, Charles
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Wei, Helin
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Meng, Jesse
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Livneh, Ben
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Duan, Qingyun
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Lohmann, Dag
f8974c4b-bc29-499f-8270-9adf64cd0afe
Xia, Youlong
dd51d092-f162-4643-adf3-f1b48f1a53af
Mitchell, Kenneth
91d961dc-4337-4c48-aace-74ebe14f1e2b
Ek, Michael
ce2724ad-0b64-4802-85c5-ad556f31b1e8
Cosgrove, Brian
04c1e698-3d7c-412a-8d15-1fe35635e687
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Luo, Lifeng
e9b25aa8-e877-45a6-bdca-53aba9bbde84
Alonge, Charles
2d6748f2-68eb-4df2-81d3-c43f7cd2a1fb
Wei, Helin
f58a4ae7-b03c-4a7c-8bbc-c167aa889cf3
Meng, Jesse
0378e245-14cf-45d8-b8b2-e35693fa8ff7
Livneh, Ben
80386ab5-130b-448c-9f73-2a00921c4487
Duan, Qingyun
b75b3e1f-c6c8-4062-bc33-e1d10a87f25b
Lohmann, Dag
f8974c4b-bc29-499f-8270-9adf64cd0afe

Xia, Youlong, Mitchell, Kenneth, Ek, Michael, Cosgrove, Brian, Sheffield, Justin, Luo, Lifeng, Alonge, Charles, Wei, Helin, Meng, Jesse, Livneh, Ben, Duan, Qingyun and Lohmann, Dag (2012) Continental-scale water and energy flux analysis and validation for North American Land Data Assimilation System project phase 2 (NLDAS-2): 2. Validation of model-simulated streamflow. Journal of Geophysical Research Atmospheres, 117 (3), [D03110]. (doi:10.1029/2011JD016051).

Record type: Article

Abstract

This is the second part of a study on continental-scale water and energy flux analysis and validation conducted in phase 2 of the North American Land Data Assimilation System project (NLDAS-2). The first part concentrates on a model-by-model comparison of mean annual and monthly water fluxes, energy fluxes and state variables. In this second part, the focus is on the validation of simulated streamflow from four land surface models (Noah, Mosaic, Sacramento Soil Moisture Accounting (SAC-SMA), and Variable Infiltration Capacity (VIC) models) and their ensemble mean. Comparisons are made against 28-years (1 October 1979-30 September 2007) of United States Geological Survey observed streamflow for 961 small basins and 8 major basins over the conterminous United States (CONUS). Relative bias, anomaly correlation and Nash-Sutcliffe Efficiency (NSE) statistics at daily to annual time scales are used to assess model-simulated streamflow. The Noah (the Mosaic) model overestimates (underestimates) mean annual runoff and underestimates (overestimates) mean annual evapotranspiration. The SAC-SMA and VIC models simulate the mean annual runoff and evapotranspiration well when compared with the observations. The ensemble mean is closer to the mean annual observed streamflow for both the 961 small basins and the 8 major basins than is the mean from any individual model. All of the models, as well as the ensemble mean, have large daily, weekly, monthly, and annual streamflow anomaly correlations for most basins over the CONUS, implying strong simulation skill. However, the daily, weekly, and monthly NSE analysis results are not necessarily encouraging, in particular for daily streamflow. The Noah and Mosaic models are useful (NSE > 0.4) only for about 10% of the 961 small basins, the SAC-SMA and VIC models are useful for about 30% of the 961 small basins, and the ensemble mean is useful for about 42% of the 961 small basins. As the time scale increases, the NSE increases as expected. However, even for monthly streamflow, the ensemble mean is useful for only 75% of the 961 small basins.

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Published date: 3 February 2012
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Identifiers

Local EPrints ID: 480748
URI: http://eprints.soton.ac.uk/id/eprint/480748
DOI: doi:10.1029/2011JD016051
ISSN: 0148-0227
PURE UUID: 5a5d08a7-2570-4c3f-8b95-37ab7a26eaed
ORCID for Justin Sheffield: ORCID iD orcid.org/0000-0003-2400-0630

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Date deposited: 09 Aug 2023 17:08
Last modified: 17 Mar 2024 03:40

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Contributors

Author: Youlong Xia
Author: Kenneth Mitchell
Author: Michael Ek
Author: Brian Cosgrove
Author: Justin Sheffield ORCID iD
Author: Lifeng Luo
Author: Charles Alonge
Author: Helin Wei
Author: Jesse Meng
Author: Ben Livneh
Author: Qingyun Duan
Author: Dag Lohmann

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