South Africa Sugarcane Survives Severe Droughts Due to Better Water Management (Video)
Published on by Water Network Research, Official research team of The Water Network in Case Studies
In recent years, South Africa has suffered through some of its worst droughts in history, but sugarcane producers working with Solidaridad were prepared.
Due to the bulk water improvements implemented by the Sustainable Water Fund (FDW) , farmers were able to stabilize yield output at a healthy 71 tonnes per hectare despite the harsh dryness experienced during the 2016 drought. This was in the same period that commercial farms lost about 25% of their harvests. Through project interventions, yield output of smallholder farmers went up on average of about 34% between 2015 and 2018.
Representative image source: Pixabay, labeled for reuse
In South Africa, approximately 25% of the total sugarcane crop is produced on irrigated farms. A high demand for water in that region continues to put pressure on the limited resources available to the sugar industry because of competition with other crops, human water use and frequent droughts.
In addition, water use for agriculture is subject to increasing scrutiny from policy makers and environmentalists resulting in an industry under more pressure to enhance water use efficiency and effectiveness. As a result, water use efficiency has been identified as a major point of concern in the irrigated sugarcane areas.
Supporting farmers with the sustainable water fund
In a context of growing public concern, Solidaridad launched the Sustainable Water Fund project in 2015 in Malelane. The farming town of Malelane sits on the northeastern part of Mpumalanga, South Africa, in close proximity to the Mozambique and Swaziland borders. Malelane is located in the Crocodile River catchment area, a highly stressed area with its water capacity already 70% allocated.
The Water Research Commission and TSGro, a subsidiary of TSB Sugar Ltd., one of the biggest sugar producers in the country, provided crucial knowledge and support for making the project successful. The TSB mill operates close to international borders, which grants them a significant impact on trans-border water agreements. With South Africa being a water-scarce country, all structured interventions not only benefit farmers but also have a positive impact on the ecology, as well as assisting with international obligations.
The majority of the smallholder producers in the Sustainable Water Fund programme were working on farms with old, underinvested infrastructure that left them at times going for months without water in attempts to repair worn-out equipment. Since water is such a critical input for sugarcane farming, the lack of efficient water supply had an immediate and negative impact on the yields among these small farmers. The lack of water seen in recent years compromised their sustainability and future welfare as 84% of farmers in the area were producing without profit.
Bridging the knowledge gap using evidence-based results
Solidaridad proposed interventions to increase water efficiency and effectiveness through improvement in the bulk water infrastructure. The first point of intervention was to evaluate the current state of infrastructure, including old pipes, clusters, valves, routers and pumps. This evaluation accelerated the much needed repairs.
A key goal of the programme was to get farmers to see the value of maintaining good infrastructure through evidence-based results. With proof of positive results, the small farmers become motivated to invest their own money in maintaining their infrastructure when the programme is concluded.
News source: Solidaridad News
Video source: Solidaridad on YouTube
Attached link
http://www.youtube.com/embed/GkEwuGYD4MAMedia
Taxonomy
- Agriculture
- Basin Irrigation
- Drip Irrigation
- Fertilizers
- Hydroponics
- Sustainable Agriculture
- Centralized Irrigation Control
- Water Harvesting
- Water Efficiency
- Irrigation
- Irrigation and Drainage
- Future Irrigation Systems
- Wastewater Use
- Centrifugal Pumps & Pumping Systems
- Agricultural Engineering
- Integrated Urban Water Management
- Sustainable Water Resource Management
- Water Management
- Water Quality Management
- Crop Farming
- Sugar Cane Crops
- Irrigation Management
- Irrigation & Water Management
- Agriculture policy
- Integrated Water Resources Management (IWRM)