Often, farmers excessively use chemical pesticides with detrimental effects on environmental and human health.The ‘Commercialising Bio-Pesticides in Bangladesh’ mini case study explains how the Katalyst project and private sector partner Ispahani Agro Ltd. formulated a policy recommendation on the amendment of the 1985 Pesticide Act to make the proper registration and marketing of “Bio-Pesticides” possible, allowing companies to market and distribute IPM products to a mass audience.
The extensive case study on ‘Improving Public Agricultural Extension Services in Bangladesh Using the M4P Approach’ illustrates Katalyst project’s experience in terms of designing interventions in the Local Government Services (LGS) sector, from testing them in small scale towards scaling-up and the accompanying challenges. The case study shows how innovative public-private partnerships create a vast impact on the lives of poor farmers in Bangladesh.
Katalyst, one of the leading market development programs in Bangladesh, wanted to investigate the scope for growth of agro-food processing industry in Bangladesh and define the interventions that could facilitate the growth by addressing the key barriers for growth and competitiveness. The study began with identifying prospective subsectors to analyse and understand the subsector-specific and overarching constraints and opportunities.
The study made a rigorous analysis of the production and export performance of the sector, challenges accompanying vegetables exports, backward and forward supply chain issues and requirements at the export destinations, and an assessment of government policies to address the supply side constraints in the vegetables exports.
Recent research on agricultural innovation has outlined social networks’ role in diffusing agricultural knowledge; however, so far, it has broadly neglected the socio-spatial dimensions of innovation processes. Against this backdrop, the authors applies a spatially explicit translocal network perspective in order to investigate the role of migration-related translocal networks for adaptive change in a small-scale farming community in Northeast Thailand.
Kenya has emerged as a frontrunner in information and communication technologies (ICT) in Sub-Saharan Africa. The government has been actively supporting the ICT sector as one of the key drivers of economic growth. In addition to large international firms that are setting up offices in Nairobi, such as Nokia, IBM and Google, local start-ups have also been expanding rapidly.
Agricultural information is transferred through social interactions; therefore, ties to agricultural informants and network structures within farmers’ local neighborhoods determine their information-gathering abilities. This paper uses a spatial autoregressive model that takes account of spatial autocorrelation to examine such network connections, including friendship networks and advice networks, upon farmers’ knowledge-gathering abilities during formal agricultural training.
Most of today’s information services on the web are designed for PC users. There are few services fit to be accessed by mobile devices. In the countryside of China, most of the mobile phone users can not access the Internet. For this reason, was developed a General Agriculture Mobile Service Platform. The Platform is designed to make these information services fit to be accessed by mobile users, and to make those mobile phone users can use these services without Internet connection.
In order to solve the problems of low efficiency and backward methods in the agro-technical extension activities, this paper designed an agro-technical extension information system based on cloud storage technology. This paper studied the key technologies, such as cloud storage service engine, cloud storage management node and cloud storage data node and designed the overall architecture of the agro-technical extension information system based on cloud storage technology.
Timely availability of reliable information on weather conditions, agro-advisories, and market information can help to minimize losses in agriculture. This paper presents a scientific and integrated approach to identify areas of high agriculture vulnerability to climate change and availability of ICT services for dissemination of Climate Smart Agriculture (CSA) information in the vulnerable areas. This study was illustrated for India where the majority of the population depends on agriculture for their livelihoods, and this sector is highly vulnerable to climate change.