Analyses of land cover changes and major driving forces assessment in middle highland Tigray, Ethiopia: the case of areas around Laelay-Koraro

Paper Details

Research Paper 01/12/2011
Views (1101)
current_issue_feature_image
publication_file

Analyses of land cover changes and major driving forces assessment in middle highland Tigray, Ethiopia: the case of areas around Laelay-Koraro

Thadiparthi Byragi Reddy, Mekonen Aregai Gebreselassie
J. Biodiv. & Environ. Sci. 1(6), 22-29, December 2011.
Copyright Statement: Copyright 2011; The Author(s).
License: CC BY-NC 4.0

Abstract

Analyzing the land cover changes and understanding the subsequent trends of change contribute to present complex dynamics of land cover and is important for policy making, planning and implementing of natural resource management. In this study, the land cover changes in a 64512 ha, in areas around Laelay-Koraro middle highland Tigray, Ethiopia has been investigated. Aerial photos from 1964 and 1994 and satellite imagery for the year 2007 were used to appraise the land cover changes and Geographic Information System (GIS) were employed to interpret maps and ground truth checking. Changes have also been detected using semi-structured questionnaire from a randomly selected 400 households on socioeconomic factors driving land cover changes. The aggregate of change through time tested using the combined techniques revealed that, the rates of conversion of land cover types were observed between 1964 and 1994 and this were during the second period in forest cover, degraded and bare land areas. The size of forest cover increased by 10.5% between 1994 and 2007 contributed to a remarkable increment in irrigable land from -0.3% to 3.4% of the total area. Interviewed households revealed that increasing population aggravated the rates of conversion of cultivated land and built up areas at the expense of vegetation cover caused high rates of soil erosion, runoff, excessive sedimentation, reduced infiltration rates and soil moisture. Finally, this study validates the reversibility of natural resource as the result of extensive management practices and community participation.

Boserup E. 1965. The Conditions of Agricultural Growth. The Economics of Agricultural Change Under Population Pressure, Aldine, Chicago, 35-93.

Central Statistics Agency (CSA) 2010. National population statistics. Federal Democratic Republic of Ethiopia, Central Statistics Authority, Addis Abeba, 97-112.

EFAP (Ethiopian Forestry Action Program), 1994. Ethiopian forestry action program: the challenge for development (Vol.III) Ministry of Natural Resource Development and Environmental Protection, Addis Abeba, Ethiopia, 74-98.

FAO. 2001. Global forest resource assessment: main report, FAO: paper 140, Rome, Italy. McCulloch J S G, Robinson M (1993).History forest hydrology. J. Hydrol. 150, 189-216.

FAO. 1983. Guidelines for the Control of Soil Degradation. Rome: United Nations Environmental Programme and FAO, Italy: 57, 35-36.

Grime JP. 1997. Climate change and vegetation. In Plant Ecology, 2nd edition, Crawley MJ (ed.). Blackwell Science: Oxford, UK, 582-594.

Hurni. 1993. Land degradation, famine, and land resource scenarios in Ethiopia. In: Pimental D, editor. World Soil Erosion and Conservation. Cambridge Studies in Applied Ecology and Resource Management. Cambridge University Press, p. 27-61.

Lambin EF, Geist H. 2007. Causes of land-use and land-cover change, In: Encyclopedia of Earth, ed. Environmental Information Coalition, National Council for Science and the Environment (NCSE), Washington D.C., USA, p. 15-75.

Lee, RE, Arthur WB, Kelley AC, Rogers G, and Srinivasan TN. ed. 1988. Population, Food and Rural Development, Clarendon, Oxford, 32, 218-220.

McCulloch TSG, Robinson M. 1983.History of forest hydrology. J. Hydrol. 150, 189-216.

Meyer WB. Turner BL. 1994. Changes in land use land cover: a global perspective. Cambridge Univ. Press, Cambridge, UK, p. 259-328.

Munro RN, Deckers J, Grove AT, Mitiku Haile, Poesen J, Nyssen J. 2008. Soil and erosion features of the central plateau region of Tigray- learning from photo monitoring with 30 years interval. Catena 75, 55-64.

Nyssen J, Mitiku Haile, Naudts J, Nunro N, Poesen J, Moeyerson J, Frankl A, Deckers J, Pankhurst R. 2009. Desertification? North Ethiopia re-photographed after 140 years. Science of the Environment 407, 2749-2755.

Nyssen J, Descheemaekr K, Nigussie H, Mitiku H, Deckrs J, Poesen J. 2007. Lessons learnt from 10 years research on soil erosion and soil and water conservation in Tigray. Mekelle, Ethiopia, p. 53.

Tom L. 2003. Strategic plan for the climate change science program final report, USA, 63-70.

Related Articles

Floristic composition and woody species diversity in Campo-Ma’an National Park, South Cameroon

Achey Nkenfack Djike Baudelair*, Temgoua Lucie Félicité, Kuete Fogang Marcien, Nfondem Poumie Mohamed Mounir, Atoupka Abdel Malik, Djeuni Duplex Romuald, Kontchiachou Nkana Didier, J. Biodiv. & Environ. Sci. 28(6), 103-119, June 2026.

Comparative effects of bio-inoculant on nutrient dynamics of biodegradable waste

Anjelle-J G. Debosura*, Carlo Stephen O. Moneva, Corazon V. Ligaray, Elizabeth Edan M. Albiento, MA. Cecilia V. Almeda, Melgie A. Alas, Frandel Louis S. Dagoc, Peter D. Suson, J. Biodiv. & Environ. Sci. 28(6), 97-102, June 2026.

Impact of deforestation on the aquatic macroinvertebrate community and the ecological quality of Mé River (South-East, Côte d’Ivoire)

Gnago Dohou Affri*, Tapé Logboh David, Edia Oi Edia, J. Biodiv. & Environ. Sci. 28(6), 80-96, June 2026.

Vulnerability and regeneration potential of Bambusa vulgaris in Ebolowa, South Cameroon

Rodine Tchiofo Lontsi*, Duchesse Elvira Kepmou, Emilienne Laure Ngahane, Jacques Christophe Awoa Essam, Isaac Blaise Djoko, J. Biodiv. & Environ. Sci. 28(6), 68-79, June 2026.

Temporal availability of floral resources for the honey bee (Apis mellifera) in a forest ecosystem in the sudanian zone of Côte d’Ivoire: The case of Badenou classified forest

Dofoungo Koné*, Comlan Mawussi Koudegnan, Siendou Coulibaly, Fofana Séguéna, Bruno Marcel Iritié, Wandan Eboua Narcisse, J. Biodiv. & Environ. Sci. 28(6), 56-67, June 2026.

Carbon sequestration potential of napier (Pennisetum purpureum) grass applied with varying classifications of livestock excrement

Alliah B. Balaba*, Niña Mae R. Villar, Ana Celina T. Soriano, Myrna G. Pabiona, J. Biodiv. & Environ. Sci. 28(6), 50-55, June 2026.

Effects of environmental stressors on morphological traits of Glycine max (L.) Merr. and microbial diversity of soil treated with cadmium and lead

Fortune Onyeuka Otumunye*, Tobore Roseline Agbosa, Boniface Edegbai, J. Biodiv. & Environ. Sci. 28(6), 42-49, June 2026.

SWAT+-based water balance assessment of Ipil watershed in Bohol, Philippines: Spatial and temporal patterns of water availability

Anselmo M. Aurestila*, Proceso M. Castil, Manolito C. Macalolot, J. Biodiv. & Environ. Sci. 28(6), 30-41, June 2026.