11 pages., Via online article, A “digital revolution” in agriculture is underway. Advanced technologies like sensors, artificial intelligence, and robotics are increasingly being promoted as a means to increase food production efficiency while minimizing resource use. In the process, agricultural digitalization raises critical social questions about the implications for diverse agricultural labourers and rural spaces as digitalization evolves. In this paper, we use literature and field data to outline some key trends being observed at the nexus of agricultural production, technology, and labour in North America, with a particular focus on the Canadian context. Using the data, we highlight three key tensions observed: rising land costs and automation; the development of a high-skill/low-skilled bifurcated labour market; and issues around the control of digital data. With these tensions in mind, we use a social justice lens to consider the potential implications of digital agricultural technologies for farm labour and rural communities, which directs our attention to racial exploitation in agricultural labour specifically. In exploring these tensions, we argue that policy and research must further examine how to shift the trajectory of digitalization in ways that support food production as well as marginalized agricultural labourers, while pointing to key areas for future research—which is lacking to date. We emphasize that the current enthusiasm for digital agriculture should not blind us to the specific ways that new technologies intensify exploitation and deepen both labour and spatial marginalization.
Singh, Lakhan (author), Bishnoi, Rajesh (author), Bihari, Bankey (author), Madan, S. (author), Malik, Anil Kumar (author), Shrimali, S. S . (author), Kadam, M. D. (author), and Singh, Raman Jeet (author)
Format:
Online journal article
Publication Date:
2019-02
Published:
India
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 12 Document Number: D10368
7 pages., Via online journal., The effectiveness of an extension system referred to its ability to meet the fanner needs in providing the new technology which suits to their conditions and results in better production. Recently the demand for information on agricultural practices and technology among the farmers is increasing day by day but fulfilment of these demands exclusively by public agricultural extension system is limited. To address this challenge, information communication technology (ICT) has the immense role in supplementing the extension system. Among the ICT tools, mobile phone, because of its affordability, accessibility, minimum skill requirement, widespread network etc., has emerged as important tool for information and knowledge dissemination to the smallholder and marginal farmers. But it is necessary to study how effective they are in achieving the respective objectives.The present investigation was conducted to study the effectiveness of mKRISHI (R) PAWS (Personalised Advisory on Water and Soil) in Dehradun district of Uttarakhand state. An ex-post facto research design was used for this study. Total 136 messages were sent to the respondents. The data was collected from 240 beneficiary farmers of the north-western Himalayan region. The effectiveness of the mKRISHI (R) PAWS in technology advisory and delivery services were measured by developing an effectiveness index for the purpose. Results showed that 93.8% of farmers perceive that quality of information regarding the latest NRM technologies in soil and water conservation was excellent and 83.75% of the farmers felt that the information regarding the latest NRM technologies in soil and water conservation was appropriate to their condition. The study revealed that the extension services delivered by mKRISHI (R) PAWS were found to be highly effective by majority of the farmers. 34.58% fanners perceived that the mKRISHI (R) PAWS was very highly effective as a mean of getting their information needs.
Eitzinger, Anton (author), Cock, James (author), Atzmanstorfer, Karl (author), Binder, Claudia R. (author), Läderach, Peter (author), Bonilla-Findji, Osana (author), Bartlin, Mona (author), Mwongera, Caroline (author), Zurita, Leo (author), and Jarvis, Andy (author)
Format:
Online journal article
Publication Date:
2019-03
Published:
Germany: Elsevier
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 7 Document Number: D10292
13 pages., Via online journal., Farmers can manage their crops and farms better if they can communicate their experiences, both positive and negative, with each other and with experts. Digital agriculture using internet communication technology (ICT) may facilitate the sharing of experiences between farmers themselves and with experts and others interested in agriculture. ICT approaches in agriculture are, however, still out of the reach of many farmers. The reasons are lack of connectivity, missing capacity building and poor usability of ICT applications. We decided to tackle this problem through cost-effective, easy to use ICT approaches, based on infrastructure and services currently available to small-scale producers in developing areas. Working through a participatory design approach, we developed and tested a novel technology. GeoFarmer provides near real-time, two-way data flows that support processes of co-innovation in agricultural development projects. It can be used as a cost-effective ICT-based platform to monitor agricultural production systems with interactive feedback between the users, within pre-defined geographical domains. We tested GeoFarmer in four geographic domains associated with ongoing agricultural development projects in East and West Africa and Latin America. We demonstrate that GeoFarmer is a cost-effective means of providing and sharing opportune indicators of on-farm performance. It is a potentially useful tool that farmers and agricultural practitioners can use to manage their crops and farms better, reduce risk, increase productivity and improve their livelihoods.
4 pages., Article # 1IAW2, Via online journal., Educational campaigns are more complicated when members of our audiences hold scientific misconceptions related to new technologies. Our prairie strips research and education team produced a brief, focused video aimed to dispel a misconception related to the effect of prairie strip plants' roots on agricultural drain tiles in the Midwest. Our "Field Tile Investigation" video was based on the conceptual change framework from science education and featured a discrepant event. The goal was to move farmers, landowners, and their advisors to an understanding of prairie
strips that was more compatible with the scientific standard.
5 pages., Article # 1IAW6, vial online journal, Project Happy Apples began as an effort to assist backyard growers in managing codling moth in their fruit trees. We developed a process using emails and a web page to provide timely information related to the life cycle of codling moth and relevant integrated pest management (IPM) strategies. The content of our updates included pertinent photos, costs of tools, and suggested dates of action. Results from a survey of participants suggest that they were more confident, knowledgeable, and successful in using IPM strategies in their own backyards as a result of our project.
