Climate change and climate variability are creating negative impacts to agriculture. It affects both food security and crop and livestock production. In the process, it affects the livelihood of communities. Climate-smart agriculture is seen as an alternative to mitigate the challenges of climate change. Literature studies were obtained from journal articles on capacity development. The problem investigated is that climate-smart agriculture (CSA) is a recent concept which needs to be understood with climate change, and the extension advisors do not have requisite skills.
BRAC is a global leader in creating large-scale opportunities for the poor. This chapter describes how small farmer innovations are being developed by BRACAgriculture and Food Security program. In collaboration with the Government and theInternational Agricultural Research Centers, the program aims to achieve food security and reduce hunger and malnutrition through increased environmentally sustainable agricultural production systems. The research focus is on cereal crops (rice andmaize), vegetables and oilseeds.
En este capítulo se presenta la transferencia tecnológica desde una perspectiva sistémica para luego describir el relacionamiento entre las capacidades de innovación y las funciones de los sistemas. Posteriormente se procede a vincular los indicadores del IDIC con los elementos del modelo sistémico de congruencia organizacional y las capacidades de innovación asociadas a las funciones del sistema.
This policy paper provides a macro-level picture of youth’s inability to access agriculture finance, and provides six major recommendations to policy makers: 1) promote financial literacy for youth 2) enhance the capability of financial institutions to assess agricultural sector opportunities; 3) African governments should produce and share reliable statistics on youth employment in agriculture and their financial inclusion; 4) policy makers should encourage special finance packages for young agripreneurs that do not require fixed collateral, e.g.
This book chapter reviews the literature on agricultural innovation, with the threefold goal of (1) sketching the evolution of systemic approaches to agricultural innovation and unravelling the different interpretations; (2) assessing key factors for innovation system performance and demonstrating the use of system thinking in the facilitation of processes of agricultural innovation by means of innovation brokers and reflexive process monitoring; and (3) formulating an agenda for future research.
This thematic note discusses the role of innovation brokers in bridging communication gaps between various actors of innovation systems. On the basis of recent experience in the Netherlands, it outlines the success of brokers in finding solutions adapted to the needs of farmers and industry, and thus their positive impact on innovation adoption. This section also examines some issues on how brokers function, particularly with regard to balancing interests, funding their activities, and the role of government.
The chapter is a part of the book Integrated Agricultural Research for Development: from Concept to Practice.
Global climate change and food security are complex and closely intertwined challenges. A key requirement for dealing with them successfully is that agriculture becomes more eco-efficient. As researchers work toward this goal, they must always ask, “Efficiency for whom?” Finding answers to this question requires that research be conducted from a systems perspective in a broadly participatory manner involving complex collaborative arrangements.
La presentación explica los sistemas de innovación y las redes para la intensificación sustentable. Ésta trata también del modelo del hub.
Le semis direct est un système de production fondé sur le non-travail du sol. Il intègre une série de pratiques agricoles qui permettent de protéger les sols cultivés de l’érosion, de réduire les consommations de carburants, voire d’augmenter les rendements. Le large succès du semis direct au Brésil, contribue à la compétitivité et à la forte croissance de ses productions tout en préservant les sols. Le système complet du semis direct sous couvert est fondé sur trois principes : le non-labour, la couverture permanente du sol et des rotations culturales.