14 pages., via online journal., The smartphone is perhaps the most influential device in modern society. Research has indicated
students perceived that using smartphones in the classroom aided learning. However, most American
high schools ban students from using phones in the classroom. Previous research supports the idea
that advanced smartphone applications in student- centered learning environments can improve
achievement and motivation. Currently, there is little in the agricultural education literature pertaining
to smartphone enhanced learning among secondary agriculture students. This study compared
motivational differences between non-equivalent comparison groups. Secondary agricultural students
from 13 schools across Louisiana completed the Course Interest Survey to measure motivation during
a forestry unit. Data were analyzed using Hierarchical Linear Modeling. The analysis rendered no
statistically significant differences between the groups in motivation. It was concluded that
smartphones do not reduce motivation and should be considered in agricultural education classrooms
where policy permits.
5 pages., 2018 5th International Conference on Power and Energy Systems Engineering, CPESE 2018, 19–21 September 2018, Nagoya, Japan, via online journal., Agriculture plays an important in providing food security and sustainability for the people in any country. However, lack of funding and limited distribution channels to reach customers are frequent problems faced by farmers to meet the level of sustainability. Agriculture’s sustainability can be strengthened by allowing an innovation of services such as Financial Technology (FinTech), and digital marketplace. Digital marketplace with Fintech enabled might transform agriculture’s business process into more sustainable in term of funding and distribution. FinTech offers farmers convenient ways of getting sources of funding through crowdfunding and digital payment system. Thus, digital marketplace can act as a platform for FinTech to integrate the innovative financial solution into broader agriculture’s ecosystem. The study proposes a modelling digital marketplace with FinTech enabled especially crowdfunding and payment system in order to support agriculture’s sustainability. The model connects all actors (farmers, landowners, investors, and consumers) into a platform that can promote transparency, empowerment, resourcefulness, and public engagement in agriculture.
Nigeria, the seventh most populous country in the world, is plagued by livelihood challenges such as poverty and food insecurity, which are more pervasive among farming households and rural communities. Organic farming is being promoted by some domestic non-governmental organizations as a means of addressing the problem of poverty and food insecurity among farming households and rural communities in the country. Promoters consider organic farming to be well-suited to smallholder farmers’ socio-economic conditions in Nigeria, and that it can help improve their livelihood conditions through increased agricultural productivity and farm income. However, the adoption of the technology by smallholder farmers has been underwhelming, for reasons yet to be studied. Using a livelihood framework and through a case study of farmers in Ibadan, Oyo State, this study qualitatively explores and provides insights into the factors that influence, constrain, and gender the adoption of organic farming in Nigeria. Overall, it was found that a mix of factors, which include institutional considerations, farmers’ livelihood assets and vulnerability contexts, their livelihood activities, and gender-related variables shaped adoption decision-making. The policy implications of the findings were outlined.
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.
5pgs, The Covid-19 pandemic, global trends, and technological advancements lead to the perception that digitalization is about the most sustainable means of growing Africa’s agribusiness and food supply chains. Many global agribusinesses have successfully integrated digital technologies to enhance operational efficiencies and business relations with their upstream and downstream actors. However, evidence is scant on the uptake of digital technologies among small and medium agribusiness firms in sub-Saharan Africa (SSA). Against this backdrop, this review paper identifies research gaps regarding the adoption and implication of digitalization in building sustainable food systems for African economies. Our preliminary finds show some sustainable practices in the SSA food supply chains by adopting specific technologies related to production, grain storage, food waste management, and warehouse management but very low adoption of food processing technologies and digital marketing platforms. Most importantly, the application of the Internet of Things, Big data, Artificial Intelligence, Blockchain and/or Business Analytics is very rare. Most of the digitalization process tends to be mobile-based.
17 pages, The rise in the demand for animal products due to demographic and dietary changes has exacerbated difficulties in addressing societal concerns related to the environment, human health, and animal welfare. As a response to this challenge, Precision Livestock Farming (PLF) technologies are being developed to monitor animal health and welfare parameters in a continuous and automated way, offering the opportunity to improve productivity and detect health issues at an early stage. However, ethical concerns have been raised regarding their potential to facilitate the management of production systems that are potentially harmful to animal welfare, or to impact the human-animal relationship and farmers' duty of care. Using the Five Domains Model (FDM) as a framework, the aim is to explore the potential of PLF to help address animal welfare and to discuss potential welfare benefits and risks of using such technology. A variety of technologies are identified and classified according to their type [sensors, bolus, image or sound based, Radio Frequency Identification (RFID)], their development stage, the species they apply to, and their potential impact on welfare. While PLF technologies have promising potential to reduce the occurrence of diseases and injuries in livestock farming systems, their current ability to help promote positive welfare states remains limited, as technologies with such potential generally remain at earlier development stages. This is likely due to the lack of evidence related to the validity of positive welfare indicators as well as challenges in technology adoption and development. Finally, the extent to which welfare can be improved will also strongly depend on whether management practices will be adapted to minimize negative consequences and maximize benefits to welfare.
