Land degradation is among the most challenge and continuous environment problem in highland parts Ethiopia. To reverse the problem land degradation has introduced sustainable land management practices. The study was conducted in Semen Bench district, in southwestern Ethiopia to identify factor affecting the adoption of sustainable land management practices. The data were collected through house hold questionnaires survey, key informant interview and focus group discussions. Binary logic regression model was employed in estimated determinant of SLM. The results showed that 92.5% and 7.5% of the household adoption of sustainable land management practice were male and female respectively. The results showed that also sex, farmer’s perception of land degradation, extension service and TLU positively significantly affect, while age and off-farm activities have a negative influence adoption of sustainable land management practices. The adoption of Sustainable Land Management practices is to incroprate the farmers best practices to advanced used for reducing erosion, rehabilitate degraded area, ensure food security and, improve fertility. Thus policy maker should take in to consideration the determinant factor affecting adoption of SLM when designing and adoption introducing SLM practices.
Published in | International Journal of Sustainable Development Research (Volume 9, Issue 3) |
DOI | 10.11648/j.ijsdr.20230903.11 |
Page(s) | 43-50 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2023. Published by Science Publishing Group |
Adoption, Binary Logistic Regression, Sustainable Land Management Practices
[1] | Abebe, M., GIS Based Land Degradation Assessment for Sustainable Land Management: The Case of Bench Maji Zone, Ethiopia, Africa Zone, Ethiopia, and Africa. Intern-Journal of Earth Science. 2015. 2 (2): 2394-1375. |
[2] | Abebe, Z. and Sewnet, M., Adoption of soil conservation practices in north Achefer district, northwest Ethiopia. Chin. J. Popul. Resource. Environ. 2014. 12: 261–268. |
[3] | Adimassu, Z., Kessler, A. and Hengsdijk, H., Exploring determinants of farmers' investments in land management in the Central Rift Valley of Ethiopia. Applied Geography, 2012.35: 191-198. |
[4] | Adimassu, Z., Mekonnen, K., Yirga, C., and Kessler, A., Effect of soil bunds on runoff, soil and nutrient losses, and crop yield in the central highlands of Ethiopia, Land Degrade. Dev. 2014. 83 (5): 1231-1240. |
[5] | Adimassu, Z., Langan S., Johnston R., Mekuria W. and Amede T., Impacts of soil and water conservation practices on crop yield, run-of, soil loss and nutrient loss in Ethiopia, 2017.59 (1): 87–101. |
[6] | Adugna, A., Abegaz A. and Cerda A., Soil erosion assessment and control in Northeast Wollega, Ethiopia, Solid Earth Discussions, 2015.7 (4): 3511–3540. |
[7] | Amsalu, A., and Caring for the land: Best practices in soil and water conservation in Beressa watershed, highlands of Ethiopia. Thesis Wageningen UR-ISBN, 2006.908504443-X. |
[8] | Amsalu A, De Graaff J., Determinants of adoption and continued use of stone terraces for soil and water conservation in an Ethiopian highland watershed. Ecological Economics, 2007. 61: 294-302. |
[9] | Birhanu, A. and Meseret D., Structural soil and water conservation practices in Farta District, North Western Ethiopia: an investigation on factors influencing continued Use. Sic Technol Arts Res J. 2013.2 (4): 114–121. |
[10] | Cochran, W., 1977. Sampling techniques. 3rd ed. John Wiley and Sons. USA, 1977. |
[11] | Danano, D., Sustainable Land Management Technologies and Approaches in Ethiopia; Sustainable Land Management Project (SLMP); Natural Resources Management Sector, Ministry of Agriculture and Rural Development of the Federal Democratic Republic of Ethiopia: Addis Ababa, Ethiopia, 2010. |
[12] | De Graaff, J. Amasalu A. Bodar F. Kessler A. Posthumus H. and Tegn A. Factor influning adoption and continued use of long term soiland water conservation measures in five developing conturies, Appl Geogr, 2008. 28: 271-280. |
[13] | Derajew, F., Bekabil, F. and Wagayehu, B. Determinants of the Use of Soil Conservation Technologies by Smallholder Farmers: The Case of Hulet Eju Enesie District, East Gojjam Zone, Ethiopia. Asian Journal of Agriculture and Food Sciences, 20131: 119–138. |
[14] | Dewitte, O., Jones, A., Spaargaren, O., Breuning-Madsen, H., Brossard, M., Dampha, A., Deckers, J., Gallali, T., Hallett, S., Jones, R. and Kilasara, M., Harmonisation of the soil map of Africa at the continental scale. Geoderma, 2013.211: 138-153. |
[15] | Eleni, T., Continued Use of Soil and Water Conservation Practices: a Case study in Tulla District, Ethiopia. Environmental Policy Group, Wageningen University, Netherlands, 2008. |
[16] | Etsay, H., Negash T. and Aregay M., Factors that influence the implementation of sustainable land management practices by rural households in Tigrai region, Ethiopia. Ecological Processes, 2019. 8 (1): 14. |
[17] | FAO, Food security and agricultural mitigation in developing countries: options for capturing synergies. Food and Agriculture Organization of the United Nations, Rome. 2009. |
[18] | FAO,"Climate-smart" agriculture. Policies, practices and financing for food security, adaptation and mitigation. Food and Agriculture Organization of the United Nations, Rome, 2010. |
[19] | Fikru, A., Assessment of Adoption Behavior of Soil and Water Conservation Practices in the Koga Watershed, Highlands of Ethiopia. MA Thesis, Cornell University: Bahir Dar, Ethiopia, 2009. |
[20] | Getachew, M., Mitiku, W. and Getahun, K., Assessment of weed flora composition in Arable Fields of Bench Maji, Keffa and Sheka Zones, South West Ethiopia, 2018. 14 (1): 1–8. |
[21] | Ginnachew S., Determinants of Adoption of Soil and Water Conservation Practices in the Environs of Simen Mountain National Park, Ethiopia. Unpublished M.Sc Thesis, Alemaya, Alemaya University, 2005. |
[22] | Gupta, R., Kienzler K., Mirzabaev A., Martius C., Thomas R., Qadir M., Sayre K. and Carli C., Research prospectus: a vision for sustainable land management research in Central Asia. ICARDA Central Asia and Caucasus program, Sustainable agriculture in Central Asia, 2009. |
[23] | Guto, N., Pypers, P. Vanlauwe, B. de Ridder, N. and Giller E., Socio-ecological niches for minimum tillage and crop-residue retention in continuous maize cropping systems in smallholder farms of central Kenya, soil tillage conservation, 2011.103 (3): 644–654. |
[24] | Heyi, D. and Mberegwa, I. Determinants of Farmers‟ Land Management Practices: The Case of Tole District, South West Shewa Zone, Oromia National Regional State, Ethiopia. Journal of Sustainable Development in Africa, 2012. 14 (1): 76-96. |
[25] | Hurni, H., Abate S. and Bantider A., Land degradation and sustainable land management in the highlands of Ethiopia. Global Change and Sustainable Development, 2010. DOI: 10.13140/2.1.3976.5449. |
[26] | Hyeoun-Ae, P., An Introduction to logistic regression: From basic concepts to interpretation with particular attention to nursing domain. College of nursing, Seoul National University. Journal of Korean Academy of Nursing, 2013. 43 (2). |
[27] | Kassie, M., Zikhali, P., Pender, J. and Köhlin, G., Sustainable Agricultural Practices and Agricultural Productivity in Ethiopia: EfD DP. 2009.09-12. |
[28] | Kebede, W., Awdenegest M. and Fantaw Y., Farmers‟ perception of the effects of soil and water conservation structures on crop production: The case of Bokole watershed, Southern Ethiopia. Afr. J. Water Conserv. Sustain., 2013. 1 (5): 71-80. |
[29] | Kebede, W., Evaluating watershed management activities of campaign work in Southern nations, nationalities and peoples’ regional state of Ethiopia., 2015. 4. (6); DOI 10.1186/s40068-015-0029-y. |
[30] | Krishna, R., Bicol Ingrid, I. P., and Giridhari, S,. Determinants of farmers' adoption of improved soil conservation technology: In a middle mountain watershed of central Nepal Environmental Management. New York: Springer, 2008. |
[31] | Kumela, G., Land Degradation and Adoption of Soil and Water Conservation Technologies: A case of Tehuledere Woreda, 2007. |
[32] | Le Q., Nkonya E. and Mirzabaev A., Biomass productivity-based mapping of global land degradation hotspots. ZEF Discussion. Center for Development Research, Bonn, 2014, p 42. |
[33] | Mihertu, B., and Yimer, A., Determinates of farmer’s adoption of land management practice in Gelana sub-watershed of northern highlands of Ethiopia. doi, 2017.10.1186/513717- 017-0085-5. |
[34] | Ministry of agriculture (MoA), Sustainable land management (1). (Project completion report). Addis Ababa, Ethiopia, 2014. pp. 1-122. |
[35] | Nachtergaele, F., Petri M., Biancalani R., Van L. and VanVelthuizen H., Global land degradation information system (GLADIS). Beta Version. An information database for land degradation assessment at global level, Land degradation assessment in dry lands. 2010. |
[36] | Nkonya, E., Mirzabaev, A., & Von Braun, J., Economics of land degradation and improvement: a global assessment for sustainable development. Cham, Germany: Springer Open, 2016. |
[37] | Paulus, N., Factors influencing sustainable subsistence farmers‟ adoption of sustainable land management practices in Oshikoto region, Namibia. http:// www.unulrt.is/static/fel lows/document/2,015. |
[38] | Sague, T., Analysis of farmers perception on the impact of land degradation hazard on agricultural land productivity in Jeldu District, West Shewa Zone, Oromia Region, Ethiopia. Joural of agriculture extension and rural development, 2017. 9 (6): 111-123. |
[39] | Sènakpon, E, Haroll E., and Kokoye, C., Adoption and Impact of Soil Conservation Practices on Farm Income: Evidence from Northern Haiti. Selected Poster Prepared For Presentation at The Southern Agricultural Economics Association‘s Annual Meeting. San Antonio, Texas, 2016. |
[40] | Shimelis, G. Setegn, Ragahavan S., Bijan D. and Assefa M., Spatial delineation of soil erosion vulnerability in the Lake Tana Basin, Ethiopia: Hydrological Process, 2009, DOI: 10.1002/hyp.7476. |
[41] | Sinore, T, Kissi E., and Aticho A., The efects of biological soil conservation practices and community perception toward these practices in the Lemo District of Southern Ethiopia. Int Soil Water Conserv Res. 2018.16 (2): 23–130. |
[42] | Stein, B., Michael, K, Colin, L. Susan, O. and Brett, U., Sustainable Land Management Practices for Grazers. Industry and Investment State of New South Wales. Sydney, Australia, 2009. |
[43] | Tesfaye, A.; Negatu; Brouwer, R. and Van Der Zaag, P., Understanding soil conservation decision of farmers in the Gedeb Watershed, Ethiopia. Land Degrad. Dev., 2013. 25, 71-79. |
[44] | Teshome, A., de Graaff, J. and Kassie, M., Household-Level Determinants of Soil and Water Conservation Adoption Phases: Evidence from North-Western Ethiopian Highlands. Environtal Management, 2016. 57, 620-636. |
[45] | Tiwari, K., Sitaula B., Nyborg L. and Paudel G., Determinants of farmers’ adoption of improved soil conservation technology in a middle mountain watershed of central Nepal. Environ Manag; 2008. 42: 210–222. Doi: 10.1007/s00267-008-9137-z. |
[46] | UNFAO, Farming Systems Report. Synthesis of the Country Reports at the level of the Nile Basin. Rome: Food and Agriculture Organization of the United Nations, 2011. |
[47] | World Bank, Project Appraisal Document, For a Sustainable Land Management Project, to the Federal Democratic Republic of Ethiopia, Environmental and Natural Resources Management Sustainable Development Department, AFTSN, Africa Region, 2008. |
APA Style
Assen Yesuf Ali, Ashebir Mengistu. (2023). Factors Affecting the Adoption of Sustainable Land Management Practices in Semen Bench District, Southwest Ethiopia. International Journal of Sustainable Development Research, 9(3), 43-50. https://doi.org/10.11648/j.ijsdr.20230903.11
ACS Style
Assen Yesuf Ali; Ashebir Mengistu. Factors Affecting the Adoption of Sustainable Land Management Practices in Semen Bench District, Southwest Ethiopia. Int. J. Sustain. Dev. Res. 2023, 9(3), 43-50. doi: 10.11648/j.ijsdr.20230903.11
AMA Style
Assen Yesuf Ali, Ashebir Mengistu. Factors Affecting the Adoption of Sustainable Land Management Practices in Semen Bench District, Southwest Ethiopia. Int J Sustain Dev Res. 2023;9(3):43-50. doi: 10.11648/j.ijsdr.20230903.11
@article{10.11648/j.ijsdr.20230903.11, author = {Assen Yesuf Ali and Ashebir Mengistu}, title = {Factors Affecting the Adoption of Sustainable Land Management Practices in Semen Bench District, Southwest Ethiopia}, journal = {International Journal of Sustainable Development Research}, volume = {9}, number = {3}, pages = {43-50}, doi = {10.11648/j.ijsdr.20230903.11}, url = {https://doi.org/10.11648/j.ijsdr.20230903.11}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijsdr.20230903.11}, abstract = {Land degradation is among the most challenge and continuous environment problem in highland parts Ethiopia. To reverse the problem land degradation has introduced sustainable land management practices. The study was conducted in Semen Bench district, in southwestern Ethiopia to identify factor affecting the adoption of sustainable land management practices. The data were collected through house hold questionnaires survey, key informant interview and focus group discussions. Binary logic regression model was employed in estimated determinant of SLM. The results showed that 92.5% and 7.5% of the household adoption of sustainable land management practice were male and female respectively. The results showed that also sex, farmer’s perception of land degradation, extension service and TLU positively significantly affect, while age and off-farm activities have a negative influence adoption of sustainable land management practices. The adoption of Sustainable Land Management practices is to incroprate the farmers best practices to advanced used for reducing erosion, rehabilitate degraded area, ensure food security and, improve fertility. Thus policy maker should take in to consideration the determinant factor affecting adoption of SLM when designing and adoption introducing SLM practices.}, year = {2023} }
TY - JOUR T1 - Factors Affecting the Adoption of Sustainable Land Management Practices in Semen Bench District, Southwest Ethiopia AU - Assen Yesuf Ali AU - Ashebir Mengistu Y1 - 2023/07/06 PY - 2023 N1 - https://doi.org/10.11648/j.ijsdr.20230903.11 DO - 10.11648/j.ijsdr.20230903.11 T2 - International Journal of Sustainable Development Research JF - International Journal of Sustainable Development Research JO - International Journal of Sustainable Development Research SP - 43 EP - 50 PB - Science Publishing Group SN - 2575-1832 UR - https://doi.org/10.11648/j.ijsdr.20230903.11 AB - Land degradation is among the most challenge and continuous environment problem in highland parts Ethiopia. To reverse the problem land degradation has introduced sustainable land management practices. The study was conducted in Semen Bench district, in southwestern Ethiopia to identify factor affecting the adoption of sustainable land management practices. The data were collected through house hold questionnaires survey, key informant interview and focus group discussions. Binary logic regression model was employed in estimated determinant of SLM. The results showed that 92.5% and 7.5% of the household adoption of sustainable land management practice were male and female respectively. The results showed that also sex, farmer’s perception of land degradation, extension service and TLU positively significantly affect, while age and off-farm activities have a negative influence adoption of sustainable land management practices. The adoption of Sustainable Land Management practices is to incroprate the farmers best practices to advanced used for reducing erosion, rehabilitate degraded area, ensure food security and, improve fertility. Thus policy maker should take in to consideration the determinant factor affecting adoption of SLM when designing and adoption introducing SLM practices. VL - 9 IS - 3 ER -