International Journal of Agriculture and Agricultural Sciences (IJAAS) ISSN: 1712-3496, Vol. 6(2), pp. 176-184, September, 2021. © Advanced Scholars Journals
Full length Research paper
Climate change impacts on land use in Gadaref and North Kordofan States and future Desert sheep distribution in Sudan
Abdelmalik M Abdelmalik1,5, Abuelgasim I Musa2,3, Ismail F-E Mohamed3, Yasunori Kurosaki4, Mitsuru Tsubo4, Abdelrahman A Khatir5, Imad Eldin A Ali Babiker5, Rehab A Hassan6, Nagmeldin G Elhassan6, Sumaya A Zakieldeen7, Fathielrahaman I Aljloon8, Flavio Forabosco9, Abdelatif Ijaimi10, Abdelrahman K Osman5 and Faisal M El Hag4,5*
1Depatment of Plant Production, College of Food and Agriculture Sciences, King Saud University, Riyad, Saudi Arabia Kingdom.
2United Graduate School of Agricultural Science, Tottori University, Tottori, Japan.
3Sudan Meteorological Authority (SMA), Khartoum, Sudan
4Arid Land Research Center (ALRC), Tottori University, Tottori, Japan
5Agricultural Research Corporation (ARC), Khartoum, Sudan
6Higher Council for Environment and Natural Resources (HCENR), Khartoum, Sudan.
7Institute of Environmental Studies, University of Khartoum, Khartoum, Sudan
8Department of Ecology, College of Biology and Environment, Nanjing Forestry University, China
9AC-Sweden (International Consultant)
10Federal Ministry of Agriculture and Natural Resources, Khartoum, Sudan
*Corresponding author’s E-mail:[email protected]
Accepted 1stSeptember, 2021.
Abstract
Trends of TMIN, TMAX and rainfall anomalies in Gadaref and North Kordofan States, Sudan, were analyzed for 1981-2017. Vegetation biomass was measured and regressed with NDVI. Crop residues and feed concentrates quantities were also obtained and livestock carrying capacities and stocking rates calculated. Further, an optimistic (RCP 2.6) and a rather pessimistic (RCP 8.5) climate scenarios were presented to analyze future distribution of Desert sheep in Sudan. Rainfall anomalies reflected frequent droughts, with high inter-annual variability. There were positive trends for both TMIN and TMAX in Gadaref State, indicating a 0.5oC decadal increase. In North Kordofan, only TMIN showed a positive trend. In Gadaref, rangeland area was reduced from 48% of the total State area in 1990 to 23% in 2017, while the respective decrease in North Kordofan was from 51.5% to 49.9%. Both States were in negative feed balance, being worser in North Kordofan with about 2.4 folds overstocking. Climate change pessimistic scenario (RCP 8.5) for Desert sheep distribution indicated a reduction in suitable areas, that would be confined to the southern and coastal zones. Gadaref and North Kordofan States are most vulnerable to climate change. Correct management of livestock could play important roles in both mitigation and adaptation.
Key words: biomass production, climate change scenarios, drylands, Desert sheep distribution, land use, rainfall anomalies, temperature trends