 |
 |
 |
 |
 |
/ / MRJMBS Home / / About MRJMBS / / Submit Manuscripts / / Call For Articles / / Editorial Board / / Archive / / Author's Guide / /
|
Other viewing option
• Full text •Reprint (PDF) (1262 KB)
Amente
G
|
Original Research Article Climate Pattern and Recurrent Drought of Mieso Area, West Hararghe, Ethiopia |
|||
|
Gelana Amente* and Berhanu Mengistu |
||||
|
Haramaya
University, College of Natural and Computational Sciences, P.O.
Box 138, Dire Dawa, Ethiopia Accepted May 29, 2019 |
||||
|
Abstract |
||||
|
Drought can generally be defined as the persistence of
precipitation deficit. It can range from mild to extreme
depending on the severity of the lack of precipitation. The area
around Mieso during the times of benign years is known and
praised for its abundant sorghum production. But over last
couple of decades, it is persistently affected by drought and
consistently demanding grain charity. This study attempts to
investigate the cyclic pattern and severity of the drought and
its link to the atmospheric teleconnections. For this study,
data from three closest meteorological stations (Mieso, Chiro
and Hirna) were obtained and analyzed. Out of the three stations
Chiro station data were found to be slightly similar to Mieso
data. For the data analysis Mieso data was used with missing
years data filled in from the analyzed Chiro rainfall data. The
analyses were made using Dekadal Dryness Indicator (DDI), Start
of Season (SoS), Runs theory, the Standard Precipitation Index (SPI)
and the Standard Precipitation and Evapotranspiration Index (SPEI).
The rainy seasons selected for the analysis were Feb.-May (the
short rainy season) and June – Sept. (the main rainy season)
separately and by combining the two seasons. Besides, the
drought years were related to global atmospheric and oceanic
teleconnections. The averaged rainfall results revealed the 2nd
dekad of March and the first dekad of July as start of season (SoS)
for the two rainy seasons, respectively. The ecadal results
showed the lengths of the two rainy seasons to be three months
or less. The run theory exhibited drought intensities of -89 mm,
-117 mm and -108 mm during the years 1991-93, 2002-2003 and
2008/2009, respectively. Based on SPI analysis, the seasons (MAM
and JAS) each had one extreme and one severe drought years. MAM
rainy season experienced two while the JAS rainy season had four
moderate drought years. The combined six months rainy season
experienced 2 severe and six moderate drought years. SPEI showed
identical drought years (2002 extremely severe and 2008 severe)
with SPI. The severe droughts of the two seasons seem to have 10
year cycles and the moderate dry years came six years after the
severe drought years. Nearly 50% of the time there were start of
season failures, which partly contributed to the drought. The
droughts were generally stronger during El Nino years dominated
by El Nino dominance period and when ENSO was positive. Since it
is roughly possible to predict these events, it is possible to
roughly predict the drought years but it may still be difficult
to predict the intensities. |
Merit Research Journals© 2019 || Advertisement | Privacy policy.