13 pages., via online journal., The agriculture sector in Pakistan faces enormous challenges of lack of farm knowledge adoption due to the farmers’ lack of access to the latest information. Recently various mobile phone-based farm advisory services (FAS) have been introduced as an alternative to the conventional extension methods. Despite many ICT initiatives, the performance of these projects remains unsatisfactory. The current study was designed to identify these FAS, farmers’ extent of use, and factors associated with their adoption. Two hundred and forty farmers were surveyed in the rural areas of district Faisalabad, Punjab, Pakistan. Data were collected using a structured questionnaire and analysed with SPSS software. Findings revealed that 77.08% of the sampled farmers were using mobile-based FAS. Telecom and private sector FAS were reported to have the highest share of users (37.08% and 25.83% respectively). Results of the logistic regression showed that farmers’ educational level, mobile use skills, mobile possession duration and the number of mobile phones in a family were found positively significant, while farmers’ age and contact with extension agents were negatively significant. The findings conclude that education and digital literacy are essential for the use of mobile-based alternatives and emphasize the need for training and educating the farmers.
Agricultural Education and Extension Service, Human Resources, Institutions and Agrarian Refrom Division, Food and Agricuture Organization of the United Nations
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 134 Document Number: C20562
Notes:
Burton Swanson Collection, 5 sections, World Conference on Agrarian Reform and Rural Development
6 pages., Gene editing (GE) and gene modification (GM) technologies demonstrate noticeable differences. GE technologies introduce changes in DNA, which are intrinsic to the species, while GM technologies incorporate changes from foreign species. The potential benefits of GE have been highlighted in a number of recent scientific studies, pointing to the opportunities that are opening up in addressing the food availability problems as a result of the growing world population. However, the implementation of GE technology in food production would rely on public awareness, acceptance, and attitudes toward genetically modified and genetically edited food products. Based on the Theory of Reasoned Action (TRA), we surveyed Lithuanian consumers, farmers, and producers for their awareness, attitudes, and behavioural intentions towards GM and GE food. The 251 consumers, 50 farmers, and 56 food producers participated in the survey. Consistent across all samples (consumers, farmers, and producers, respectively), GM technology-related products’ self-assed awareness was significantly higher than the level of self-assed awareness of GE products. Awareness of GEO in all samples is relatively low. The level of support for GMO and GEO is also low in all groups of respondents. All groups – consumers, farmers, and producers – are less negative about food produced from GE than from GM raw materials. There was a statistically significantly higher overall likelihood for future use of GEO than the GMO. Producers would be less likely than consumers and farmers to use GMOs in the future. The same inclinations are observed with regard to GEO, with statistically significant differences in the sample of consumers, farmers, and producers.
9 pages, Humans have improved plants for their utility through selective self-pollination, crossing, and progeny selection for >10,000 years, largely based on physical characteristics. Less than 200 years ago, the genetic basis of heritability in selection was revealed, enabling breeders to accelerate genetic gain. Breakthroughs in genomics and molecular markers for the past century have enabled breeders to locate and select genomic regions affecting desirable traits, improving breeding precision. Transgenesis has enabled crop insertion of desirable exogenous genes, enabling de novo functionality. These technologies, along with agronomic practices, have generated more than sixfold yield improvements in crops such as corn in the past century. Gene editing, with its unique ability to precisely edit, change expression, and move genes within a crop's genome, has the potential to be the next breakthrough technology. For this to come to fruition, it is critical to take a holistic view considering perspectives of scientists, farmers, regulators, and consumers.
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.
