Project Abstract

<p> </p><div>Climate change poses significant challenges to agricultural productivity, particularly in terms of water availability and efficient irrigation practices. This project aims to investigate the impact of agricultural education on farmers' adoption of climate-smart irrigation techniques, with a focus on enhancing water use efficiency and resilience to changing climatic conditions.</div><div>The project will employ a mixed-methods approach, combining quantitative data analysis and qualitative research methods. Initially, a comprehensive literature review will be conducted to gather existing knowledge on climate-smart irrigation techniques, their benefits, and the role of agricultural education in promoting their adoption.</div><div>Quantitative data will be collected through surveys administered to farmers who have undergone agricultural education programs and those who have not. The surveys will assess farmers' knowledge of climate-smart irrigation techniques, their attitudes towards their adoption, and the extent to which they have implemented these techniques on their farms. Additionally, data on water use efficiency and crop productivity will be collected to measure the impact of climate-smart irrigation techniques.</div><div>Qualitative research methods, such as interviews and focus group discussions, will be conducted with a sample of farmers who have adopted climate-smart irrigation techniques. These qualitative data will provide insights into the factors influencing farmers' decision-making processes, the challenges faced in adopting these techniques, and the role of agricultural education in facilitating their adoption.</div><div>The collected data will be analyzed using appropriate statistical techniques and thematic analysis. The findings will be used to assess the impact of agricultural education on farmers' knowledge, attitudes, and adoption of climate-smart irrigation techniques. Additionally, the study will identify the barriers and facilitators of adoption and provide recommendations for improving agricultural education programs to enhance the adoption of climate-smart irrigation techniques.</div><div>The expected outcomes of this project include a better understanding of the impact of agricultural education on farmers' adoption of climate-smart irrigation techniques, insights into the factors influencing adoption decisions, and recommendations for enhancing agricultural education programs. The findings will contribute to the development of evidence-based strategies to improve water use efficiency and enhance agricultural resilience in the face of climate change.</div> <br><p></p>

Project Overview