Farmers experiences of climate information forecast use in Benin, West Africa

Paper Details

Research Paper 08/07/2024
Views (158) Download (25)
current_issue_feature_image
publication_file

Farmers experiences of climate information forecast use in Benin, West Africa

Gérard C. Zoundji, Nestor Alokpaï, Erickson L. S. Zinsou, Florent Okry
J. Bio. Env. Sci.25( 1), 119-127, July 2024.
Certificate: JBES 2024 [Generate Certificate]

Abstract

Climate forecast information is becoming an important alternative for managing climate change. By strengthening farmers’ resilience to adapt to climate change, the program “Communal Approach for the Agricultural Market in Benin – phase 2” (ACMA2) in partnership with the company Ignitia, provided weather information to farmers by SMS. This study seeks to understand farmers’ experiences on the use of climate information forecast in the municipality of Dassa-Zoumè, which is one of the intervention areas of the ACMA2 program. Data were collected from 180 randomly selected farmers (120 Ignitia users and 60 non-Ignitia users). With the data from focus group discussions and structured questionnaire, we performed descriptive statistics and used the two-sample t-test to compare the crop yields between Ignitia users and non-Ignitia users. All respondents perceived climate change as a risk which affected crop yield (85%), crop failure (80%), soil poverty (76%), pest and disease outbreaks (64%). Farmers relied on the climate information forecast through Ignitia SMS service, informal network, local radio and extension workers to adjust their farming activities. Results also showed that Ignitia farmers recorded higher yields than non-Ignitia farmers, with a difference of 30% for peppers, 22% for maize, 20% for soybeans, 17% for peanuts and 13% for cassava. The two-sample t-test is significant (P≤0.001) and shows that the use of climate forecast information has a positive impact on the crop yields. Facilitating farmers access to climate information can help them to make informed decisions to better manage climate risks.

VIEWS 48

Aho N, Aho S, Agbokou I, Kaffo BA, Seni S, Loconon DZ. 2018. Introduction to resilience to climate change in West Africa: Directory of predetermined rainy season dates in the villages and neighborhoods of Benin. Ministry of Energy, Water, and Mines-UNDP Benin, Cotonou.

Amegnaglo CJ, Mensah-Bonsu A, Anaman KA. 2022. Use and economic benefits of indigenous seasonal climate forecasts: evidence from Benin, West Africa. Climate and Development 14(10), 909-920.

Awolala DO, Mutemi J, Adefisan E, Antwi-Agyei P, Taylor A. 2022. Profiling user needs for weather and climate information in fostering drought risk preparedness in Central-Southern Nigeria. Frontiers in Climate 4, 787605.

Fadairo O, Williams PA, Nalwanga FS. 2020. Perceived livelihood impacts and adaptation of vegetable farmers to climate variability and change in selected sites from Ghana, Uganda, and Nigeria. Environment, Development and Sustainability 22, 6831-6849.

Greenbaum TL. 1999. Moderating focus groups: A practical guide for group facilitation. Sage Publications.

Hansen JW, Vaughan C, Kagabo DM, Dinku T, Carr ER, Körner J, Zougmoré RB. 2019. Climate services can support African farmers’ context-specific adaptation needs at scale. Frontiers in Sustainable Food Systems 3, 21.

IPCC. 2022. Summary for Policymakers. In: Pörtner HO, Roberts DC, Poloczanska ES, Mintenbeck K, Tignor M, Alegría A, Okem A. (Eds). Climate Change 2022: Impacts, Adaptation, and Vulnerability. Report of the Intergovernmental Panel on Climate Change (IPCC), Cambridge University Press, Cambridge, UK and New York, NY, USA, 3-33. DOI: 10.1017/9781009325844.001.

Sagna P, Dipama JM, Vissin EW, Diomandé BI, Diop C, Chabi PAB, Yade M. 2021. Climate change and water resources in West Africa: a case study of Ivory Coast, Benin, Burkina Faso, and Senegal. Climate Change and Water Resources in Africa: Perspectives and Solutions Towards an Imminent Water Crisis, 55-86.

Jacquemot P. 2023. From insecurity to food sovereignty in Africa (Doctoral dissertation, Willagri-UM6P).

Machingura F, Nyamwanza A, Hulme D, Stuart E. 2018. Climate information services, integrated knowledge systems and the 2030 Agenda for Sustainable Development. Sustainable Earth 1(1), 1-7.

Marie M, Yirga F, Haile M, Tquabo F. 2020. Farmers’ choices and factors affecting adoption of climate change adaptation strategies: evidence from northwestern Ethiopia. Heliyon 6(4), e03867.

Matere S, Busienei JR, Irungu P, Ernest Mbatia OL, Nandokha T, Kwena K. 2023. Do farmers use climate information in adaptation decisions? case of smallholders in semi-arid Kenya. Information Development, 026666692311525. DOI: 10.1177/02666669231152568.

MCVDD. 2022. National adaptation plan to climate change of Benin. Ministry of Living Environment and Sustainable Development (MCVDD), Directorate General of Environment and Climate (DGEC), Cotonou, Benin, 1-175.

Muema E, Mburu J, Coulibaly J, Mutune J. 2018. Determinants of access and utilization of seasonal climate information services among smallholder farmers in Makueni County, Kenya. Heliyon 4(11), e01049.

Ncoyini Z, Savage MJ, Strydom S. 2022. Limited access and use of climate information by small-scale sugarcane farmers in South Africa: A case study. Climate Services 26, 100285.

Nkiaka E, Taylor A, Dougill AJ, Antwi-Agyei P, Fournier N, Bosire EN, Warnaars T. 2019. Identifying user needs for weather and climate services to enhance resilience to climate shocks in sub-Saharan Africa. Environmental Research Letters 14(12), 123003.

Onyeneke CJ, Umeh GN, Onyeneke RU. 2022. Impact of climate information services on crop yield in Ebonyi state, Nigeria. Climate 11(1), 7.

Onyeneke RU, Osuji EE, Anugwa IQ, Chidiebere-Mark NM. 2024. Impacts of biocapacity, climate change, food vulnerability, readiness and adaptive capacity on cereal crops yield: Evidence from Africa. Environment, Development and Sustainability 26(5), 11979-12003.

Reveco-Umaña C. 2023. Exploring the use of climate information as practice. Climate Services 30, 100396.

Sanjek R. 2000. Keeping ethnography alive in an urbanizing world. Human Organization 59, 280-288.

Sarku R, Appiah DO, Adiku P, Alare RS, Dotsey S. 2021. Digital platforms in climate information service delivery for farming in Ghana. In African handbook of climate change adaptation (pp. 1247-1277). Cham: Springer International Publishing.

Sen LTH, Bond J, Dung NT, Hung HG, Mai NTH, Phuong HTA. 2021. Farmers’ barriers to the access and use of climate information in the mountainous regions of Thừa Thiên Huế province, Vietnam. Climate Services 24, 100267.

Shimeles A, Verdier-Chouchane A, Boly A. 2018. Introduction: understanding the challenges of the agricultural sector in Sub-Saharan Africa. Building a resilient and sustainable agriculture in sub-Saharan Africa, 1-12.

Singh C, Daron J, Bazaz A, Ziervogel G, Spear D, Krishnaswamy J, Kituyi E. 2018. The utility of weather and climate information for adaptation decision-making: current uses and future prospects in Africa and India. Climate and Development 10(5), 389-405.

Sorvali J, Kaseva J, Peltonen-Sainio P. 2021. Farmer views on climate change: a longitudinal study of threats, opportunities and action. Climatic Change 164, 1-19.

Tall A, Coulibaly JY, Diop M. 2018. Do climate services make a difference? A review of evaluation methodologies and practices to assess the value of climate information services for farmers: Implications for Africa. Climate Services 11, 1-12.

Tamirat TW, Pedersen SM, Lind KM. 2018. Farm and operator characteristics affecting adoption of precision agriculture in Denmark and Germany. Acta Agriculturae Scandinavica, Section B Soil & Plant Science 68(4), 349-357.

WMO. 2021. State of the climate in Africa 2020. WMO-No. 1275. World Meteorological Organization. Geneva, Switzerland.

World Bank. 2023. Digital Climate Information and Agriculture Advisory Delivery Mechanisms in West Africa. Washington, D.C.: The World Bank.

Zorrilla-Miras P, Lisboa SN, López-Gunn E, Giordano R. 2024. Farmers’ information sharing for climate change adaptation in Mozambique. Information Development, 02666669241227910.

Zoundji GC, Witteveen LM, Vodouhe S, Lie R. 2017. When baobab flowers and rainmakers define the season: Farmers’ perceptions and adaptation strategies to climate change in West Africa. The International Journal of Plant, Animal and Environmental Sciences 7(2), 8-21.