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2. Harvesting shellfish? get the app
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Beck, Lena (author)
- Format:
- Online article
- Publication Date:
- 2023-09-28
- Published:
- USA: Modern Farmer
- Location:
- 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.
3. Socioeconomic factors influencing uptake of regenerative agriculture technologies in the drylands of Embu County, Kenya
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Otara, Elvin (author), Rasugu, Hezron Mogaka (author), Ndirangu, Samuel (author), and Mugwe, Jayne Njeri (author)
- Format:
- Journal article
- Publication Date:
- 2023-01-30
- Published:
- Nigeria: Agricultural Extension Society of Nigeria
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12795
- Journal Title:
- Journal of Agricultural Extension
- Journal Title Details:
- Vol. 27, N.1
- Notes:
- 12 pages, This study evaluated socioeconomic factors influencing the uptake of regenerative agriculture technologies in the dry lands of Embu County. Semi-structured questionnaires were administered to 400 farm households. Multivariate Probit model (MVP) and percentage were used to analyse the data. The findings of the study indicate that several socioeconomic factors including farming experience, farm size, main occupation, off-farm activities, age, gender, marital status and education level influenced the uptake of various regenerative agriculture technologies. Government and other inventors should take these factors into consideration while making decisions and formulating policies to support the dissemination and uptake of agricultural innovations.
4. Sustainable smart agriculture farming for cotton crop: a fuzzy logic rule based methodology
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Bin, Li (author), Shahzad, Muhammad (author), Khan, Hira (author), Bashir, Muhammad Mehran (author), Ullah, Arif (author), and Siddique, Muhammad (author)
- Format:
- Journal article
- Publication Date:
- 2023-09-18
- Published:
- Switzerland: MDPI
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12959
- Journal Title:
- Sustainability
- Journal Title Details:
- V.15, Iss.18
- Notes:
- 20 pages, Sustainable agriculture is a pivotal driver of a nation’s economic growth, especially considering the challenge of providing food for the world’s expanding population. Agriculture remains a cornerstone of many nations’ economies, so the need for intelligent, sustainable farming practices has never been greater. Agricultural industries worldwide require sophisticated systems that empower farmers to manage their crops efficiently, reduce water wastage, and optimize yield quality. Yearly, substantial crop losses occur due to unpredictable environmental changes, with improper irrigation practices being a leading cause. In this paper, we introduce an innovative irrigation time control system for smart farming. This system leverages fuzzy logic to regulate the timing of irrigation in cotton crop fields, effectively curbing water wastage while ensuring that crops receive neither too little nor too much water. Additionally, our system addresses a common agricultural challenge: whitefly infestations. Users can adjust climatic parameters, such as temperature and humidity, through our system, which minimizes both whitefly populations and water consumption. We have developed a portable measurement technology that includes air humidity sensors, temperature sensors, and rain sensors. These sensors interface with an Arduino platform, allowing real-time climate data collection. This collected climate data is then sent to the fuzzy logic control system, which dynamically adjusts irrigation timing in response to changing environmental conditions. Our system incorporates an algorithm that generates highly effective (IF-THEN) fuzzy logic rules, significantly improving irrigation efficiency by reducing overall irrigation duration. By automating the irrigation process and precisely delivering the right amount of water, our system eliminates the need for human intervention, rendering the agricultural system more dependable in achieving successful crop yields. Water supply commences when the environmental conditions reach specific thresholds and halts when the requisite climate conditions are met, maintaining an optimal environment for crop growth.
5. Watching Grass Grow...From Space
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Beck, Lena (author)
- Format:
- Article
- Publication Date:
- 2023-07-31
- Published:
- USA: modern farmer
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12925
- Notes:
- 7 pages
6. Where do smallholder farmers get their information? an exploration of the sources of agricultural information in northwest Cambodia
- Collection:
- Agricultural Communications Documentation Center (ACDC)
- Contributers:
- Nickens, Presley (author), Ader, David (author), Enriquez, Jean Pierre (author), Bates, Ricky (author), Gill, Tom (author), Huot, Sovanneary (author), Hok, Lyda (author), and Pao, Srean (author)
- Format:
- Journal article
- Publication Date:
- 2023-08-29
- Published:
- USA: New Prairie Press
- Location:
- Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 206 Document Number: D12943
- Journal Title:
- Journal of International Agricultural and Extension Education
- Journal Title Details:
- V.30, Iss.2
- Notes:
- 15 pages, A significant emphasis on scaling up food security efforts is needed to achieve Sustainable Development Goal 2 (Zero Hunger) by 2030. Scaling up sustainable intensification efforts for Cambodian smallholder farmers is key since they face greater exposure to the uncertainties of climate change, globalizing markets, and rural-to-urban migration. One way to increase the effectiveness of efforts and the scaling up of sustainable intensification technologies is through improving access to information about production and marketing technologies. This study aimed to identify sources of information about sustainable technologies available to smallholders and barriers that may be preventing adoption. Information was gathered from a household survey to document the sources of agricultural information for smallholders in Northwest Cambodia. This research suggests Cambodian smallholders are receiving agricultural extension services, however, the overall quality and effectiveness of these messages are unknown, since NGOs with competing foci are the primary provider of extension information. Smallholders face significant barriers that prevent the adoption of sustainable technologies and participation in markets, such as low price for goods, poor product quality, lack of time, and concerns for safety. Future endeavors to strengthen the price of goods and alleviate market-related challenges would likely result in increased smallholder income and food availability.