Adaptation strategies – Moorreesburg

Adaptation strategies – Moorreesburg

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  Cropping systems
  
• 
  Production practices
  

The benefit of crop rotation in reducing production risk involves three distinct influences that were described by Helmers et al.(2001). Firstly, rotations, as opposed to monoculture cropping, may result in overall higher crop yields as well as reduced production costs. Secondly, rotation cropping is generally thought to reduce yield variability compared with monoculture practices. Thirdly, crop rotation involves diversification, with the theoretical advantage that low returns in a specific year for one crop is combined with a relatively high return for a different crop. Drought however, is usually detrimental to all crops, often preventing this advantage from occurring. An obvious benefit of diversification is the reduction of risk through the inclusion of alternative crops with relatively low risk (Nel & Loubser, 2004).

Higher yields associated with rotated crops will increase the per hectare cost of activities such as harvesting. On the other hand, weed and often pest control costs are less on rotated than monoculture crops, which will increase the net return. It is also known that nitrogen fertilization of grain crops can be reduced when grown in rotation with oil and protein rich crops without affecting the yield. The savings on inputs most probably outweigh the extra costs of harvesting higher yields, which suggests that the net returns and risk for the rotation systems are conservative estimates (Nel & Loubser, 2004).

Current cropping system for the case study is wheat-medics-wheat-medics combined with mutton production. Other alternative cropping systems adapted for the region to be included in the model are:

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  Wheat-medics-wheat-medics (with soutbos)
  
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  Wheat-medics-medics-wheat
  
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  Wheat-wheat-wheat-wheat (mono cropping system) [with no sheep]
  
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  Wheat-lupin-wheat-canola (no sheep)
  

In the past 15 years, successful adoption of conservation agriculture (CA) took place among grain and sugar farmers in Kwa-Zulu Natal, as well as among grain farmers in the Western Cape and Free State, but has remained rather slow in other production areas of South Africa. Their main reasons for adopting CA relate to the improved water conservation properties and the ability to substantially lower production costs (Du Toit, 2007).

In 2004 it was reported that 45% of the total land cultivated in Brazil, is now estimated to be managed with no-till. In the case of land cropped by smallholder farmers (<50 ha), this figure is even reported to exceed 80% (Du Toit, 2012). Worldwide, a total of approximately 95 million hectares (ha) are currently being cultivated according to the principles of CA (Derpsch, 2005). The United Nations Food and Agriculture Organization, who have promoted the concept for the past ten years, state that CA has great potential in Africa, being the only truly sustainable production system for the continent (Food and Agriculture Organization, 2006).

It is thus evident that South Africa lack behind in adapting to long term sustainable production practices.

Conservation agriculture is an integrated system built on the following basic principles (Nel, 2010; du Toit, 2012):

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  Minimum soil disturbance – Conventional tillage methods are replaced by reduced or no-tillage and crops being planted by adapted planting equipment.
  
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  Establishment and maintenance of an organic soil cover in the form of a mulch.
  
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  Implementation of crop diversification and rotations, as opposed to mono-cropping.
  

Adaptations options include:

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  Conservation agricultural production practices versus conventional production practices
  

5. Adaptation strategies – Carolina

• 
  Cropping systems
  
• 
  Production practices
  

For a detailed discussion on cropping systems the reader is referred to section 8.4 (Cropping systems).

Current cropping systems are maize-soybeans-maize-soybeans and maize-sugar beans-maize-sugar beans combined with beef and mutton production. An alternative cropping system adapted for the region to be included the integrated model is:

• 
  Maize-maize-maize-maize (mono system)
  

For a detailed discussion on cropping systems the reader is referred to section 8.4 (Production practices).

Adaptations options include:

• 
  Conservation agricultural production practices versus conventional production practices
  

The following are a list of adaptation strategies debated in the reference group, but not included in the integrated climate change model:

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  Narrower row width (for better moisture conservation)
  
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  More short growers (access to genetics is a problem)
  
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  Moist management is very important
  
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  Grain sorghum and sunflower production can be an alternative (to be researched)
  

6. Olifants East/Inkomati (small scale/subsistence)

When considering how small-scale farmers can best improve their current conditions, and further improve their ability to deal with climatic change, it is important to keep in mind that people are “active agents rather than passive victims of circumstances” (Eriksen et al., 2005, p.302). This research proposes that a participatory community process is necessary at the ground level, a process that builds on local capacity and knowledge, and which can identify locally appropriate and suitable adaptations. This should be a participatory process that is aware of and sensitive to local considerations of culture, ethics, knowledge and risk. Local actors, such as extension officers, who have a continuous presence in farming communities, should ideally run such initiatives. This does not mean that external knowledge from scientists and practitioners is not required. As was highlighted by Maddison (2006), some of the possible limits to adaptation include both the lack of knowledge about adaptations and the lack of weather and climatic information. It is also important to remember that climate change projections indicate future conditions and extremes that are potentially beyond what farmers have experienced in their lifetime, and a participatory community process may therefore require scientific and professional input.

Such efforts as those involved in creating the participatory community processes outlined above come with a number of challenges. Firstly, creating the time necessary might pose a challenge both to farmers and to extension officers. Farming is a time consuming occupation, and many rural households also face daily and immediate issues and tasks, such as acquiring water for domestic use. It might therefore be difficult for small-scale farmers to find, or to prioritise, the time necessary for such a process. As for extension officers, they would have to add the process to their current work tasks.

At policy level, focus and prioritising is required, as resources should be brought towards training extension officers and providing them with the necessary resources. Accordingly, projects in NGOs and academic institutions should focus on partnering and knowledge sharing with local extension officers. This might be challenging, both in relation to making the necessary financial resources and skills available, and in relation to partnerships, as the willingness of stakeholders such as scientists, NGO workers and government officials to cooperate might be limited.

As the research from Bushbuckridge has illustrated, more research is required in order to further uncover and understand the inter-related nature of stressors and responses in the small-scale farming sector. Research should also focus further attention on the thresholds that reflect the point beyond which current practices and adaptation strategies are no longer able to sustain farming objectives, thereby guiding the adaptation process towards the areas where further adaptation action is needed. The limited scope of the research from Bushbuckridge also reflects the need for similar, though larger, community scale research that can work to strengthen the findings from this research.

In conclusion this research has shown that using a vulnerability framework helps to uncover context and location specific dynamics. The research has highlighted the need to focus on the current challenges facing small-scale farmers, while also preparing for future change. It is clear that adaptation initiatives need to include partnerships that are based on understanding local context and needs, and that further ensure continuity through which adaptation can be treated as a process rather than an end point.

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