This brief presentation presents the main challanges, issues and oportunities regarding the implementation of climate smart agriculture. The presentation is divided by three main topics: Climate Change and CSA; Why CSA Challenges in scaling up CSA options and Opportunities for catalysing upscaling CSA
This presentantion discuss about the project "Catalysing actionable knowledge to implement climate-smart solutions for next-generation ACP agriculture". The presentation starts talking about the challenged and possible solutions, after discuss about the project approach and framework, present the partners of the project and make a review about the outcomes and lessons learned in the last one year
This publication describes the activities carried out in the tripartite event ‘Transforming Nutrition-Sensitive Value Chain Development in the Pacific Islands.” It was implemented by the Technical Centre for Agricultural and Rural Cooperation (CTA) in collaboration with MORDI Tonga Trust, the International Fund for Agricultural Development (IFAD) and the Pacific Islands Private Sector Organisation (PIPSO). The document starts discussing the main events and field trips that were realized after talk about the lessons learned and in the end brings some case studies and sucess stories.
This document is a brief description of the project "Pejeriz: Rice, entrepreneurship and jobs in West Africa". The project aims to building and strengthening entrepreneurial capacities of rural youth, creating market linkages and promoting value-adding activities for rural youth in the rice value chains of Mali and Senegal. The capacity-building efforts will develop a pool of young professionals with the competence and skills to engage in sustainable business along the rice value chain
This brief draws on three cases to show how the private sector contributes to the conceptualisation, design, delivery and evaluation of climate-smart agricultural interventions and can help bring them to scale. Engaging the private sector in CSA interventions enhances the applicability – and thus the sustainability of interventions, increases uptake and delivers a triple win for donors, beneficiaries and the private sector.
The agricultural industry is getting more data-centric and requires precise, more advanced data and technologies than before, despite being familiar with agricultural processes. The agriculture industry is being advanced by various information and advanced communication technologies, such as the Internet of Things (IoT). The rapid emergence of these advanced technologies has restructured almost all other industries, as well as advanced agriculture, which has shifted the industry from a statistical approach to a quantitative one.
Indicator-based tools are widely used for the assessment of farm sustainability, but analysts still face methodological and conceptual issues, including data availability, the complexity of the concept of sustainability and the heterogeneity of agricultural systems. This study contributes to this debate through the illustration of a procedure for farm sustainability assessment focussed on the case study of the South Milan Agricultural Park, Italy. The application is based on a set of environmental, social and economic indicators retrieved from the literature review.
In recent decades, the confluence of different global and domestic drivers has led to progressive and unpredictable changes in the functioning and structure of agri-food markets worldwide.
Past studies showing that barriers to farmers’ adaptation behaviors are focused on their socio-economic factors and resource availability. Meanwhile, psychological and social considerations are sparingly mentioned, especially for the related studies in developing countries. This study investigates the impact of psychological factors and social appraisal on farmers’ behavioral intention to adopt adaptation measures for the aforementioned reason, due to climate change and not to anthropogenic climate change.
Organic agriculture has experienced remarkable growth in recent decades as societal interest in environmental protection and healthy eating has increased. Research has shown that relative to conventional agriculture, organic farming is more e cient in its use of non-renewable energy, maintains or improves soil quality, and has less of a detrimental e ect on water quality and biodiversity. Studies have had more mixed findings, however, when examining the impact of organic farming on greenhouse gas (GHG) emissions and climate change.