Forest cover change and its driving forces in Fagita Lekoma District, Ethiopia

Yigez Belayneh; Guo Ru; Awoke Guadie; Zebene Lakew Teffera; Mengesha Tsega

doi:10.1007/s11676-018-0838-8

Journal of Forestry Research ›› 2018, Vol. 31 ›› Issue (5) : 1567 -1582. DOI: 10.1007/s11676-018-0838-8

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Forest cover change and its driving forces in Fagita Lekoma District, Ethiopia

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Abstract

This study investigated forest cover change and the driving forces behind it in Fagita Lekoma District of Ethiopia that resulted in increased forest cover, which might be uncommon outside this case study area. The LULC change analysis was made from 2003 to 2017 based on Landsat images. Socioeconomic analysis was carried out to identify the major driving forces that resulted in LULC change. A questionnaire survey, focused group discussion, key informant interviews and field observation were employed to analyze the link between LULC change and the driving forces. The 15-year period (2003–2017) image analysis revealed that the coverage of forest lands, built-up areas and grassland has increased by 256%, 100% and 96%, respectively, at the expense of cultivated lands and wetlands. The increased forest cover is due to the woodlots expansion of Acacia decurrens Willd, which are designed for sustainable livelihoods and a land revitalization strategy in the study area. Rapid population growth, an increasing demand for charcoal and subsequent market opportunities, preferred qualities of A. decurrens or black wattle to halt land degradation as well as to improve land productivity, have been identified as the major driving forces of forest cover change. Chi squared analysis revealed that: a comparative cash income from the sale of A. decurrens; a dependency on natural forests; the distance from the district administrative center; the size of the active labor force, and the area of land owned have significantly affected the cover change. The major forest cover change is due to the expansion of A. decurrens plantations that have socioeconomic and environmental implications to improve rural livelihoods and revitalize the land. Thus, the positive experiences identified in this study should be scaled-up and applied in other similar settings.

Keywords

Acacia decurrens / Forest cover change / Land degradation / Revitalization / Sustainable livelihoods

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Yigez Belayneh, Guo Ru, Awoke Guadie, Zebene Lakew Teffera, Mengesha Tsega. Forest cover change and its driving forces in Fagita Lekoma District, Ethiopia. Journal of Forestry Research, 2018, 31(5): 1567-1582 DOI:10.1007/s11676-018-0838-8

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Amsalu A, Stroosnijder L, de Graaff J. Long-term dynamics in land resource use and the driving forces in the Beressa watershed, highlands of Ethiopia. J Environ Manag, 2007, 83: 448-459.

[2]	Assembe-Mvondo S. Sustainable forest management practice in Central African States and customary law. Int J Sustain Dev World Ecol, 2009, 16: 217-227.

[3]	Baye TG. Poverty, peasantry and agriculture in Ethiopia. Ann Agrar Sci, 2017, 15: 420-430.

[4]	Bewket W. Land cover dynamics since the 1950s in Chemoga watershed, Blue Nile Basin, Ethiopia. Mt Res Dev, 2002, 22: 263-269.

[5]	Bewket W. Household level tree planting and its implications for environmental management in the North-western Highlands of Ethiopia: a case study in the Chemoga watershed, Blue Nile Basin. Land Degrad Dev, 2003, 14: 377-388.

[6]	Bewket W, Abebe S. Land use and land cover change and its environmental implications in a tropical highland watershed, Ethiopia. Int J Environ Stud, 2013, 70: 126-139.

[7]	Bewket W, Sterk G. Assessment of soil erosion in cultivated fields using a survey methodology for rills in the Chemoga watershed, Ethiopia. Agric Ecosyst Environ, 2003, 97: 81-93.

[8]	Cochran WG. Sampling techniques, 1977, New York: Wiley 428

[9]	CSA (Central Statistical Agency) (2013) Population projection of Ethiopia for all regions at wereda level from 2014–2017. Addis Ababa, p 28

[10]	Desalegn T, Cruz F, Kindu M, Turrion MB, Gonzalo J. Land use and land cover (LULC) change and socio-economic conditions of local community in the central highlands of Ethiopia. Int J Sustain Dev World Ecol, 2014, 21: 406-413.

[11]	Desta L, Kassie M, Benin S, Pender J (2000) Land degradation and strategies for sustainable development in the Ethiopian highlands: Amhara Region. Socio-economics and policy research working paper 32. International livestock Research Institute, Nairobi, p 122

[12]	Devi R, Tesfahune E, Legesse W, Deboch B, Beyene A. Assessment of siltation and nutrient enrichment of Gilgel Gibe Dam, Southwest Ethiopia. Bioresour Technol, 2008, 99: 975-979.

[13]	EIC (Ethiopian Investment Commission). Ethiopia: A preferred location for foreign direct investment in Africa: an investment guide to Ethiopia, 2015, Addis Ababa: EIC 44

[14]	EPA (Environmental Protection Authority). Ethiopia environment outlook, environment for development, 2008, Addis Ababa: EPA 143

[15]	FAO (United Nation’s Food and Agriculture Organization). Global forest resources assessment 2015: how are the world’s forests changing?, 2015, Rome: FAO 54

[16]	Gebreegziabher Z, van Kooten GC. Does community and household tree planting imply increased use of wood for fuel? Evidence from Ethiopia. For Policy Econ, 2013, 34: 30-40.

[17]	Geist H, McConnell W, Lambin EF, Moran E, Alves D, Rudel T. Lambin EF, Geist H. Causes and trajectories of land use and cover change. Land use and land cover change, 2006, Berlin: Springer 41 69

[18]	Gelagay HS, Minale AS. Soil loss estimation using GIS and remote sensing techniques: a case of Koga watershed, North-western Ethiopia. Int Soil Water Conserv Res, 2016, 4: 126-136.

[19]	Gessesse B, Bewket W, Bräuning A. Model based characterization and monitoring of runoff and soil erosion in response to land use and land cover changes in the Modjo watershed, Ethiopia. Land Degrad Dev, 2015, 26: 711-724.

[20]	Getahun A. Stability and instability of mountain ecosystems in Ethiopia. Soc Int Mt, 1984, 4: 39-44.

[21]	Gete Z, Hurni H, Tato K. The implications of changes in population, land use and land management for surface runoff in the upper Nile Basin area of Ethiopia. Mt Res Dev, 2005, 25: 147-154.

[22]	GFOI (Global Forest Observations Initiative) (2013) Integrating remote-sensing and ground-based observations for estimation of emissions and removals of greenhouse gases in forests: methods and guidance from the GFOI: Group on Earth Observations, Geneva, Switzerland, p 165

[23]	Gizachew K. Expansion of Eucalypt woodlot and its factors in Cheha district, Southern Ethiopia. World Sci News, 2017, 66: 163-180.

[24]	Halim MA, Shahid A, Chowdhury MSH, Nahar MN, Sohel MSI, Jahangir NM, Koike M. Evaluation of land use pattern change in West Bhanugach reserved forest, Bangladesh, using remote sensing and GIS techniques. J For Res, 2008, 19: 193-198.

[25]	Hoben A. Paradigms and politics: the cultural construction of environmental policy in Ethiopia. World Dev, 1995, 23: 1007-1021.

[26]	Kassa H, Dondeyne S, Poesen J, Frankl A, Nyssen J. Transition from forest based to Cereal based agricultural systems: a review of the drivers of land use change and degradation in South-west Ethiopia. Land Degrad Dev, 2017, 28: 431-449.

[27]	Kindu M, Schneider T, Teketay D, Knoke T. Drivers of land use/land cover changes in Munessa-Shashemene landscape of the South-central Highlands of Ethiopia. Environ Monit Assess, 2015, 187: 452.

[28]	Kleemann J, Baysal G, Bulley HNN, Fürst C. Assessing driving forces of land use and land cover change by a mixed-method approach in North-eastern Ghana, West Africa. J Environ Manag, 2017, 196: 411-442.

[29]

Lambin EF, Turner BL, Geist HJ, Agbola SB, Angelsen A, Bruce JW, Coomes OT, Dirzo R, Fischer G, Folke C, George PS, Homewood K, Imbernon J, Leemans R, Li XB, Moran EF, Mortimore M, Ramakrishnan PS, Richards GF, Skanes H, Steffen W, Stone GD, Svedin U, Veldkamp TA, Vogel C, Xu JC. The causes of land use and land cover change: moving beyond the myths. Glob Environ Change, 2001, 11: 261-269.

[30]	Lemenih M, Kassa H. Re-greening Ethiopia: history, challenges and lessons. Forests, 2014, 5: 1896-1909.

[31]	Martire S, Castellani V, Sala S. Carrying capacity assessment of forest resources: enhancing environmental sustainability in energy production at local scale. Resour Conserv Recycl, 2015, 94: 11-20.

[32]	MEFCC (2017) (Federal Democratic Republic of Ethiopia Ministry of Environment Forest and Climate Change). Ethiopia forest sector review. Focus on commercial forestry and industrialization. MEFCC, Addis Ababa, p 94

[33]	Meyfroidt P, Rudel TK, Lambin EF. Forest transitions, trade, and the global displacement of land use. Proc Natl Acad Sci, 2010, 107: 20917-20922.

[34]	Olofsson P, Foody GM, Herold M, Stehman SV, Woodcock CE, Wulder MA. Good practices for estimating area and assessing accuracy of land change. Remote Sens Environ, 2014, 148: 42-57.

[35]	Qasim M, Hubacek K, Termansen M. Underlying and proximate driving causes of land use change in district Swat, Pakistan. Land Use Policy, 2013, 34: 146-157.

[36]	Redowan M, Akter S, Islam N. Analysis of forest cover change at Khadimnagar National Park, Sylhet, Bangladesh, using Landsat TM and GIS data. J For Res, 2014, 25: 393-400.

[37]	Sewnet A. Land use and cover change at Infraz watershed by using GIS and remote sensing techniques, North-western Ethiopia. Int J River Basin Manag, 2016, 14: 133-142.

[38]	Stehman SV. Estimating area and map accuracy for stratified random sampling when the strata are different from the map classes. Int J Remote Sens, 2014, 35: 4923-4939.

[39]	Stehman SV, Czaplewski RL. Design and analysis for thematic map accuracy assessment: an application of satellite imagery. Remote Sens Environ, 1998, 64: 331-344.

[40]	Stéphenne N, Lambin EF. A dynamic simulation model of land use changes in Sudano-sahelian countries of Africa (SALU). Agric Ecosyst Environ, 2001, 85: 145-161.

[41]	Sutcliffe JP, Wood A, Meaton J. Competitive forests-making forests sustainable in South-west Ethiopia. Int J Sustain Dev World Ecol, 2012, 19: 471-481.

[42]	Tesfaye G, Assefa A, Kidane D. Runoff, sediment load and land use and cover change relationship: the case of Maybar Sub-watershed, South Wollo, Ethiopia. Int J River Basin Manag, 2017, 15: 89-101.

[43]	Veldkamp A, Lambin EF. Predicting land-use change. Agric Ecosyst Environ, 2001, 85: 1-6.

[44]	Wu G, Gao Y, Wang Y, Wang YY, Xu D. Land use and land cover changes and their driving forces around wetlands in Shangri-La county, Yunnan province, China. Int J Sustain Dev World Ecol, 2015, 22: 110-116.

[45]	Wubie MA, Assen M, Nicolau MD. Patterns, causes and consequences of land use and cover dynamics in the Gumara watershed of lake Tana basin, North-western Ethiopia. Environ Syst Res, 2016, 5: 8.

[46]	Zengin H, Değermenci AS, Bettinger P. Analysis of temporal changes in land cover and landscape metrics of a managed forest in the West Black Sea region of Northern Turkey: 1970–2010. J For Res, 2018, 29: 139-150.

[47]	Zewdie W, Csaplovics E. Identifying categorical land use transition and land degradation in North-western drylands of Ethiopia. Remote Sens, 2016, 8: 408.