A seamless assessment of the role of convection in the water cycle of the West African Monsoon

A seamless assessment of the role of convection in the water cycle of the West African Monsoon

A suite of 40 day UK Met Office Unified Model simulations over West Africa during summer 2006 are analyzed to investigate the causes of biases in the position of the rainbelt and to understand the role of convection in the regional water budget. The simulations include climate, global operational, a...

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Veröffentlicht in:Journal of geophysical research. Atmospheres 2014-03, Vol.119 (6), p.2890-2912
Hauptverfasser: Birch, C. E., Parker, D. J., Marsham, J. H., Copsey, D., Garcia-Carreras, L.
Format: Artikel
Sprache:eng
Schlagworte:
Advection
AMMA
Computer simulation
Convection
Errors
Geophysics
Hydrologic cycle
Moisture
Moisture availability
monsoon
Monsoons
parameterisation
Rainfall
Representations
Simulation
Water budget
water cycle
West Africa
Wind
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container_end_page 2912
container_issue 6
container_start_page 2890
container_title Journal of geophysical research. Atmospheres
container_volume 119
creator Birch, C. E.
Parker, D. J.
Marsham, J. H.
Copsey, D.
Garcia-Carreras, L.
description A suite of 40 day UK Met Office Unified Model simulations over West Africa during summer 2006 are analyzed to investigate the causes of biases in the position of the rainbelt and to understand the role of convection in the regional water budget. The simulations include climate, global operational, and limited area runs (grid spacings from 1.5 to 40 km), including two 12 km runs, one with parameterized and one with explicit convection. The most significant errors in the water cycle terms occur in the simulations with parameterized convection, associated with the diurnal cycle and the location of the convection. Errors in the diurnal cycle increase the northward advection of moisture out of the Sahel toward the Sahara but decrease the advection of moisture into the Sahel from further south, which limits the availability of moisture for Sahelian rainfall. These biases occur within the first 24 h, showing that they originate from the representation of fast physical processes, specifically, the convection scheme. Once these rainfall regimes have been established, the terms of the water budgets act to reinforce the biases, effectively locking the rainbelt's latitude. One of the simulations with parameterized convection does, however, produce a better latitudinal distribution of rainfall because on the first day it is better able to trigger convection in the Sahel. Accurate representation of the diurnal cycle of convection and the ability to trigger convection in a high convective inhibition environment is key to capturing the water cycle of the region and will improve the representation of the West African Monsoon. Key Points Simulations are used to understand the West African water cycle Errors in the convection feedback on the circulation and water cycle Improving the diurnal cycle of convection will improve the monsoon
doi_str_mv 10.1002/2013JD020887
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Errors in the diurnal cycle increase the northward advection of moisture out of the Sahel toward the Sahara but decrease the advection of moisture into the Sahel from further south, which limits the availability of moisture for Sahelian rainfall. These biases occur within the first 24 h, showing that they originate from the representation of fast physical processes, specifically, the convection scheme. Once these rainfall regimes have been established, the terms of the water budgets act to reinforce the biases, effectively locking the rainbelt's latitude. One of the simulations with parameterized convection does, however, produce a better latitudinal distribution of rainfall because on the first day it is better able to trigger convection in the Sahel. 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subjects Advection
AMMA
Computer simulation
Convection
Errors
Geophysics
Hydrologic cycle
Moisture
Moisture availability
monsoon
Monsoons
parameterisation
Rainfall
Representations
Simulation
Water budget
water cycle
West Africa
Wind
title A seamless assessment of the role of convection in the water cycle of the West African Monsoon
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