Hashem, Nesrein M. (author), Hassanein, Eman M. (author), Hocquette, Jean-François (author), Gonzalez-Bulnes, Antonio (author), Ahmed, Fayrouz A. (author), Attia, Youssef A. (author), and Asiry, Khalid A. (author)
Format:
Journal article
Publication Date:
2021-06-08
Published:
United States: MDPI
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 203 Document Number: D12277
24 pages, In the near future, the year 2050, agricultural production should expand to fulfill the needs of approximately 9.7 billion inhabitants. Such an objective should be harmonized with social, economic, and environmental sustainability aspects to maintain safe food production and food security worldwide. For more than a year, the COVID-19 pandemic has raised and is still strongly disrupting the agro-livestock production sector, similar to several other economic sectors. In this sector, the relationships between suppliers, producers, and consumers should always continue to maintain the activity of the production chain, which are impaired by social distancing decisions taken following the emergence of the COVID-19 pandemic. In this study, a global cross-sectional survey (translated into four languages: Arabic, English, French, and Spanish) was shared with people belonging to the agricultural sector to identify: (1) the role of the agricultural information and communication technologies (ICTs) in agro-livestock farming systems sustainability during the period of COVID-19 pandemic, (2) the need for such technologies in the agricultural sector, and (3) the factors that affect the use of such technologies. The results showed that the most frequently used agricultural ICTs were social media (Facebook and/or WhatsApp; 27.3%) and online platforms and Internet services (26.3%), whereas robotic vehicles and/or drones (6.6%) were less frequently used. During the emergence of the pandemic, the major reasons impacting agro-livestock farming systems' sustainability were social distancing (30.0%), shortage of labor (17.7%), maintaining precision farm management (14.8%), product marketing (14.2%), access production inputs (7.2%), and others (16.1%). Applying agricultural ICTs solved many obstacles related to the production process, such as maintaining precision farm management (25.6%), product marketing (23.6%), and access production inputs (16.1%). The subgroup analyses of the results considering the degree of country advancement, size of agribusinesses, and role/position of respondents in the farm highlighted the importance of supporting the use, availability, and awareness of agricultural ICTs at least for some groups of people such as those belong to developing countries, laborers, and small-scale agri-business holders. This cross-sectional study highlights the urgent need to turn to and to expand the use of new agricultural ICTs to meet the growing demand for food production in the world and to ensure the resilience and sustainability of farming systems, specifically under unexpected and extreme conditions.
8 pages, Agricultural extension is now backing on the development agenda. The acknowledged failure of the traditional extension model in India has stimulated debate on extension reforms and the introduction of new extension models. Further, Indian agriculture has recorded an alarming ‘knowledge gap’ where ‘knowledge’ became central to agricultural production. The role of extension functionaries today is more challenging and demands structural and functional changes to meet the holistic needs of farmers and they have to equip themselves to cope with the drastic chance and dire needs. Agricultural extension is not only about imparting knowledge and securing adoption of improved practices but it also aims at changing the outlook of farmers. Moreover, Indian agriculture is undergoing a rapid transformation under globalization from a simple making a living to complex endeavour. Information revolution leads to fundamental changes in economic, political, social and cultural relations. Information technology is the lifeblood of many other technologies. It is opined that there is direct relationship between communication and development of agricultural sector. New information technology provides the opportunity for innovation. The ‘free flow of information’ will help the farmers is to overcome the knowledge gap and the availability of the new technology lead farmers to make real choice. This paper emphasizes on the role of ICTs in contemporary agricultural context and critically understands the failure of traditional extension functionaries.
7 pages, Present study was carried out in 2018-19, in the three districts of Punjab i.e., Faisalabad, Sargodha and Muzaffargarh to analyse the factors affecting dissemination of agricultural information to farmers through ICT tools. One hundred and twenty respondents were selected randomly from each district, making a total sample of 360 respondents. Concerning the general use of ICT
tools in the dissemination of agricultural information, the findings indicated a change in trend
from the radio (11.1%) towards TV (85.6%) and mobile phone SMS (75.8%). The relevance of information and ICT tools’ cost appeared as common determinant factors for technology transfer effectiveness by ICT tools. Furthermore, farmers also indicated that the most effective
tool to disseminate agricultural information was television, followed by the mobile phone and social media. Moreover, most of the farmers (81.7 % and 73.1%, respectively) indicated that the
lack of innovative information and difficulties in using ICT tools were significant barriers while
communicating via these tools. The use of television and mobile phones in extension should be improved because they were relatively more popular among farmers. It was recommended that the Punjab government should also design a system of periodic monitoring and evaluation of the use of information and communication technologies in the extension with agricultural universities’ participation and relevant non-governmental organizations in Punjab. A dynamic feedback system should be designed, based on the local advisory committees’ recommendations, to determine the local farmers’ needs/problems, which should be sent immediately to the Directorate of Agricultural Information to suggest some suitable solution and disseminate through ICTs.
25 pages., The study adopted survey research design. The population of the study consisted 1200 respondents comprising (staff of the Zamfara State Agricultural Development Project, FADAMA III Project, IFAD, Animal rearers and Farmers). Instruments of data collection used for the study were the questionnaire, interview and discussions. One thousand two hundred questionnaires were distributed to respondents and only 988 (82.2%) were dully returned and found usable. The results of the responses were interpreted using simple percentage and frequency tables. The findings of the study include, that 95% of Zamfara State population are farmers, Maru and Gusau Local Government Areas recorded the highest farmers’ population. It was also discovered that there was a high rate of awareness of climate change information in the State with Radio, Television, extension services as major sources of climate change information in the State. It was also discovered that farmers in the State utilize climate change information like taking decisions on what and when to plant, planting improved crop varieties among others. There is also the challenges of reduction in annual rainfall, deforestation, insect-pests attack, high temperature among others. Recommendations were made for intensified awareness campaign on climate change, increased budgetary allocation to the agricultural sector for more mitigation and adaptation capacity for the farmers.
United States: Virginia Tech University, Blacksburg, Virginia.
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 204 Document Number: D12519
Notes:
4 pages., Sasakawa Africa Association shares their approach to strengthening the resilience of food systems in Africa through innovative approaches using information and communication technologies.
he Sasakawa Africa Association (SAA) was established in 1986 by Ryoichi Sasakawa, the first chairman of the Nippon Foundation; Dr. Norman Borlaug, Nobel Peace Prize Laureate and father of the Green Revolution; and former US President, Jimmy Carter; in response to the famine in the Horn of Africa in the 1980s.
Since then, SAA has strengthened agricultural extension services in 16 countries in Africa. Currently, we have offices in Ethiopia, Mali, Nigeria and Uganda, where we focus on field activities and human resource development at universities and other educational institutions. We also implement human resource development projects in Benin, Burkina Faso, Ghana, Malawi, Mozambique, Sierra Leone, and Tanzania.
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 204 Document Number: D12483
Notes:
Book Chapter, 37 pages in "Food Technology Disruptions"
ISBN: 9780128214701, Globally, various digital platforms are efficiently explored to provide information in various sectors. In many developing countries, the majority of the main population occupation is agriculture. Traditional extension services are limited by lack of extension personnel, expertise, up-to-date information regarding market access, timeliness, information storage. Therefore, digitalization can be critical in overcoming such limitations through the utilization of various information and communication technology (ICT) tools; Decision support systems, databases, Agri-based Apps, KIOSK. These advanced approaches will not only support the extension and farming communities but also improve their skills and uplift them in contributing to an increased national GDP. This chapter covers various digital tools and their efficiency with a supporting case study on utilization and impact of digital extension services (DES) on farmer’s knowledge in terms of agricultural practices in selected villages of Belagavi district, Karnataka, India. In conclusion, digital extension services play a vital role in the dissemination of updated information for improving agricultural supply chain management.
18 pages, Based on panel data from the Rural Fixed Point Survey of the Ministry of
Agriculture over the period 2004-2016 and supplementary survey data on information
and communications technology (ICT) applications in the countryside, this paper employs
the difference in differences (DID) method to analyze the effects of ICT applications on
rural households’ agricultural total factor productivity (TFP) with mobile phone signal,
internet and 3G mobile network connections as indicators, and decomposes and evaluates
the constituent factors. Our findings reveal a positive effect of ICTs on rural households’
TFP, which primarily stemmed from rising agricultural technical efficiency. However, ICTs
exerted no significant effect on agricultural technical progress during this paper’s data
period due to limited rural human capital. These findings are consistent with robustness test
results based on counterfactual and matching methods.
Pages 121-147 in Scaling-up Solutions for Farmers., In most of the developing countries in Asia and Africa large yield gaps are existing between the current farmers’ yields and potential achievable yields. The necessity of meeting the farmers’ requirement to scale up research results is paramount for adequate food production. This requires empowerment of farmers by answering queries of farmers appropriately through different extension channels including state and central machineries. These are the backbone of the agricultural technology development to empower farmers as the major stakeholders and hence requires attention. Lack of awareness among farmers about good agricultural management practices compel them to follow the traditional practices. All agricultural education and research, ultimately aims at increased productivity and economic well-being of farmers. This is possible only when there is a minimum gap between laboratories and land. This gap is bridged by agricultural extension. But human capacity, the content of the information, processes of delivery and technology determine effectiveness of extension services. Non-availability of sufficient extension personnel is a major constraint. To overcome these shortcomings, e-Extension (eE) is the alternative. It is important to rejuvenate the agricultural extension system (AES) with innovative information communication technology (ICT) models for knowledge generation and dissemination. Latest digital technologies are discussed in this chapter on ICT to empower farmers to scale up for reaching the required target of food production with special reference to Indian scenario.
There is an urgent need to transform neglected knowledge delivery systems by strengthening the science of delivery which has been neglected by the researchers/development worker/policy makers alike. Availability of new technologies such as information technology (IT), internet of things (IoT), audio and video using cell phones, geographical information system (GIS), simulation modelling, remote sensing (RS) open up new vistas for effective knowledge delivery for achieving the impacts on ground. This will help to cross the “Death Valley of Impacts” for achieving the zero hunger goal by adopting innovative approaches/tools and partnerships.
10 pages., The smart farm, a future-oriented farm operation that integrates information and communications technologies, is an emerging trend in agriculture. This study investigates the factors affecting the adoption of the smart farm in Korea and analyzes them empirically. The research model is based on Rogers' innovation diffusion theory and existing models of adoption of information technology in organizations. The model proposes that adoption of innovative technology is influenced by relative advantages, complexity, and compatibility of the technology, the innovativeness and IT knowledge characteristics of the CEOs, financial costs, human resource vulnerability and lack of skills, competitive pressure, government support and the change to the digital environment. These factors were categorized according to TOE framework, investigated, and empirically tested using survey data to determine their influence on the adoption of smart farms. The results showed that the compatibility of technology, financial costs for the organization, and the digital environment change influence the adoption of smart farms. This study suggests practical implications for the adoption of smart farm technology based on the results.
