Rainfall totals in the first month of this season saw the revised forecast come to fruition: March rainfall totals were as high as 100 millimeters, or more than 300 percent above average. Caption by Holli Riebeek.Forecasts as late as February 2023 called for a sixth below-average gu/genna rainy season in southern and southeastern Ethiopia, but a shift in climatic conditions in March caused a revision to above-average rainfall. NASA image created by Jesse Allen, Earth Observatory, using data provided by Inbal Reshef, Global Agricultural Monitoring Project. To learn more about how vegetation images are used to predict famine, listen to NASA scientist Molly Brown discuss FEWS NET with EarthSky Clear Voices for Science. A lack of rain at the end of 2008 would likely compound the shortages, said FEWS NET. Rains earlier in the year did help, but pastureland and water were still in short supply after several successive years of poor rain. The southeastern corner of Ethiopia looks to be in better condition, with vegetation closer to average. While much of the rest of the country experienced good rains earlier in the year, the Afar region did not. In this image, some of the areas that are darkest brown, where vegetation was growing poorly, are in the Afar region. In the east, two regions are particularly vulnerable to food insecurity if rainfall between October and January is as poor as it is forecast to be: the Afar region in northeastern Ethiopia and the southern portions of the Somali and Oromia regions in the southeast. (The dark gray area at the top of the image indicates no data.) The clouds are clustered in the south and west. Areas where persistent clouds covered the region are light gray in this image. The forecast for the western half of Ethiopia called for above-normal rains. Spots of green fringe Ethiopia’s western border where rainfall was more plentiful, while streaks of brown run through the eastern half of the country. Overall, plants in Ethiopia were growing slightly more poorly than average. Average growth is represented in off-white. Areas where plants were growing more quickly or more densely than average are green, while less vigorous growth is brown. This image, made from data collected by the Moderate Resolution Imaging Spectroradiometer ( MODIS) on NASA’s Terra satellite between September 29 and October 14, 2008, shows vegetation conditions at the beginning of the October-January rainy season. The advanced warning gives governments and aid agencies time to plan a response before a full-fledged famine can develop. When poor vegetation matches up with resource-poor populations that might depend on a single crop or pastureland for survival, FEWS NET warns that the region may need food aid. One of the observations key to predicting food shortages is the view of vegetation from space, such as the image shown here. In the East, where livelihoods depend on good pastureland for livestock, the lack of rain will likely lead to food insecurity.įEWS NET identifies potential food insecurity by combining current observations with forecast models. Rainfall had been normal for much of the country, but forecasts called for weak rains between October and January, warned the Famine Early Warning System Network (FEWS NET). While not the primary rainy season, the rain that falls between October and January nourishes pastureland and provides water for livestock, crops, and people in the pastoral and agricultural regions of eastern Ethiopia. October is usually the beginning of one of Ethiopia’s rainy seasons.
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