17 pages., Via online journal., Purpose: This paper presents economic and pedagogical motivations for adopting information and communications technology (ICT)-mediated learning networks in agricultural education and extension. It proposes a framework for networked learning in agricultural extension and contributes a theoretical and case-based rationale for adopting the networked learning paradigm.
Design/methodology/approach: A review of the literature highlights the economic and pedagogical need for adopting a networked learning approach. Two examples are described to instantiate the language for learning networks: a small community of farmers in India and large Twitter community of Australian farmers.
Findings: This paper reviews evidence that successful networked learning interventions are already occurring within agricultural extension. It provides a framework for describing these interventions and for helping future designers of learning networks in agricultural extension.
Practical implication: Facilitation of learning networks can serve to achieve efficient agricultural extension that connects farmers across distances for constructivist learning. To realize these benefits, designers of learning networks need to consider set design, social design and epistemic design.
Theoretical implication: This paper contributes a theoretical framework for designing, implementing and analysing learning networks in agriculture. It does this by integrating existing ideas from networked learning and applying them to the agricultural context through examples.
Originality/value: This paper contributes an understanding of the value of networked learning for extension in terms of economic and pedagogical benefits. It provides a language for talking about learning networks that is useful for future researchers and for practitioners.
19 pages, This special issue presents recent European Commission-funded research into on-farm demonstration, undertaken through the Horizon 2020 PLAID (Peer-to-peer learning: Accessing innovation through demonstration), AgriDemo-F2F (building an interactive agridemo-hub community: enhancing peer-to-peer learning), and NEFERTITI (Networking European Farms to Enhance Cross Fertilisation and Innovation Uptake through Demonstration) projects, jointly branded ‘FarmDemo’.
4 pages, Educators use school gardens to incorporate science, technology, engineering, and math programming into their curricula. Extension agents are called on to assist with planning and long-term support of these gardens, often working with educators who have no horticultural experience. University of Georgia Extension's school garden team created a multitiered approach to serving these gardeners while ensuring efficient use of Extension agents' time and resources. This approach includes a beginning-steps publication, hands-on garden training, and school garden associations. The result is more sustainable school gardens with limited frustration on the parts of school gardeners and Extension agents.
7pgs, Liberating Structures (LS) provide a user-friendly toolkit to shift group power dynamics and allow all stakeholders to contribute. We explored the novel use of LS in soil health extension to conduct high-engagement events with diverse stakeholders. Our goals were to promote social learning, networking, and to encourage innovation. Soil health themes emerged highlighting specific practices, and the necessity of addressing broader scope issues of education, economics, and policy. Participants reported increased knowledge of soil health, professional connections, and forecasted participation in soil-health-promoting activities. Participants also expressed a sense of community, expanded perspectives, and appreciation of the co-development process.