Climate change awareness: a case study of small scale maize farmers in Mpumalanga province, South Africa

Oduniyi, Oluwaseun Samuel

07 1900

This study was conducted in the Nkangala district, in the province of Mpumalanga in South Africa. This province remains the largest forestry production region in South Africa. The majority of people living in Mpumalanga are farmers and they have contributed immensely to promote food security. The objective of the study was to determine the level of climate change awareness among small scale maize producers in Mpumalanga province. Random sampling techniques was used to select two hundred and fifty one (251) farmers to be interviewed. A pre-tested questionnaire was administered to maize farmers, focusing on matters relating to climate change awareness in maize production. Data was captured and analysed using software package for social science (SPSS version 20 of 2012). Descriptive statistics were applied to analyse and describe the data. Logistic regression analysis followed to demonstrate the significance of the independent variables on climate change awareness. The results of the analysis indicated that the information received and the size of the farm had an impact on climate change awareness in the area of study. It was therefore recommended that the majority of farmers in Mpumalanga needed to be made aware of climate change in order to assist them to build the adaptive capacity, increase resilience and reduce vulnerability. Information on climate change awareness should be disseminated well to ensure that it will attract the attention of the farmers / Agriculture and  Animal Health / M. Sc. (Agriculture)

Climate change awareness

Mpumalanga province of South Africa

Small scale farmers

Maize production

Logistic regression analysis

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Awareness and perceptions of climate change impact amoung small-scale maize farmers in Eswatini : the case study of Hhohho, Manzini and Shiselweni regions

Kunene, Melusi Noel

05 1900

Agricultural production is the major source of household food security and income for smallholder maize farmers in the rural households in the Kingdom of eSwatini. The sector also contributes approximately 6.5% to the national gross domestic product and 50% of raw material for industries and other sectors. However, the sector is faced with several challenges which hinder its development. The challenges are brought about by climate change. Farmers implement various strategies to adapt to the negative effects of climate change. Farmers awareness and perceptions of impacts of climate change influence the strategies and hence, farmers’ level of adaptation. This study was undertaken to assess smallholder maize farmers’ awareness and perceptions of the impacts of climate change in three maize producing regions of eSwatini. Descriptive statistics and a regression model were used for data analysis. The results from a descriptive analysis indicated that 71.3% of farmers were aware of climate change, while 28.7% were not aware. A regression test revealed that climate-related information was highly significant in determining farmers’ awareness of the impacts of climate change. A Likert scale analysis showed that rural-urban migration, floods incidents and soil erosion were the most important variables that influenced small-scale maize farmers’ perceptions of climate change. The study revealed that there should be more focus on improving extension services to promote access to financial services. / Agriculture and  Animal Health / M.Sc. (Agriculture)

Climate change

Principle Component Factor Analysis

Five-point Likert scale analysis

Eswatini

577.22096887

Likert scale -- Eswatini -- Case Stuides

Drought analysis with reference to rain-fed maize for past and future climate conditions over the Luvuvhu River catchment in South Africa

Masupha, Elisa Teboho

02 1900

Recurring drought conditions have always been an endemic feature of climate in South Africa, limiting maize development and production. However, recent projections of the future climate by the Intergovernmental Panel on Climate Change suggest that due to an increase of atmospheric greenhouse gases, the frequency and severity of droughts will increase in drought-prone areas, mostly in subtropical climates. This has raised major concern for the agricultural sector, particularly the vulnerable small-scale farmers who merely rely on rain for crop production. Farmers in the Luvuvhu River catchment are not an exception, as this area is considered economically poor, whereby a significant number of people are dependent on rain-fed farming for subsistence. This study was therefore conducted in order to improve agricultural productivity in the area and thus help in the development of measures to secure livelihoods of those vulnerable small-scale farmers. Two drought indices viz. Standardized Precipitation Evapotranspiration Index (SPEI) and Water Requirement Satisfaction Index (WRSI) were used to quantify drought. A 120-day maturing maize crop was considered and three consecutive planting dates were staggered based on the average start of the rainy season. Frequencies and probabilities during each growing stage of maize were calculated based on the results of the two indices. Temporal variations of drought severity from 1975 to 2015 were evaluated and trends were analyzed using the non-parametric Spearman’s Rank Correlation test at α (0.05) significance level. For assessing climate change impact on droughts, SPEI and WRSI were computed using an output from downscaled projections of CSIRO Mark3.5 under the SRES A2 emission scenario for the period 1980/81 – 2099/100. The frequency of drought was calculated and the difference of SPEI and WRSI means between future climate periods and the base period were assessed using the independent t-test at α (0.10) significance level in STATISTICA software. The study revealed that planting a 120-day maturing maize crop in December would pose a high risk of frequent severe-extreme droughts during the flowering to the grain-filling stage at Levubu, Lwamondo, Thohoyandou, and Tshiombo; while planting in October could place crops at a lower risk of reduced yield and even total crop failure. In contrast, stations located in the low-lying plains of the catchment (Punda Maria, Sigonde, and Pafuri) were exposed to frequent moderate droughts following planting in October, with favorable conditions noted following the December planting date. Further analysis on the performance of the crop under various drought conditions revealed that WRSI values corresponding to more intense drought conditions were detected during the December planting date for all stations. Moreover, at Punda Maria, Sigonde and Pafuri, it was observed that extreme drought (WRSI <50) occurred once in five seasons, regardless of the planting date. Temporal analysis on historical droughts in the area indicated that there had been eight agricultural seasons subjected to extreme widespread droughts resulting in total crop failure i.e. 1983/84, 1988/89, 1991/92, 1993/94, 2001/02, 2002/03, 2004/05 and 2014/15. Results of Spearman’s rank correlation test revealed weak increasing drought trends at Thohoyandou (ρ = of 0.5 for WRSI) and at Levubu and Lwamondo (ρ = of 0.4 for SPEI), with no significant trends at the other stations. The study further revealed that climate change would enhance the severity of drought across the catchment. This was statistically significant (at 10% significance level) for the near-future and intermediate-future climates, relative to the base period. Drought remains a threat to rain-fed maize production in the Luvuvhu River catchment area of South Africa. In order to mitigate the possible effects of droughts under climate change, optimal planting dates were recommended for each region. The use of seasonal forecasts during drought seasons would also be useful for local rain-fed maize growers especially in regions where moisture is available for a short period during the growing season. It was further recommended that the Government ensure proper support such as effective early warning systems and inputs to the farmers. Moreover, essential communication between scientists, decision makers, and the farmers can help in planning and decision making ahead of and during the occurrence of droughts. / Agriculture, Animal Health and Human Ecology / M. Sc. (Agriculture)

Climate change

Crop water requirements

Drought trends

Hargreaves method

Maize growing period

Planting dates

Probability distributions

Relative drought frequency

Small-scale farming

Water balance

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