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Adaptation strategies of small-scale rooibos tea farmers in the Suid Bokkeveld
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- 6.3 Local adaptation strategies to climate variability in Vhembe
6.2 Adaptation strategies of small-scale rooibos tea farmers in the Suid BokkeveldThe Suid Bokkeveld is a remote rural area which lies within a semi-arid winter rainfall region to the north of the Cederberg Mountains, in the Northern Cape Province. Farmers in the south of this area which comprised the case study are severely affected by periodic droughts, and have few alternatives to low-input subsistence and crop farming. Levels of vulnerability are high in the area, with low wages and a lack of formal employment being characteristic. Most small-scale farmers work for between one and six months tending their own crops and livestock on land which is often leased (not owned), with the balance of their time spent as seasonal labourers. The Environmental Monitoring Group (EMG) has assisted the small growers to form the Heiveld Co-operative in 2001, as a means to produce cultivated and wild harvested rooibos tea (Aspalathus linearis) for niche fairtrade and organic markets overseas. Members of the Heiveld Co-operative have collaborated with EMG, Indigo development & change, the University of Cape Town and other research and development organisations on a range of issues, including participation in a WWF-funded climate change study between 2002 and 2004. To summarise the climate change projections for the area, it is predicted that this and other winter rainfall regions will become more arid, with increased variability in precipitation and probable delays in the onset of the rainy season. Changes in the amount, distribution and onset of rainfall beyond the conventional range of variability hold serious implications for rooibos production management, and thus, the livelihoods of small-scale farming communities in the area.28 There have been severe impacts of climatic variability experienced during 2003 – 2006, including record maximum temperatures, leading to agreement amongst farmers that they were already experiencing the effects of climate change. When faced with the onset of the recent drought in 2003, small-scale organic rooibos farmers in the Suid Bokkeveld implemented traditional technologies on their farms, several of which expanded on principles of traditional farming practices such as retaining natural strips of vegetation and leaving organic material on the soil surface after clearing of lands for planting. 29 While these technologies have been implemented as adaptation strategies to climate change, these are also essentially sound practices to adopt for sustainable organic farming in an arid region prone to climate variability. With support from a range of organisations, farmers were able to develop their own adaptation strategies, implement them and monitor the effects of the mitigation measures. A number of strategies and tools to integrate climate change into farming activities can be identified. An important mechanism used in the WWF project was Quarterly Climate Change Preparedness Workshops. These were farmer-to-farmer workshops to assist farmers in developing their own capacities to apply on-farm adaptive strategies in the face of changing climate conditions. Seasonal forecasts were presented to farmers, who were then able to retrospectively discuss the forecasts of the previous quarter and verify these with their own experience of climate in the area. As a result, “farmers were empowered to critically reflect on scientific forecasts and make informed land user decisions based on an integrated interpretation of the data and their own knowledge”.30 A second set of activities involving participatory monitoring and evaluation and creating learning partnerships fell under a participatory action research process undertaken with farmers in 2005 to monitor growth of wild and cultivated rooibos on five farms within the study area. Farmers volunteered to participate in the study, and were actively involved in generating monthly rainfall data and monitoring and recording growth of wild and cultivated rooibos on their farms. One of the beneficial aspects was the exchange of knowledge through the learning partnerships that were formed between researchers, land users, and rural development practitioners. Farmers have for generations adapted their farming practices to mitigate the adverse effects of drought, and much of the associated knowledge has been perpetuated through oral tradition. This knowledge was recorded through the knowledge exchange amongst academics and land users, and collaborative learning to effect change and action. The research also indicated that Wild rooibos endemic to the lower-rainfall Suid Bokkeveld is better able to withstand effects of drought stress, and has a lower drought mortality rate than cultivated plants, thus highlighting the importance of conservation of wild rooibos populations and their shrinking habitats for future use. In their capacity as members of government advisory panels, researchers involved in the project presented findings and contributions from small-scale farmers at discussion groups and conferences at government level. This created a direct link between small-scale land users and government decision makers, thus helping to promote policy uptake. However, at the local level, links between the Suid Bokkeveld case study and the municipal integrated development plan (IDP) were not made in any meaningful way. In summary, the most important contributor to the success of the case study was the participatory methodology employed, and using this to promote learning linkages between farmers, development practitioners and researchers. Underpinning these methodological tools, the learning approach was key, as farmers were very enthusiastic about tackling the technical issues of climate change, and in putting things into practice on their farms.31 6.3 Local adaptation strategies to climate variability in VhembeA case study on local adaptation strategies to climate variability in the Vhembe District, Limpopo Province forms the basis for a recent paper highlighting the importance of policy that supports a multi-dimensional response to a wide range of stresses32. The case study focused on agricultural decision-making in a communal irrigation scheme, comprised of poor and better-off farmers, male and female. Through interviews, surveys and participatory methods the research demonstrated that adaptation strategies within a community are socially differentiated and present differing objectives and priorities. The research included the uptake of seasonal forecast information as an adaptation strategy and compared it to other factors that affect agriculture-related decisions, to evaluate the importance farmers placed on climate information. The case study evidence suggests that as poorer farmers have less opportunity to access resources such as fertiliser and transport that reduce its impact, they are more directly dependent on climatic conditions. However, interestingly, poorer farmers have reduced their vulnerability and increased their resilience to variations in climate by diversifying their strategies and the crops they plant. For example, some poorer farmers plant nitrogen-fixing crops together with other crops, while better-off farmers are more likely to buy inorganic fertiliser when they can afford to. Better-off farmers seem vulnerable to the direct impact of climate variability on their crops, as they tend to plant a single crop. This can result in no proceeds when climatic conditions are unfavourable. However, in good years, these better-off farmers may be able to increase their income base and thus their resilience. This, combined with better access to financial resources that can indirectly serve to absorb the shock of negative climate impacts or other production stresses, comprises a completely different local adaptation strategy to those that poorer farmers in the area tended to use.
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