Page 184 - AJWEP-22-4
P. 184
Deresse, et al.
Systems in Rwanda: A Multiple-Scale Analysis. [Thesis]; doi: 10.1016/j.envsoft.2019.104532
2018. Available from: https://www.researchgate.net/ 32. Belay M, Assen M. Land suitability evaluation for
publication/325615794_optimizing_arabica_coffee_ cereals and coffee in Cheleleka Bobe (Wolonkomi area):
production_systems_in_rwanda [Last accessed on 2024 Ethiopia. In: Agricultural Soil Sustainability and Carbon
Jul 22]. Management. Netherlands: Elsevier; 2023. p. 181-206.
19. Rono F, Mundia C. GIS based suitability analysis 33. Nagashree MK, Trivedi S, Mukharib DS, Hebbar R,
for coffee farming in Kenya. Int J Geomat Geosci. Srivastav SK, Chauhan P. Earth observation based
2016;6(3):12. mapping and site-suitability analysis of coffee agro-
20. Debesa G, Gebre SL, Melese A Regassa A, Teka S. GIS and ecosystem in the face of climate change. In: Sustainable
remote sensing-based physical land suitability analysis Development Perspectives in Earth Observation.
for major cereal crops in Dabo Hana district, South-West Netherlands: Elsevier; 2025. p. 269-285.
Ethiopia. Cogent Food Agric. 2020;6(1):1-20. 34. Hailu BT, Siljander M, Maeda EE, Pellikka P. Assessing
doi: 10.1080/23311932.2020.1780100 spatial distribution of Coffea arabica L. in Ethiopia’s
21. Fekadu A, Andarege B. Gis and parametric based highlands using species distribution models and
coffee site suitability zonation in North Shewa zone of geospatial analysis methods. Ecol Inform. 2017;42:79-89.
Oromia region, central Ethiopia. Environ Sustain Indic. doi: 10.1016/j.ecoinf.2017.10.001
2025;26:100674. 35. Saleem N, Huq ME, Twumasi NYD, Javed A, Sajjad A.
doi: 10.1016/j.indic.2025.100674 Parameters derived from and/or used with digital
22. Malek Ž, Verburg PH. Mapping global patterns of elevation models (DEMs) for landslide susceptibility
land use decision-making. Global Environ Change. mapping and landslide risk assessment: A review. ISPRS
2020;65:102170. Int J Geo-Inform. 2019;8(12):545.
doi: 10.1016/j.gloenvcha.2020.102170 doi: 10.3390/ijgi8120545
23. Gratzer K, Wakjira K, Fiedler S, Brodschneider R. 36. Yohannes H, Soromessa T. Land suitability assessment
Challenges and perspectives for beekeeping in Ethiopia. for major crops by using GIS-based multi-criteria
A review. Agron Sustain Dev. 2021;41(4):46. approach in Andit Tid watershed, Ethiopia. Cogent Food
doi: 10.1007/s13593-021-00702-2 Agric. 2018;4(1):1470481.
24. Abdisa Gemmechis W, Biru Leta D, Danisa Bunda H. doi: 10.1080/23311932.2018.1470481
Flood hazard and risk area identification: A case of 37. Eggen M, Ozdogan M, Zaitchik BF, Simane B. Land
gelana river Watershed, Southern Ethiopia. Int J Environ cover classification in complex and fragmented
Monit Anal. 2023;11(1):1-14. agricultural landscapes of the Ethiopian highlands.
doi: 10.11648/j.ijema.20231101.11 Remote Sens. 2016;8(12):1020.
25. CSA. The Federal Democratic Republic of Ethiopia doi: 10.3390/rs8121020
Central Statistical Agency Key Findings on the 2018 38. Sachs J, Cordes K, Rising J, Toledano P, Maennling N.
Urban Employment Unemployment Survey; 2018. Ensuring economic viability and sustainability of coffee
26. Creswell J, Clark VP. Ch. 3. Choosing a mixed methods production. SSRN Electron J [Preprint]; 2019.
design. In: Designing and Conducting Mixed Methods doi: 10.2139/ssrn.3660936
Research. USA: Sage Publications; 2007. p. 53-106. 39. Ageze M, Alebachew M, Awoke BG, Tikuneh DB.
27. Yamane T. Taro Yamane Sample Size. 2 ed. Harper and Results of Agricultural Engineering (Issue May). Addis
nd
Row. New York; 1967. p. 39. Ababa, Ethiopia: Ethiopian Institute of Agricultural
28. Saaty TL. The analytic hierarchy process (AHP). J Oper Research (EIAR); 2024.
Res Soc. 1980;41(11):1073-1076. 40. Negassa MD, Mallie DT, Gemeda DO. Forest cover
29. Akpoti K, Kabo-Bah AT, Zwart S. Agricultural land change detection using Geographic Information Systems
suitability analysis: State-of-the-art and outlooks for and remote sensing techniques: A spatio-temporal study
integration of climate change analysis. Agric Syst. on Komto Protected forest priority area, East Wollega
2019;173:172. Zone, Ethiopia. Environ Syst Res. 2020;9(1):1-14.
doi: 10.1016/j.agsy.2019.02.013 doi: 10.1186/s40068-020-0163-z
30. Verheye W, Koohafkan AP, Nachtergaele F. The FAO 41. Rwanga SS, Ndambuki JM. Accuracy assessment of land
guidelines for land evaluation. In: Encyclopedia of Land use/land cover classification using remote sensing and
Use, Land Cover and Soil Sciences: Land Evaluation. GIS. Int J Geosci. 2017;8(4):611-622.
Vol. 2. 2009. p. 78-100. doi: 10.4236/ijg.2017.84033
31. Torres MN, Fontecha JE, Zhu Z, Walteros JL, 42. Foody G. Harshness in image classification accuracy
Rodríguez JP. A participatory approach based on assessment. Int J Remote Sens. 2008;29(11):3137-3158.
stochastic optimization for the spatial allocation of doi: 10.1080/01431160701442120
Sustainable Urban Drainage Systems for rainwater 43. López RS, Fernández DG, Silva López JO, et al. Land
harvesting. Environ Model Softw. 2020;123:104532. suitability for coffee (Coffea arabica) growing in
Volume 22 Issue 4 (2025) 176 doi: 10.36922/AJWEP025190143
