Analysis of a Short-Term and a Seasonal Precipitation Forecast over Kenya

Sara Miller,Vikalp Mishra,Ashutosh Limaye,Robert Griffin,W Lee Ellenburg,Jason Roberts,Emily Adams

doi:10.3390/atmos12111371

Sara Miller, Vikalp Mishra + Show 5 more

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https://doi.org/10.3390/atmos12111371

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Abstract

Kenya is highly dependent on precipitation for both food and water security. Farmers and pastoralists rely on rain to provide water for crops and vegetation to feed herds. As such, precipitation forecasts can be useful tools to inform decision makers and potentially allow the preparation for such events as drought. This study assessed the predictability of a seasonal forecast (CFSv2) and a short-term precipitation forecast (CHIRPS-GEFS) over Kenya. The short-term forecast was assessed on its ability to predict the onset date of the rainy season, and the skill of the seasonal forecast in predicting abnormal precipitation patterns. CHIRPS-GEFS provided a useful starting point to estimate the onset date, but during the long rains in the southwest, where agriculture is concentrated, differences between the predicted and actual onset dates were large (over 20 days). Assessments for CFSv2 generally displayed lower forecast skill over highlands and coastal regions at a seasonal scale. The CFSv2 forecast skill varied widely over individual months and lead times, but over whole rainy seasons, CFSv2 was more skillful than a random forecast at all lead times in the major agricultural areas of Kenya. This research fills a critical research and application gap in understanding the forecast precipitation skill for onset and sub-seasonal prediction.

Highlights

Agriculture in Kenya contributes to ∼26% of the Gross Domestic Product, and employs over 40% of the population [1]
This study was conducted over Kenya at pixel level (0.5° for Climate Forecast System version 2 (CFSv2), 0.05° for CHIRPSGEFS)
CHIRPS-GEFS predicted an earlier onset of the short rains in parts of the same region, mainly the highland areas

Summary

Introduction

Agriculture in Kenya contributes to ∼26% of the Gross Domestic Product, and employs over 40% of the population [1]. There is a high prevalence of rainfed agriculture, and much of the country does not receive enough precipitation to support most crops [1]. 61% of the population depends on rainfed agriculture for income [2]. Pastoralists depend on precipitation to sustain their herds. This makes food security in the region vulnerable to erratic precipitation patterns. Natural variability in precipitation patterns, further complicated by political conflicts, greatly impacts food and water security in Kenya and surrounding areas

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