Gopi, Arepalli (author), Sudha, L. R. (author), and Joseph, S. Iwin Thanakumar (author)
Format:
Book chapter
Publication Date:
2025-01-24
Published:
Scrivener Publishing LLC
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 209 Document Number: D13544
Journal Title Details:
299-319
Notes:
21 pages, chapter 16 from "Smart Factories for Industry 5.0 Transformation", Sensor technologies enable data-driven, efficient, and sustainable precision agriculture. This initiative monitors, manages, and predicts plant diseases using sensors, cloud computing, and data analytics to improve crop health and productivity. Plant and environmental data is monitored by soil, humidity, temperature, and leaf wetness sensors. Machine learning algorithms discover illness outbreak trends and abnormalities in real-time data on a cloud platform. According to the study, a complete IoT infrastructure easily transfers data from field sensors to cloud servers and decision support tools to end-users. Edge computing preprocesses data and delivers only relevant data to the cloud, decreasing latency and bandwidth. This allows fast, accurate disease prediction models to warn farmers of new hazards for proactive management. The study also examines how alternate communication protocols increase data transfer in agricultural fields with poor circumstances. We also explore how geospatial and sensor data accurately map and quantify disease risk. Cloud-based data analytics improves sickness prediction, operational efficiency, and resource management, this study revealed. This integrated strategy reduces plant diseases, herbicides, and fertilizers, improving sustainability. The scalable, cost-effective answers to modern farming problems in this research support precision agriculture.
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12971
Notes:
10 pages, Toxins, pollution and invisible boundary lines are obstacles to harvesting bivalves such as clams and oysters. A new cohort of cellphone and web apps promises to help people farm and harvest shellfish more responsibly.
16 pages, A Danish pre-industrial farming system is reconstructed and compared to its modern industrialized farming system equivalent to evaluate agricultural performance in a sustainability perspective. The investigated Danish farm system and its contributing elements have undergone significant transformations. The intensity of contemporary agriculture shows that high productivity levels have been achieved by increasing the input of energy using modern machinery. At the same time, the energy efficiency (calculations based on energetic indicators) diminishes over time as the degree of dependence on fossil fuels increases. The results from this study show significant changes in the farming system, specifically inputs from agricultural land use, livestock, and energy systems. From being highly circular, the system changed to being a clear linear farming system with highly increased productivity but less efficient at the same time, questioning the relationship between productivity and efficiency and resource utilization in modern farming systems. Through utilizing an agroecological historical approach by comparing system performance over time, the results offer opportunities to explore how agricultural farming systems evolve over time and help to describe the complexity of the system level in a sustainability perspective.
8 pages, Effectively communicating with diverse groups involved in environmental management is critical to facilitating successful projects. This five-step communication plan is designed to enable resource managers and extension professionals to successfully engage their stakeholders. This plan, which uses oyster reef management as an example, was informed by two primary sources: an expert meeting with stakeholder leaders and coastal residents and a review of relevant literature. By incorporating stakeholder input throughout the planning and implementation of natural resource management projects, new and innovative ideas emerge, and relationships between stakeholders, managers, and extension agents are strengthened.
16 pages, Systematic reviews and meta-analyses generally focus on intervention impacts or outcomes. Less common, however, are reviews of the assumptions and theory underlying the pathways between intervention and outcome. We consider the hypothetical case for interventions to empower female farmers, either by prioritising women for new investments or re-allocating existing resources. Empowerment is defined as increased women's decision-making authority related to agricultural resources, management and production, and income. We hypothesise two avenues through which productivity or health benefits might arise: (i) eliminating female-male differences in, e.g. input access; or (ii) leveraging gendered risk, time, and social preferences leading women to differentially allocate resources. A review of evidence highlights the extent of support for the baseline, behaviour change, and economic benefit assumptions behind these hypothesised avenues. Findings suggest returns to investing in female farmers could be significant in various contexts but estimates of economic returns to empowering women in agriculture remain limited.
4 pages, This article introduces the Regional Conservation Partnership Program of the U.S. Department of Agriculture's Natural Resources Conservation Service. The program encourages partnerships among Extension professionals, conservation agency representatives, and farmers that focus on addressing natural resources concerns through the development and implementation of regional watershed plans. These plans assist farmers in practicing sustainable crop and animal production methods. Extension professionals will find the program useful as a tool for building collaborations at watershed and regional scales to promote agricultural production practices that enhance natural resources conservation.
8 pages, Reducing food waste is widely recognized as critical for improving resource efficiency and meeting the nutritional demand of a growing human population. Here we explore whether the sharing economy can provide meaningful assistance to reducing food waste in a relatively low-impact and environmentally-sound way. Analyzing 170,000 postings on a popular peer-to-peer food-sharing app, we find that over 19 months, 90t of food waste with an equivalent retail value of £0.7 million were collected by secondary consumers and diverted from disposal. An environmental analysis focused on Greater London reveals that these exchanges were responsible for avoiding emission of 87–156t of CO2eq. Our results indicate that most exchanges were among users associated with lower income yet higher levels of education. These findings, together with the high collection rates (60% on average) suggest that the sharing economy may offer powerful means for improving resource efficiency and reducing food waste.
Agricultural Communications Documentation Center, Funk Library, University of Illinois Document Number: D08810
Notes:
Pages 41-69 in Patrick D. Murphy, The media commons: globalization and environmental discourses. United States: University of Illinois Press, Urbana, Chicago, and Springfield. 192 pages.
