Affiliation:
1. Department of Applied Economics, School of Economics, University of Cape Coast, Cape Coast CC-192-2031, Ghana
2. Institute of Oil and Gas, University of Cape Coast, Cape Coast CC-192-2031, Ghana
Abstract
Energy transition and the creation of sustainable jobs are major concerns towards achieving Sustainable Development Goals (SDGs) 7 and 13, particularly in emerging petroleum-producing economies such as Ghana. Our study examines Ghana’s sectorial employment vulnerability to the dynamics of energy transition. Employing a dynamic ARDL simulation model, we use quarterly data from 2011 to 2021 from Ghana’s Energy Commission, the Bank of Ghana, and the Public Interest and Accounting Committee. We find that transition scenarios increase industrial sector employment. Also, industrial sector employment changes more favorably under the 5% scenario than under the 1% scenario. Agriculture industry employment is positively impacted by the 1% energy transition scenarios but negatively impacted by the 5% scenarios. Up to the sixth year, both transition scenarios increase employment in the services sector; however, employment opportunities are more affected by the 1% scenario than by the 5% scenario. Therefore, developing a policy architecture that aids Ghana’s transition to renewable energy is essential.
Reference61 articles.
1. Energy intensity among European Union countries: The role of renewable energy, income and trade;Gyamfi;Int. J. Energy Sect. Manag.,2023
2. Climate change increases cross-species viral transmission risk;Carlson;Nature,2022
3. Food and Agriculture Organization of the United Nations (FAO) (2021). The State of Food Security and Nutrition in the World 2021: Transforming Food Systems for Food Security, Improved Nutrition and Affordable Healthy Diets for All, FAO.
4. Renewable energy, economic growth, and CO2 emissions contained Co-movement in African oil-producing countries: A wavelet-based analysis;Abban;Energy Strategy Rev.,2022
5. The relationship between renewable energy consumption, technological innovations, and carbon dioxide emission: Evidence from two-step system GMM;Jiang;Environ. Sci. Pollut. Res.,2023
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