Determinant of farmers’ participation and biodiversity status in the program of agroforestry rehabilitation in Sudan

MOHAMED  HEMIDA; BUDI  MULYANA; ANDREA  VITYI

doi:10.13057/biodiv/d231113

PDF

DOI https://doi.org/10.13057/biodiv/d231113

Issue

Vol. 23 No. 11 (2022)

Section

Articles

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

MOHAMED HEMIDA

Faculty of Faculty of Forestry, University of Sopron, Bajcsy-Zsilinszky ut. 4, Sopron, 9400, Hungary

BUDI MULYANA ♥

Faculty of Faculty of Forestry, University of Sopron, Bajcsy-Zsilinszky ut. 4, Sopron, 9400, Hungary

ANDREA VITYI

Faculty of Faculty of Forestry, University of Sopron, Bajcsy-Zsilinszky ut. 4, Sopron, 9400, Hungary

Abstract

Abstract. Hemida M, Mulyana B, Vityi A. 2022. Determinant of farmers’ participation and biodiversity status in the program of agroforestry rehabilitation in Sudan. Biodiversitas 23: 5638-5645. The agroforestry Rehabilitation Program (ARP) was launched in Nabag Reserve Forest (NRF), Sudan, to rehabilitate the forest cover and improve livelihoods for communities around the forest. To enhance the efficacy of such rehabilitation programs, it is crucial to understand the impact of various factors on community perception of participation in forest rehabilitation. The objectives of this study were to (i) examine the factors that influence farmers’ perceptions of their involvement in the program and (ii) assess the biodiversity of trees and crop species in the program. Data was gathered through a survey that included personal interviews with 200 farmers who participated in the program. A total of 250 circular sample plots were established randomly to achieve the second objective. The results showed that extension services, farming experience, family members, educational level, land size, and gum Arabic production positively influence farmers’ perceptions. The study findings identified nine tree species and five crop species in NRF. The dominant tree species were Acacia senegal and Balanites aegyptiaca which represented 62.8% and 12.4 % of the total species, respectively. At the same time, groundnut and watermelon were identified as favorite crops cultivated by farmers. Furthermore, the non-rehabilitated area has shown better value in richness, heterogeneity, and evenness than the rehabilitated areas.

References

Abdalla EA, Osman AK, Maki MA, Nur FM, Ali SB, Aune JB. 2015. The response of sorghum, groundnut, sesame, and cowpea to seed priming and fertilizer micro-dosing in South Kordofan State, Sudan. Agronomy 5(4): 476-490.

Abdoun SOM. 2020. Incentives for Reforestation and Forest’s Plantations Option, under the National Strategy of REDD+ Program in Sudan. Advan in Ecol and Environ Research 02:53-85

Adam YO, Bello ARS. 2017. Relationship between local ecological knowledge and natural resources trade in Sudan. Intern J Dev Sustain 6(7):385–398

Adeoye IA, Ajewole OI, Agbeja BO. 2015. Assessment of socio-economic impact of taungya planta-tion system in oluwa forest reserve, Ondo State, Nigeria. J Appl Trop Agric20(2): 32-39

Admasu TG, Jenberu AA. 2022. The Impacts of Apple-based Agroforestry Practices on the Livelihoods of Smallholder Farmers in Southern Ethiopia. Trees Forest and People 7:100205. https://doi.org/10.1016/j.tfp.2022.100205

Akinwalere B. 2016. Agroforestry Practices among Farmers in South West Nigeria: An Analysis of Benefits. Asian J Agric Ext, Econ & Socio 10(2):1–9.

Badri S. 2012. Sudan Environmental Threats and Opportunities Assessment with Special Focus on Biological Diversity and Tropical Forest. Management Systems International, USAID/Sudan Integrated StrategicPlan (ISP)

Basamba TA, Mayanja C, Kiiza B. Nakileza B. Matsiko F, Nyende P, Ssekabira K. 2016. Enhancing adoption of agroforestry in the eastern agro ecological zone of Uganda. Inter J Ecol Sci Envi Eng 3:20–31.

Beshir M, Tadesse M, Yimer F, Brüggemann N. 2022. Factors Affecting Adoption and Intensity of Use of Tef-Acacia decurrens-Charcoal Production Agroforestry System in Northwestern Ethiopia. Sustainability 14(8): 4751. https://doi.org/10.3390/su14084751

Biro K, Pradhan B, Buchroithner M, Makeschin F. 2013. Land Use/Land Cover Change Analysis And Its Impact On Soil Properties In The Northern Part Of Gadarif Region, Sudan. Land Degra and Dev 24(1): 90–102. https://doi.org/10.1002/ldr.1116

Buckingham K, DeWitt S. Laestadius L. 2016. The global restoration initiative, in I. Chabay, M. Frick and J. Helgeson (eds), Land restoration: Reclaiming landscapes for a sustainable future. Atlanta: Elsevier 483–496

Catacutan D, Naz F. 2015. Gender roles, decision-making and challenges to agroforestry adoption in Northwest Vietnam. Inter Fores Rev 17(4):22–32. https://doi.org/10.1505/146554815816086381

Diawuo F, Kosoe EA, Doke DA. 2019. Participation of women farmers in agroforestry practices in the Jaman South Municipality, Ghana. Ghana J Dev Stud16(2):267–289. https://doi.org/10.4314/gjds.v16i2.13

El Tahir BA. 2015. Climate Change Adaptation through Sustainable Forest Management in Sudan: Needs to Qualify Agroforestry Application. Sudan Acad Sci J 11:162–185.

Fadl KEM. 2015. Balanites Aegyptiaca (L.): A Multipurpose Fruit Tree in Savanna Zone Of Western Sudan. In J Env 4(1):197–203. https://doi.org/10.3126/ije.v4i1.12188

Fahmi MKM, Dafa-Alla DAM, Kanninen M, Luukkanen O. 2018. Impact of agroforestry parklands on crop yield and income generation: case study of rainfed farming in the semi-arid zone of Sudan. Agrofor Syst 92(3): 785–800. https://doi.org/10.1007/s10457-016-0048-3

Fakkhong S, Suwanmaneepong S, Mankeb P. 2016. Farmer’s Perceptions towards Economic Sustainability of Rice Farming in Peri-Urban Area, Bangkok, Thailand. Int J Agric Tech 12(7.2):1759–1772.

FAO. 2020. Global Forest Resources Assessment: Main report. Rome. https://doi.org/10.4060/ca9825en

Fekadu A, Soromessa T, Dullo BW. 2021. Role of forest provisioning services to local livelihoods: based on relative forest income (RFI) approach in southwest Ethiopia coffee forest. Env Syst Rese 10(1). https://doi.org/10.1186/s40068-021-00223-7

Galabuzi C, Agaba H, Eilu G. 2021. Farmers’ Perceptions, Socio?economic and Political Stakes: What Inspires the Integration of Prunus africana On?Farms in Central Uganda? Small-scale Forestry 20(3):371–389. https://doi.org/10.1007/s11842-021-09472-x

Gebru BM, Wang SW, Kim SJ, Lee, WK. 2019. Socio-ecological niche and factors affecting agroforestry practice adoption in different agroecologies of southern Tigray, Ethiopia. Sustainability 11(13):3729.

Hasoba AMM, Siddig AAH, Yagoub YE. 2020. Exploring tree diversity and stand structure of savanna woodlands in southeastern Sudan. J Arid Land 12(4): 609–617. https://doi.org/10.1007/s40333-020-0076-8

Humphrey A, Adamba MK, Koros H, Mulinya C, Kawawa R. 2016. PELIS Forestry Programme as a Strategy for Increasing Forest Cover and Improving Community Livelihoods: Case of Malava Forest, Western Kenya. American J Agric and Fores. 128-135. https://doi: 10.11648/j.ajaf.20160405.13

Jahan H, Rahman MW, Islam MS, Rezwan-Al-Ramim A, Tuhin MMUJ, Hossain ME. 2022. Adoption of agroforestry practices in Bangladesh as a climate change mitigation option: Investment, drivers, and SWOT analysis perspectives. Envi Chall 7:100509. https://doi.org/10.1016/j.envc.2022.100509

Kabir MH, Rainis R. 2012. Farmers’ perception on the adverse effects of pesticides on environment: The Case of Bangladesh. Int J Sust Agric 4(2): 25–32. https://doi.org/10.5829/idosi.ijsa.2012.04.02.23

Keenan RJ, Reams GA, Achard F, de Freitas JV, Grainger A, Lindquist E. 2015. Dynamics of global forest area: Results from the FAO Global Forest Resources Assessment 2015. Forest Eco Manag 352: 9–20. https://doi.org/10.1016/j.foreco.2015.06.014

Landicho LD, Ocampo MTNP, Cabahug RED, Abadillos MG, Cosico RSA, Castillo AKA, Ramirez MAJP, Laruan, KA. 2021. Local knowledge and practice towards ecological restoration of a selected landscape in Atok, Benguet, Philippines. Biodiversitas 22(7): 2785-2794. https://doi.org/10.13057/biodiv/d220728

Lelamo LL. 2021. A review on the indigenous multipurpose agroforestry tree species in Ethiopia: management, their productive and service roles and constraints. Heliyon, 7: e07874. https://doi.org/10.1016/j.heliyon.2021.e07874

Mahmood MI, Zubair M. 2020. Farmer’s perception of and factors influencing agroforestry practices in the Indus River Basin, Pakistan. Small-scale Forestry 19(1):107–122. https://doi.org/10.1007/s11842-020-09434-9

Majbar Z, El Madani FZ, Khalis M, Lahlou K, Ben Abbou M, Majbar EB, Bourhia M, AL-Huqail AA, El Askary A, Khalifa AS, Ouahmane L. 2021. Farmers’ Perceptions and Willingness of Compost Production and Use to Contribute to Environmental Sustainability. Sustainability13(23):13335. https://doi.org/10.3390/su1323133

Maswadi M, Oktoriana S, Suharyani A. 2018. The effect of farmer characteristics on perceptions of the fermented cocoa beans technology in Bengkayang Regency, West Kalimantan. AGRITROPICA: J Agric Sci 1(2):85–92. https://doi.org/10.31186/J.Agritropica.1.2.85-92

Meijer SS, Catacutan D, Ajayi OC, Sileshi GW, Nieuwenhuis M. 2015. The role of knowledge, attitudes and perceptions in the uptake of agricultural and agroforestry innovations among smallholder farmers in sub-Saharan Africa. Int J of Agric Sust 13(1):40–54. https://doi.org/10.1080/14735903.2014.912493

Moges DM, Taye AA. 2017. Determinants of farmers’ perception to invest in soil and water conservation technologies in the North-Western Highlands of Ethiopia. Int Soil Water Conser Res 5(1):56–61. https://doi.org/10.1016/j.iswcr.2017.02.003

Mohammed MH, Hamad SA, Adam HE. 2016. Assessment of vegetation cover status in dry lands of the Sudan using social and terrestrial data. Jurnal Ilmu Kehutanan 10(2): 77-85. https://doi.org/10.22146/jik16508

Mohammed EMI, Hasan TT, Idris EA, Abdel-Magid TD. 2021a. Tree population structure diversity, regeneration status, and potential disturbance in Abu Gadaf natural reserved forest, Sudan. Env Callen 5: 100366. https://doi.org/10.1016/j.envc.2021.100366

Mohammed EMI, Elhag AMH, Ndakidemi PA, Treydte AC. 2021b. Anthropogenic pressure on tree species diversity, composition, and growth of Balanites aegyptiaca in Dinder Biosphere Reserve, Sudan. Plants 10(3): 1-18. https://doi.org/plants10030483

Mohammed EM, Hamid EA, Ndakidemi PA, Treydte AC. 2022. The stocking density and regeneration status of Balanites aegyptiaca in Dinder Biosphere Reserve, Sudan. Trees, Forests and People 1:8-00259. https://doi.org/10.1016/j.tfp.2022.100259

Mohamedain MS, Csaplovics E, Mohamed AA, Mohamed AD. 2012. Estimation of Forest Variables using Remote Sensing and GIS: Case Study of Nabag Forest-South Kordofan, Sudan. J Agric Soci Sci 8:62–64.

Mwangi M, Kariuki S. 2015. Factors determining adoption of new agricultural technology by smallholder farmers in developing countries. J Econ Sust Dev 6(5):208–216

Mwendwa BA, Kaaya OE, Kilawe CJ, Treydte AC. 2020. Spatio-temporal invasion dynamics of Maesopsis eminii in Amani Nature Forest Reserve, Tanzania. Forest Eco Manag 465: 118102.

Mwaura GG, Kiboi MN, Mugwe JN, Nicolay G, Bett EK, Muriuki A, Ngetich FK. 2021. Economic evaluation and socioeconomic drivers influencing farmers’ perceptions on benefits of using organic inputs technologies in Upper Eastern Kenya. Env Challen 5:100282. https://doi.org/10.1016/j.envc.2021.100282

Ntshangase NL, Muroyiwa B, Sibanda M. 2018. Farmers’ perceptions and factors influencing the adoption of no-till conservation agriculture by small-scale farmers in Zashuke, KwaZulu-Natal Province. Sustainability 10(2): 555. https://doi.org/10.3390/su10020555

Nyamweya JM, Moronge J. 2019. Some socio-economic drivers of agroforestry adoption in Temiyotta Location, Nakuru County, Kenya. J Sust, Env Peace 2(1):9–14.

Oo SP, Usami, K. 2020. Farmers’ perception of good agricultural practices in rice production in Myanmar: A case study of Myaungmya District, Ayeyarwady Region. Agric 10(7):249. https://doi.org/10.3390/agriculture10070249

Saha S, Sharmin A, Biswas R, Ashaduzzaman M. 2018. Farmers’ Perception and Adoption of Agroforestry Practices in Faridpur District of Bangladesh. Int J Env, Agric Biotech 3(6):1987–1994. https://doi.org/10.22161/ijeab/3.6.5

Sanz MJ, de Vente J, Chotte JL, Bernoux M, Kust G, Ruiz I, Almagro M, Alloza JA, Vallejo R, Castillo V, Hebel A, Akhtar-Schuster M. 2017. Sustainable Land Management contribution to successful land-based climate change adaptation and mitigation. A Report of the Science-Policy Interface. United Nations Convention to Combat Desertification (UNCCD), Bonn, Germany

Sharma P, Thapa RB, Matin MA. 2020. Examining forest cover change and deforestation drivers in Taunggyi District, Shan State, Myanmar. Env, Dev Sust 22(6): 5521–5538. https://doi.org/10.1007/s10668-019-00436-y

Sharmin A, Hossain M, Mollick AS. 2021. Farmers’ Perceptions and Attitudes Toward Aquasilviculture in the Periphery of the Sundarbans Forest of Bangladesh. Small-scale Forestry 20(3):391– 405. https://doi.org/10.1007/s11842-021-09473-w

Tatlidil FF, Boz I, Tatlidil H. 2009. Farmers’ perception of sustainable agriculture and its determinants: a case study in Kahramanmaras province of Turkey. Env Dev Sust 11(6):1091–1106. https://doi.org/10.1007/s10668-008-9168-x

Tey YS, Brindal M. 2012. Factors influencing the adoption of precision agricultural technologies: a review for policy implications. Precision Agric 13(6):713–730. https://doi.org/10.1007/s11119-012-9273-6

Thompson NM, Bir C, Widmar DA, Mintert JR. 2019. Farmer perceptions of precision agriculture technology benefits. J Agric Appl Econ 51(1):142–163. https://doi.org/10.1017/aae.2018.27

Tokede AM, Banjo AA, Ahmad AO, Fatoki OA, Akanni OF 2020. Farmers’ knowledge and attitude towards the adoption of agroforestry practices in Akinyele Local Government Area, Ibadan, Nigeria. J Appl Sci Envi Manag 24(10):1775–1780. https://doi.org/10.4314/jasem.v24i10.10

Yasin EHE, Mulyana B. 2022. Spatial distribution of tree species composition and carbon stock in Tozi tropical dry forest, Sinnar State, Sudan. Biodiversitas 23(5): 2359-2368. https://doi.org/10.13057/biodiv/d230513

Younis AYI, Jonathan BI, Togun AO, Yasin, EHE, Omer SO, Hamad GEAI, Aissata SD. 2022. Assessment of land use and land cover change on Gum Talha (Acacia seyal var. seyal) forest in Bahar Alarab, Sudan. Biodiversitas 23(9): 4549-4560. https://doi.org/10.13057/biodiv/d230922

##plugins.themes.bootstrap3.article.sidebar##

##plugins.themes.bootstrap3.article.main##

Abstract

##plugins.themes.bootstrap3.article.details##

Most read articles by the same author(s)