Seasonal soil moisture drought prediction over Europe using the North American Multi-Model Ensemble (NMME)
Seasonal soil moisture drought prediction over Europe using the North American Multi-Model Ensemble (NMME)
Droughts diminish crop yields and can lead to severe socioeconomic damages and humanitarian crises (e.g., famine). Hydrologic predictions of soil moisture droughts several months in advance are needed to mitigate the impact of these extreme events. In this study, the performance of a seasonal hydrologic prediction system for soil moisture drought forecasting over Europe is investigated. The prediction system is based on meteorological forecasts of the North American Multi-Model Ensemble (NMME) that are used to drive the mesoscale hydrologic model (mHM). The skill of the NMME-based forecasts is compared against those based on the ensemble streamflow prediction (ESP) approach for the hindcast period of 1983-2009. The NMME-based forecasts exhibit an equitable threat score that is, on average, 69% higher than the ESP-based ones at 6-month lead time. Among the NMME-based forecasts, the full ensemble outperforms the single best-performing model CFSv2, as well as all subensembles. Subensembles, however, could be useful for operational forecasting because they are showing only minor performance losses (less than 1%), but at substantially reduced computational costs (up to 60%). Regardless of the employed forecasting approach, there is considerable variability in the forecasting skill ranging up to 40% in space and time. High skill is observed when forecasts are mainly determined by initial hydrologic conditions. In general, the NMME-based seasonal forecasting system is well suited for a seamless drought prediction system as it outperforms ESP-based forecasts consistently over the entire study domain at all lead times.
2329-2344
Thober, Stephan
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Kumar, Rohini
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Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Mai, Juliane
454250d0-f77a-4904-85e2-a8fe62c87d95
Schäfer, David
073af929-eddb-4d05-8222-9a3e27272857
Samaniego, Luis
c1966ab3-ef68-4490-ba2a-0eaa85267365
2015
Thober, Stephan
9f97d904-8cf8-4555-b836-e213013cdabb
Kumar, Rohini
b0ac1bbd-dfd8-4dcc-8bd5-6ffe11519b1a
Sheffield, Justin
dd66575b-a4dc-4190-ad95-df2d6aaaaa6b
Mai, Juliane
454250d0-f77a-4904-85e2-a8fe62c87d95
Schäfer, David
073af929-eddb-4d05-8222-9a3e27272857
Samaniego, Luis
c1966ab3-ef68-4490-ba2a-0eaa85267365
Thober, Stephan, Kumar, Rohini, Sheffield, Justin, Mai, Juliane, Schäfer, David and Samaniego, Luis
(2015)
Seasonal soil moisture drought prediction over Europe using the North American Multi-Model Ensemble (NMME).
Journal of Hydrometeorology, 16 (6), .
(doi:10.1175/JHM-D-15-0053.1).
Abstract
Droughts diminish crop yields and can lead to severe socioeconomic damages and humanitarian crises (e.g., famine). Hydrologic predictions of soil moisture droughts several months in advance are needed to mitigate the impact of these extreme events. In this study, the performance of a seasonal hydrologic prediction system for soil moisture drought forecasting over Europe is investigated. The prediction system is based on meteorological forecasts of the North American Multi-Model Ensemble (NMME) that are used to drive the mesoscale hydrologic model (mHM). The skill of the NMME-based forecasts is compared against those based on the ensemble streamflow prediction (ESP) approach for the hindcast period of 1983-2009. The NMME-based forecasts exhibit an equitable threat score that is, on average, 69% higher than the ESP-based ones at 6-month lead time. Among the NMME-based forecasts, the full ensemble outperforms the single best-performing model CFSv2, as well as all subensembles. Subensembles, however, could be useful for operational forecasting because they are showing only minor performance losses (less than 1%), but at substantially reduced computational costs (up to 60%). Regardless of the employed forecasting approach, there is considerable variability in the forecasting skill ranging up to 40% in space and time. High skill is observed when forecasts are mainly determined by initial hydrologic conditions. In general, the NMME-based seasonal forecasting system is well suited for a seamless drought prediction system as it outperforms ESP-based forecasts consistently over the entire study domain at all lead times.
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Published date: 2015
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Local EPrints ID: 480474
URI: http://eprints.soton.ac.uk/id/eprint/480474
ISSN: 1525-755X
PURE UUID: cc752f70-ac7b-46ce-afb8-1f936a9172e6
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Date deposited: 02 Aug 2023 17:14
Last modified: 17 Mar 2024 03:40
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Author:
Stephan Thober
Author:
Rohini Kumar
Author:
Juliane Mai
Author:
David Schäfer
Author:
Luis Samaniego
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