This brochure is on the Virtual Extension and Research Information and Communication Network (VERCON), a conceptual model that any country can use and adapt to improve access to agricultural information and knowledge sharing and to strengthen the linkages between rural institutions and individuals, using information and communication technologies.
Cette brochure présente le réseau virtuel de communication pour la vulgarisation et la recherche (VERCON), qui est un modèle conceptuel que tout pays peut utiliser et adapter pour améliorer l’accès à l’information agricole et le partage des connaissances, ainsi que pour renforcer les interactions entre les personnes et les institutions du monde rural. Pour cela, le réseau a recours aux technologies de l’information et de la communication.
Este folleto presenta la red virtual de comunicación sobre la extensión y la investigación (VERCON), que es un modelo conceptual que cualquier país puede utilizar y adaptar para mejorar el acceso a la información agropecuaria y el intercambio de conocimientos, así como para reforzar los vínculos entre las personas y las instituciones del mundo rural, utilizando las tecnologías de la información y la comunicación.
The tank-based irrigated agricultural system in the Dry Zone of Sri Lanka is one of the oldest historically evolved agricultural systems in the world. The main component of the system consists of a connected series of man-made tanks constructed in shallow valleys to store, convey and utilize water for paddy cultivation. Up to 10,000 tanks originating from the heydays of ancient kingdoms are still integrated in the current agricultural landscape. During the last two millennia, this indigenous system has undergone many changes in technological, management and socio-cultural norms.
The citrus industry is very important for Pakistan as it is the 4th most important export commodity. There are two product flows in the citrus value chain, one is more traditional with abundant intermediaries, in which contractors, commission agents and wholesalers are the main stakeholders, and the other is export-oriented with processors and exporters (P&Es) as the main stakeholders. It has been noticed that growers are not using ICT extensively at the production stage.
Boundary-spanning search for knowledge is an effective way for enterprises to acquire heterogeneous knowledge, and is also an important pre-stage to realize effective knowledge reconstruction. Based on the boundary-spanning search for knowledge theory, this paper studies the relationship between boundary-spanning search for knowledge and the sustainable innovation ability of agricultural enterprises considering the influence of organizational knowledge reconstruction, from a Chinese perspective.
Recent Society 5.0 efforts by the Government of Japan are aimed at establishing a sustainable human-centered society by combining new technologies such as sensor networks, edge computing, Internet of Things (IoT) ecosystems, artificial intelligence (AI), big data, and robotics. Many research works have been carried out with an increasing emphasis on the fundamentals of wireless sensor networks (WSN) for different applications; namely precision agriculture, environment, medical care, security, and surveillance.
Rice is a primary food for more than three billion people worldwide and cultivated on about 12% of the world’s arable land. However, more than 88% production is observed in Asian countries, including Pakistan. Due to higher population growth and recent climate change scenarios, it is crucial to get timely and accurate rice yield estimates and production forecast of the growing season for governments, planners, and decision makers in formulating policies regarding import/export in the event of shortfall and/or surplus.
Rapid climatic and socio-economic changes challenge current agricultural R&D capacity. The necessary quantum leap in knowledge generation should build on the innovation capacity of farmers themselves. A novel citizen science methodology, triadic comparisons of technologies or tricot, was implemented in pilot studies in India, East Africa, and Central America. The methodology involves distributing a pool of agricultural technologies in different combinations of three to individual farmers who observe these technologies under farm conditions and compare their performance.
Le rapport est construit en trois parties : • la première partie traite de l’adaptation des agricultures familiales aux changements climatiques et des conditions de l’adaptation ; • la seconde partie aborde la place de l’adaptation des agricultures familiales dans les politiques publiques ; • la troisième partie propose un certain nombre de recommandations en vue d’une meilleure intégration de cette question dans les politiques publiques. Une présentation des trois études de cas-pays est par ailleurs proposée en annexe.