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Socio-Ecological Niche and Factors Affecting Agroforestry Practice Adoption in Different Agroecologies of Southern Tigray, Ethiopia

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  • Belay Manjur Gebru

    (Division of Environmental Science and Ecological Engineering, College of Life Sciences, Korea University, Seoul 02841, Korea
    Ethiopian Environment and Forest Research Institute, Mekelle Environment and Forest Research Centre, Mekelle 4012, Ethiopia)

  • Sonam Wangyel Wang

    (Division of Environmental Science and Ecological Engineering, College of Life Sciences, Korea University, Seoul 02841, Korea)

  • Sea Jin Kim

    (Division of Environmental Science and Ecological Engineering, College of Life Sciences, Korea University, Seoul 02841, Korea)

  • Woo-Kyun Lee

    (Division of Environmental Science and Ecological Engineering, College of Life Sciences, Korea University, Seoul 02841, Korea)

Abstract

This study was carried out in the southern zone of Tigray to identify and characterize traditional common agroforestry practices and understand the existing knowledge of farm households on the management of trees under different agroforestry in different agroecologies. We conducted reconnaissance and diagnostic surveys by systematically and randomly selecting 147 farming households in the three agroecologies of the study area. A logit regression model was employed to determine how these factors influence farmers’ adoption decision. The findings indicate that a majority of the households (46.3%) were engaged in homestead agroforestry practices (AFP), followed by live fence (25.9%) and farmland or parkland (15%) agroforestry practices. The study identified Carica papaya, Malus domestic, Persea americana, Mangifera indica, Ziziphus spina-christi , and Balanites aegyptiaca as the most dominant fruit tree species found in the home garden agroforestry. In total, 68% of the households had some of these fruit trees around their home gardens. We also established the three most dominant agricultural production systems as: i) Agricultural production system, composed of fruit tree + cereal crops + Ziziphus spina-christi + Balanites aegyptiaca and/or acacia species; ii) agricultural production system, consisting of cash crops, like Coffee arabica and Catha edulies + fruit trees + Cordia africana + Balanites aegyptiaca and/or acacia species; and iii) agricultural production, composed of fruit trees + vegetables within a boundary of Sesbania sesban and other acacia species in the modern irrigated land. Furthermore, 90.16% of the households in the highlands reported a shortage of farmland for planting trees as the main constraint. About 34.44% farmers reported using leaves of Cordia africana, Balanites aegyptiaca , pods of acacia species, and crop residue as the main source of animal fodder. In total, 86.4% of the households also recognized the importance of multipurpose trees for soil fertility enhancement, control of runoff, microclimate amelioration, environmental protection, and dry season animal fodder. According to the logit model analysis, sex, family size, educational level, and landholding significantly ( p < 0.05) influence the household’s role in the adoption of agroforestry practices. Based on these findings, farmers used different adaptation strategies, such as planting of multi-purpose trees (34.7%), conservation tillage to minimize both erosion and runoff potentials as soil conservation strategies (27.2%), varying planting dates, use of drought tolerant crop varieties (16.3%), and others based on farmers’ indigenous knowledge passed down from generation to generation. We conclude that agroforestry practices are important components of farming systems in Tigray, resulting in diversified products and ecological benefits that improve socio-ecological resilience. Therefore, we recommend that agroforestry practices are mainstreamed into development plans, especially in agriculture.

Suggested Citation

  • Belay Manjur Gebru & Sonam Wangyel Wang & Sea Jin Kim & Woo-Kyun Lee, 2019. "Socio-Ecological Niche and Factors Affecting Agroforestry Practice Adoption in Different Agroecologies of Southern Tigray, Ethiopia," Sustainability, MDPI, vol. 11(13), pages 1-19, July.
    • Handle: RePEc:gam:jsusta:v:11:y:2019:i:13:p:3729-:d:246625
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    References listed on IDEAS

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    2. Ayelech Kidie Mengesha & Reinfried Mansberger & Doris Damyanovic & Gernot Stoeglehner, 2019. "Impact of Land Certification on Sustainable Land Use Practices: Case of Gozamin District, Ethiopia," Sustainability, MDPI, vol. 11(20), pages 1-21, October.
    3. Jha, Srijna & Kaechele, Harald & Sieber, Stefan, 2021. "Factors influencing the adoption of agroforestry by smallholder farmer households in Tanzania: Case studies from Morogoro and Dodoma," Land Use Policy, Elsevier, vol. 103(C).
    4. Beatrice Nöldeke & Etti Winter & Yves Laumonier & Trifosa Simamora, 2021. "Simulating Agroforestry Adoption in Rural Indonesia: The Potential of Trees on Farms for Livelihoods and Environment," Land, MDPI, vol. 10(4), pages 1-31, April.
    5. Hongyu Wang & Xiaolei Wang & Apurbo Sarkar & Fuhong Zhang, 2021. "How Capital Endowment and Ecological Cognition Affect Environment-Friendly Technology Adoption: A Case of Apple Farmers of Shandong Province, China," IJERPH, MDPI, vol. 18(14), pages 1-16, July.
    6. Mohamed Ghali & Maha Ben Jaballah & Nejla Ben Arfa & Annie Sigwalt, 2022. "Analysis of factors that influence adoption of agroecological practices in viticulture," Review of Agricultural, Food and Environmental Studies, Springer, vol. 103(3), pages 179-209, September.
    7. Shahzad Ahmad & Haiping Xu & E. M. B. P. Ekanayake, 2023. "Socioeconomic Determinants and Perceptions of Smallholder Farmers towards Agroforestry Adoption in Northern Irrigated Plain, Pakistan," Land, MDPI, vol. 12(4), pages 1-25, April.
    8. Noeldeke, Beatrice & Winter, Etti & Ntawuhiganayo, Elisée Bahati, 2022. "Representing human decision-making in agent-based simulation models: Agroforestry adoption in rural Rwanda," Ecological Economics, Elsevier, vol. 200(C).
    9. Xing Luo & Kangning Xiong & Juan Zhang & Dong Chen, 2021. "A Study on Optimal Agroforestry Planting Patterns in the Buffer Zone of World Natural Heritage Sites," Sustainability, MDPI, vol. 13(20), pages 1-16, October.

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