5 pages, India's agrarian economy contributes 21% to the country's GDP and provides employment to 60% of the population. Rainfed agriculture constitutes 67% of the net sown area, contributing 44% of food grains and supporting 40% of the population. To meet the increasing demand for food grains, it is crucial to enhance the productivity of rainfed areas from the current 1 t/ha to 2 t/ha over the next two decades. However, the quality of natural resources in these regions is deteriorating due to overexploitation, and rainfed areas face biophysical and socio-economic constraints affecting crop and livestock productivity.
This paper critically examines economically viable technologies for rainfed agriculture, including soil and rainwater conservation, efficient crops and cropping systems tailored to the growing season, and suitable implements for timely sowing and labor-saving. Sustainable practices such as integrated nutrient and pest management (INM and IPM) are emphasized. Additionally, the paper highlights interventions in dryland technologies to utilize marginal lands through alternative land-use systems like silvopasture, rainfed horticulture, and tree farming, demonstrated on a watershed basis. The integration of livestock with arable farming systems and the incorporation of indigenous knowledge are also discussed. Finally, the paper advocates for the formation of self-help groups, innovative extension tools such as portable rainfall simulators, and focus group discussions to facilitate the adoption of rainfed technologies by farmers. A farming systems approach in rainfed agriculture not only addresses income and employment challenges but also ensures food security.
10 pages, This paper aims to analyze the level of welfare of palm oil farmers and the factors that influence it. The research design employs a survey method. Indonesia smallholder palm oil farmers face complex welfare issues. The study employed a survey-based research design. Farmer’s sampling involved 594 palm oil farmers. Quantitative methodology with an ordinal logit regression model is applied to determine the welfare factors. The welfare analysis is carried out by household expenditure approach. The findings reveal the fact that the majority of smallholder palm oil farmers, whether with independent or partnership patterns, are prosperous. The independent pattern has a higher chance of improving welfare. The household prosperity is determined by the variables age, education, number of family members, land cultivated, palm oil income, household income, and cultivation patterns. The direct connection between farmers and the palm oil industry supply chain in the form of cooperation patterns and factory supply guarantees is a basic prerequisite in ensuring improvements in the level of farmers’ income. The practical implication recommends that strengthening farmers in the upstream production line is a precondition in developing the Indonesian sustainable palm oil industry. The synergy among stakeholders in the fair business value chain framework should start from strengthening farmers in the upstream production line.
Rozenstein, Offer (author), Cohen, Yafit (author), Alchanatis, Victor (author), Behrendt, Karl (author), Bonfil, David J. (author), Eshel, Gil (author), Harari, Ally (author), Harris, W. Edwin (author), Klapp, Iftach (author), Laor, Yael (author), Linker, Raphael (author), Paz-Kagan, Tarin (author), Peets, Sven (author), Rutter, S. Mark (author), Salzer, Yael (author), and Lowenberg-DeBoer, James (author)
Format:
Journal article
Publication Date:
2023-08-15
Published:
Netherlands: Springer Nature
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 209 Document Number: D13550
12 pages, Sustainability in our food and fiber agriculture systems is inherently knowledge intensive. It is more likely to be achieved by using all the knowledge, technology, and resources available, including data-driven agricultural technology and precision agriculture methods, than by relying entirely on human powers of observation, analysis, and memory following practical experience. Data collected by sensors and digested by artificial intelligence (AI) can help farmers learn about synergies between the domains of natural systems that are key to simultaneously achieve sustainability and food security. In the quest for agricultural sustainability, some high-payoff research areas are suggested to resolve critical legal and technical barriers as well as economic and social constraints. These include: the development of holistic decision-making systems, automated animal intake measurement, low-cost environmental sensors, robot obstacle avoidance, integrating remote sensing with crop and pasture models, extension methods for data-driven agriculture, methods for exploiting naturally occurring Genotype x Environment x Management experiments, innovation in business models for data sharing and data regulation reinforcing trust. Public funding for research is needed in several critical areas identified in this paper to enable sustainable agriculture and innovation.
10 pages, Sustainable livestock farming practices have the potential to improve productivity and high income, reduce greenhouse gases, and improve household food security. Despite previous efforts to disseminate these technologies, the rate of adoption has remained very low in Ethiopia. In this study, we investigate the determinants of adoption and the impact of improved dairy farming practices (IDFP), which include improved breed, improved feed, and improved feeding conditions, on household food security in the central highland of Ethiopia.
8 pages, In the face of rapidly advancing climate change, biodiversity loss, and water scarcity, it is clear that global agriculture must swiftly and decisively shift toward sustainability. Fortunately, farmers and researchers have developed a thoroughly studied pathway to this transition: agroecological farming systems that mimic natural ecosystems, creating tightly coupled cycles of energy, water, and nutrients. A critical and underappreciated feature of agroecological systems is that they replace fossil fuel- and chemical -intensive management with knowledge-intensive management. Hence, the greatest sustainability challenge for agriculture may well be that of replacing non-renewable resources with ecologically-skilled people, and doing so in ways that create and support desirable rural livelihoods. Yet over the past century, US agriculture has been trending in the opposite direction, rapidly replacing knowledgeable people with non-renewable resources and eroding rural economies in the process. Below, we suggest how US policy could pivot to enable and support the ecologically skilled workforce needed to achieve food security in the face of climate change.
Sustainable agriculture is among the most urgently needed work in the United States, for at least three reasons: we face an environmental crisis, a health crisis, and a rural economic crisis. Addressing these pressing crises through sustainability transition will require growing our agricultural workforce: both because the current farm population is aging, and because sustainable agriculture is knowledge-intensive work that substitutes experiential knowledge of farm ecosystems for harmful industrial inputs. Given its social value, sustainable agriculture ought to be a welcoming profession. But at present, US agriculture is decidedly unwelcoming for nearly all who work in it – and it puts new entry and sustainable farmers at a distinct disadvantage. In this paper, we first examine why it is so hard to enter and succeed in sustainable farming. We find that new entrants struggle to gain critical access, assets, and assistance, encountering substantial barriers that stand between them and the land, capital, markets, equipment, water, labor, and training and technical assistance they need to succeed. Secondly, we review promising policy and civil society interventions targeted at addressing these barriers, nearly all of which have already been piloted at the local and state levels or through modest public funding. These interventions are most effective, we find, when they are linked up through robustly governed networks to provide “wraparound” coverage for new entry sustainable farmers. Such networks can help patch together complementary sources of support (e.g. federal, state, local, NGO, cooperative) and synergistically address multiple barriers at once. Finally, we propose additional interventions that are more aspirational today, but that could offer important pathways to support new sustainable farmers in the longer term.
