22 pages, While climate change threatens global food security, health, and nutrition outcomes, Africa is more vulnerable because its economies largely depend on rain-fed agriculture. Thus, there is need for agricultural producers in Africa to employ robust adaptive measures that withstand the risks of climate change. However, the success of adaptation measures to climate change primarily depends on the communities’ knowledge or awareness of climate change and its risks. Nonetheless, existing empirical research is still limited to illuminate farmers’ awareness of the climate change problem. This study employs a Bayesian hierarchical logistic model, estimated using Hamiltonian Monte Carlo (HMC) methods, to empirically determine drivers of smallholder farmers’ awareness of climate change and its risks to agriculture in Zambia. The results suggest that on average, 77% of farmers in Zambia are aware of climate change and its risks to agriculture. We find socio-demographics, climate change information sources, climate change adaptive factors, and climate change impact-related shocks as predictors of the expression of climate change awareness. We suggest that farmers should be given all the necessary information about climate change and its risks to agriculture. Most importantly, the drivers identified can assist policymakers to provide the effective extension and advisory services that would enhance the understanding of climate change among farmers in synergy with appropriate farm-level climate-smart agricultural practices.
Hibbs, Amber Campbell (author), Kahl, Daniel (author), PytlikZillig, Lisa (author), Champion, Ben (author), Abdel-Monem, Tarik (author), Steffensmeier, Timothy (author), Rice, Charles W. (author), and Hubbard, Kenneth (author)
Format:
Journal article
Publication Date:
2014-06
Published:
USA
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 140 Document Number: D06056
14 pages, The study assessed the agricultural extension agents' climate change training needs in Abia state. Eighty-three extension agents were chosen for the study using a simple random sampling procedure. Questionnaire was used to collect data, which was then summarized using percentages, frequency counts, and the mean. The findings indicated that male agricultural extension agents comprised a majority (53%) of the state's agricultural extension agents. The average household contained between one and five members (60%). Only 10% have a master's degree, while the majority (69%) have a bachelor's degree. The average length of employment was 15 years. The study's findings indicated that there are still extension agents who are unaware of climate change (1%). Agricultural extension agents in the study area have a limited understanding of all six climate change statements. Extension agents provide significant climate change services to farmers, including technical advice on climate change ( =2.0), the establishment of Small Plot Adaptation Techniques (SPAT) to monitor the impact of climate change (=2.1), and educating farmers on appropriate agrochemicals for climate change adaptation (weed and pest control) ( =2.2). Additionally, the results indicated that understanding fundamental climate change concepts ( =3.7), utilising cultural practises to mitigate and adapt to climate impacts ( =3.4), and environmentally friendly management practises to mitigate and adapt to climate change ( =3.4) were the primary areas of need for climate change training among extension agents. Inadequate funding for training (=3.4), a lack of financial support from organizations ( =3.3), and an inability to access financial support from funders (=3.3) were the major barriers to attending climate change training for extension agents. Regular climate change seminars and training workshops for agricultural extension agents at the federal and state levels will help to improve their overall knowledge of climate change issues. The Agricultural Development Program should utilize Forth nightly training (FNT) meetings to educate extension agents about climate change issues.
12 pages, The study assessed the capability of extension agents in disseminating Climate Change (CC) information in Delta State, Nigeria. A multi-stage procedure was used in selecting 60 respondents. Data were collected on respondents’ capacity for outreach to farmers; existence of linkage on CC and sources of information on CC, constraints to building capacities for outreach and strategies to strengthen capacities. Mean, percentage, were used for analysis. Findings showed the existence of training on CC (23.3%) and practical learning experience on CC adaptation (20.0%). Lack of human resources (x= 3.30) and training programmes on CC (x= 3.23) were constraints to building capacities for outreach. Organization of seminars, workshops (x= 3.58), proper staffing (x= 3.57), provision of incentives (x= 3.55) were suggested as strategies to strengthen capacity for outreach. Extension agents in the state lack the requisite facilities for outreach to farmers on climate change agricultural adaptation. Also, there are inadequate human and material resources necessary for effective coverage of the farming population. Government and development organizations should hire qualified extension personnel and provide weather observatory for CC outreach in Delta State.
10 pages., Smallholder farmers in Afghanistan are already facing various risks in agricultural production due to past continuous insurgencies. Climate change is likely to amplify the risk and make them even more vulnerable. The present study attempted to evaluate the vulnerability profiles of smallholder farmers due to climate change using the IPCC Framework. Primary data on relevant parameters for assessing climate change-led social vulnerability in the region were collected by classifying study region into two zones: the plain and the hills of Yangi Qala District in Takhar province, Afghanistan. Thirteen villages from each zone were selected at random, and face-to-face interviews were conducted with ten randomly selected households in each of the selected villages in both zones based on a pre-tested questionnaire. The questionnaire contained indicators for all three dimensions of vulnerability: exposure, sensitivity and adaptive capacity. The collected data were subjected to a proposed vulnerability index, after estimating the indices of the three dimensions of vulnerability. The Iyenger and Sudershan weighting method was used to assess the contribution of each vulnerability dimension. Vulnerability was classified according to different categories based on beta distribution to evaluate the villages’ vulnerability status. The results showed that about 23% of all 26 sampled villages in both zones had low exposure, 26% moderate exposure and 51% high exposure to climate-change hazards and extreme weather events. High sensitivity was observed in 51%, moderate sensitivity in 7%, and low sensitivity in 42% of villages. High adaptive capacity to climate change was observed in 38% of villages, 19% were moderately adaptive and 42% showed a low adaptive capacity. High vulnerability was observed in 50% of villages, 4% were moderately vulnerable, and 46% had low vulnerability. A high proportion of smallholder farmers in the hilly zone in the sampled district were highly vulnerable, exposed and sensitive with a low adaptive capacity to climate change compared to the plain zone. The high vulnerability in the hilly zone was attributed to limited resources with a low adjustment capability to counter the disturbances, especially in crop cultivation, in response to climate change. A handful of low-cost and local approaches such as improving farmer extension services, introducing small-scale local infrastructure projects, reinforcing informal safety nets and protecting natural ecosystems could be viable cost-effective options that would also be sustainable given their low recurring costs and the limited maintenance required.
11 pages, Changes occurring in the Extension environment include that of climate. Reduced and sporadic rainfall is among the effects of climate change and variability with consequent negative effects on food production. Smallholder agriculture in most developing countries world-wide, including South Africa, is largely rain-fed. Extension agents, therefore, need to constantly improve their capabilities to remain useful to farming communities. The purpose of the paper is to determine Extension agents' climate variability coping competencies required to effectively support smallholder crop farmers' production. The study adopted a multi-stage random sampling approach to site and respondents' selection. Semi-structured questionnaire was used to collect data in 2014 from smallholder crop farmers in four municipalities of Limpopo province. Information was also collected from Extension managers and field-level extension agents of the Limpopo Department of Agriculture by means of questionnaires. The most popular climate variability coping strategy promoted by most extension agents was conservation agriculture. Small yield differences between Extension service-recipients and non-recipients indicate that Extension support has minimal effect on farmers' production. Agents need new competencies regarding correct application conservation agriculture. The study recommends the involvement of extension agents, scientists and farmers in adaptive trials for effective implementation of conservation agricultural practices to improve crop yields.
18 pages, This research adds to the knowledge of extension education by revealing the quality of climate-smart agricultural (CSA) advice offered by private and public extension sectors. The study was aimed at addressing the paucity of empirical data that exists relating to the quality of CSA advice. Using a semi-structured questionnaire, the descriptive and correlational study gathered data from a systematic sample of 115 farmers. There was a moderate positive correlation between extension effectiveness and adoption of CSA. There were significant differences between public, private, and both sectors in relation to the quality of information disseminated. The quality of private sector’s advice was significantly lower than that of public sector and both sectors. There was no significant difference in quality of advice between public sector and both sectors. The quality of CSA advice was generally fair, however, heightened dissemination of CSA practices by both sectors of extension would yield better quality advice thus improve the adoption of the practices among farmers.
Jagtap, S.S. (author), Jones, J.W. (author), Hildebrand, P. (author), Letson, D. (author), O'Brien, J.J. (author), Podestá, G. (author), Zierden, D. (author), and Zazueta, F. (author)
Format:
Journal article
Publication Date:
2002-12
Published:
USA: Elsevier
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 161 Document Number: D07811
Ngoma, Hambulo (author), Mason-Wardell, Nichole M. (author), Samboko, Paul C. (author), and Hangoma, Peter (author)
Format:
Research summary
Publication Date:
2019
Published:
Zambia: Department of Agricultural, Food, and Resource Economics, Michigan State University, East Lansing.
Location:
Agricultural Communications Documentation Center, Funk Library, University of Illinois Box: 166 Document Number: D11674
Notes:
4 pages., Feed the Future Innovation Lab for Food Security Policy, Research Paper 164., Using games, researchers tested the hypothesis that innate behavioral traits such as risk and time preferences play a role in Zambia farmers' decisions about adoption of Climate-smart agriculture (CSA) practices. "Given our findings that more risk-averse individuals are less likely to adopt CSA, a practice that is intended to be risk-reducing, a key policy implication is the need for a retooling of both public and private extension services to better demonstrate and educate farmers on the risk-reducing effect of CSA practices such as conservation agriculture. Moreover, if insurance and subsidies are to be used successfully to nudge adoption, extension will need to educate farmers on the structure of and mechanisms of payouts. This is important to build trust in the incentive systems.