Friday, July 22, 2011

drought of africa

Horn of Africa drought seen from space
The animation, derived from SMOS satellite data, shows soil moisture in the Horn of Africa from April to mid-July 2011. The orange and yellow colouring depicts little to no moisture, while green and blue depict higher levels of soil moisture. Credits: CESBIO/ESA

Drought in Somalia, Kenya, Ethiopia and Djibouti is pushing tens of thousands of people from their homes as millions face food insecurity in a crisis visible from space. ESA’s SMOS satellite shows that the region’s soil is too dry to grow crops.
Somalis, who already face war in their country, have been fleeing to neighbouring countries in search of refuge. In ’s Dadaab refugee camp, for example, over 1000 people – mostly children – arrive daily, severely dehydrated and malnourished.
While international aid agencies call this the ‘worst in decades,’ space technology has mapped the crisis over a shorter time period.
ESA's SMOS and ocean salinity satellite shows that Somalia’s soil appears dry during the 2011 main rainy season, particularly in the southern agricultural region.
Somalia has an arid climate in the northeast and central regions, while the northwest and south receive at least reasonable amounts of rain in a normal year.
Although the country’s proximity to the equator means there is not much seasonal variation in climate, the April to June rains are important for agriculture.
Horn of Africa drought seen from space
Enlarge
This animation compares soil moisture data from each month in 2010 to the 20-year monthly average. The shades of red represent varying degrees of lower than normal soil moisture in 2010 compared to the past 20 years, while the shades of blue indicate higher than normal soil moisture. These data were provided by the WACMOS project. Credits: WACMOS
But this year, the rains were insufficient for cultivating crops. SMOS shows that there was little or no moisture in surface soil in some key areas between April and July.

“The SMOS measurements in such areas are probably two to four times more accurate than those with other satellite sensors or models,” said Yann Kerr, SMOS lead scientist for soil moisture at the CESBIO centre for studying Earth’s biosphere from space in Toulouse, France.
Launched in November 2009, SMOS is helping us to understand Earth’s water cycle with its specialised sensor.

Additional information on soil moisture gathered over the last 20 years by various instruments reveal the lead-up to this year’s dry spell in the Horn of Africa.
In the final months of 2010, the soil moisture was lower than average in areas covering Kenya, Ethiopia, Djibouti and Somalia.
The consequences of this drought are dire: crops have failed, livestock are dwindling and the people are starving.
Further aggravating the situation in , political unrest has been driving people from their lands for years – the few tended crops do not always reach maturity or are destroyed.
Droughts in Southern & Eastern Africa.
The countries of southern and eastern Africa have very different climates, but most are situated in semi-arid regions where annual rainfall varies by 20-30 percent. This variation can have devastating social and economic consequences. In most of the area, agricultural production in mainly limited by the availability of soil moisture. Heavy rains often do not significantly increase soil moisture because the soil does not absorb moisture quickly, and the rain tends to run off without penetrating into the soil. The problems are aggravated by the tendency of 2-3 year droughts to occur at fairly regular intervals.

Evidence for a strong link to El Niño events and African drought is conflicting. Over the 1875-1975, 27 El Niño events were linked to 21 years of deficient rainfall in southern and eastern Africa. The 1982-83 El Niño was also linked to drought in Africa. More detailed attempts to link the two phenomena have not been successful.
Provided by European Space Agency (news : web)

No comments:

Post a Comment