¡Nos trasladamos! E-Prints cerrará el 7 de junio.

En las próximas semanas vamos a migrar nuestro repositorio a una nueva plataforma con muchas funcionalidades nuevas. En esta migración las fechas clave del proceso son las siguientes:

7 de junio: congelación de E-Prints. A partir de este momento, no se podrá hacer ningún depósito ni cambio, modificación o edición.
12 al 30 de junio: migración de E-Prints a Docta Complutense, comprobación y visto bueno de la migración
3 de julio: entrada en producción de Docta Complutense

Es muy importante que cualquier depósito se realice en E-Prints Complutense antes del 7 de junio. En caso de urgencia para realizar un depósito, se puede comunicar a docta@ucm.es.

Spanish | Contactar

Statistical-observational analysis of skillful oceanic predictors of heavy daily precipitation events in the Sahel

Impacto

Downloads

Downloads per month over past year

View download statistics for this eprint

Altmetric

>> Ir a Scopus

Buscar en Google Scholar™

Diakhaté, Moussa and Suárez Moreno, Roberto and Gómara Cardalliaguet, Íñigo and Mohino Harris, Elsa (2020) Statistical-observational analysis of skillful oceanic predictors of heavy daily precipitation events in the Sahel. Atmosphere, 11 (6). ISSN 2073-4433

[thumbnail of MohínoHarris 14 libre+CC.pdf]

Preview

PDF
Creative Commons Attribution.
4MB

Official URL: http://dx.doi.org/10.3390/atmos11060584

Publisher

==>>> Export to other formats

Abstract

In this paper, the sea surface temperature (SST) based statistical seasonal forecast model (S4CAST) is utilized to examine the spatial and temporal prediction skill of Sahel heavy and extreme daily precipitation events. As in previous studies, S4CAST points out the Mediterranean Sea and El Niño Southern Oscillation (ENSO) as the main drivers of Sahel heavy/extreme daily rainfall variability at interannual timescales (period 1982–2015). Overall, the Mediterranean Sea emerges as a seasonal short-term predictor of heavy daily rainfall (1 month in advance), while ENSO returns a longer forecast window (up to 3 months in advance). Regarding the spatial skill, the response of heavy daily rainfall to the Mediterranean SST forcing is significant over a widespread area of the Sahel. Contrastingly, with the ENSO forcing, the response is only significant over the southernmost Sahel area. These differences can be attributed to the distinct physical mechanisms mediating the analyzed SST-rainfall teleconnections. This paper provides fundamental elements to develop an operational statistical-seasonal forecasting system of Sahel heavy and extreme daily precipitation events.

Item Type:	Article
Additional Information:	© 2020 by the authors. We are indebted to the Climate Hazards Group for providing the InfraRed Precipitation with Station data (CHIRPS; http://chg.geog.ucsb.edu/data/chirps/) the Met-Office Hadley Centre for the Sea Ice and Sea Surface Temperature dataset (HadISST; https://www.metoffice.gov.uk/hadobs/hadisst/) and the European Centre for Medium-Range Weather Forecasts for the ERA-Interim reanalysis (https://www.ecmwf.int/en/forecasts/ datasets/reanalysis-datasets/era-interim). We also thank the two anonymous reviewers, whose pertinent comments and suggestions have contributed to improve this manuscript. This research work was funded by the NERC/DFID Future Climate for Africa programme under the AMMA-2050 project, Grant NE/M020428/1, the EU H2020 project TRIATLAS (no. 817578) and the Spanish Ministry of Economy and Competitiveness (MINECO) project PRE4CAST (CGL2017-86415-R). Roberto Suárez-Moreno was supported by NSF award AGS-1734 760.
Uncontrolled Keywords:	West-African monsoon; Sea-surface temperature; Interannual variability; Extended reconstruction; Equatorial Atlantic; Tropical Pacific; Rainfall; SST; Impact; Biases
Subjects:	Sciences > Physics > Atmospheric physics
ID Code:	62139
Deposited On:	23 Sep 2020 09:40
Last Modified:	14 Jan 2022 12:25

Origin of downloads

Repository Staff Only: item control page