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10 June 2025 | Story Leonie Bolleurs | Photo Supplied
Anita Venter
According to Dr Anita Venter, eco-bricks help prevent further environmental degradation, a theme often highlighted by World Environment Day.

Students filling plastic bottles with tightly packed wrappers, chips packets, and cling wrap until they are sturdy may not look like revolutionaries, but that is exactly what they are. This Eco-Bricks initiative is a grassroots effort that transforms plastic waste into construction material, sparking environmental change from the ground up. From there, the possibilities multiply – from benches to buildings, and from awareness to action.

It is not just about just stuffing bottles; it is about shifting mindsets.

Dr Anita Venter, Lecturer in the Centre for Development Support at the University of the Free State (UFS), believes eco-bricks directly address the urgent need for solutions to plastic pollution. “By taking plastic out of the waste stream and giving it a new, useful life, we're actively participating in ecosystem restoration and preventing further environmental degradation, a theme often highlighted by World Environment Day.”

However, the Eco-Bricks project is doing more than managing waste. “Beyond this practical application, it serves as a powerful community development tool, empowering individuals to take control of waste management and fostering a vital environmental consciousness.”

And while we can dream of a plastic-free world, Dr Venter is grounded in today’s realities. “So, my approach is that I'd rather have plastic contained safely within a bottle – repurposed in a regenerative way – than seeing it break down into nano-plastics, poisoning our earth. This project is about finding practical solutions within our current reality.”

 

A no-cost solution 

Dr Venter does not lead from a podium; she is mentoring from the sidelines. “I'm primarily involved in mentoring our student champions. They are the real drivers, facilitating the eco-brick training peer-to-peer. It's about empowering them to spread the knowledge and skills, rather than me being the sole instructor. It’s a beautiful ripple effect.”

And ripple it does. “These initiatives continue in their communities, and that truly warms my heart,” she says. The students are taking the lessons home, creating a chain reaction of action and awareness. “It’s not just about building bricks; it’s about inspiring continued action.”

The concept’s biggest success story? Thousands of eco-bricks being used by the Natural Building Collective in the Western Cape for formalised buildings. Proof that what was started by students can reshape entire landscapes.

“I see eco-bricks as an incredible community development tool. What’s beautiful about it is that it’s a no-cost activity. Anyone who wants to start a community development initiative can pick it up, and they immediately reap the dual benefits of cleaning their environment and taking control of their own waste management. It’s very empowering on a grassroots level.”

 

Regeneration starts here

Dr Venter, who has been part of the initiative since 2013, sees it as integral to her broader environmental work as climate activist focusing on research related to housing, informal settlement upgrading, culture, socio-ecological development, regenerative design, and art. She is quick to connect plastic pollution to the deeper ecological crisis we face. “Plastic is a monumental environmental problem, rapidly leading to biodiversity collapse, which I honestly believe is a far more pressing issue than even the climate crisis itself. It’s stark – babies are now born with plastic in their tiny bodies, and these microplastics are found in every human organ. It’s a pervasive crisis.” 

With students and community leaders now steering the project, she is hopeful about the future: “The beauty of something so accessible and practical is that it doesn’t need top-down direction; it flourishes from the ground up as people recognise its value and adopt it.”

Dr Venter’s commitment to making waste meaningful goes well beyond the Eco-Bricks initiative. In the project What Remains Through Time, Slowness and Stillness, waste is transformed into meaningful art, and communities step into the role of co-creators. 

Using post-natural building techniques, the project incorporates both waste and natural materials, marrying ecological restoration with social transformation. Sites such as the Oliewenhuis Art Museum, Bloemfontein National Hospital, and Sekoele Holistic Living Arts Centre serve as hubs where participants can engage hands-on, learning new skills while strengthening their communities.

According to Dr Venter, the main activities at Oliewenhuis are from June to September this year. Here, the focus is on community collaboration and regenerative art that goes far beyond constructing physical spaces. “We’re aiming to break down social barriers and make art truly accessible and inclusive within public spaces. It’s as much about building community as it is about building structures,” she says.

So, what can you do?

Start where you are. Join an eco-brick or art-for-regeneration initiative. “Go beyond sustainability! We need to regenerate, to ‘renew, restore, revitalise’,” says Dr Venter. Attend a training event. Share what you learn. “That’s how we create real, lasting change – through shared knowledge and empowered action.”

News Archive

Using sugar to make the world a sweeter place
2017-10-13

Description: Deepback sugar Tags: Sugarcane, Dr Deepack Santchurn, Mauritius Sugar Industry Research Institute (MSIRI), Department of Plant Sciences 

Dr Deepack Santchurn, former PhD student in the
Department of Plant Sciences at the UFS,
and plant breeder in the  Mauritius Sugar Industry
Research Institute, with Prof Maryke Labuschagne, left,
Dr Santchurn’s study leader.
Photo: Charl Devenish



Besides it mainly being used for sugar production, sugarcane has emerged as an important alternative for providing clean renewable energy. Dr Deepack Santchurn, who works in the sugarcane breeding department of the Mauritius Sugar Industry Research Institute (MSIRI), believes if he could contribute towards a more environment-friendly and renewable energy through the use of sugarcane biomass, he would consider himself having made a great leap towards a better world. 

Sugarcane is mostly known and exploited for the sugar in its cane stem. According to Dr Santchurn it is not the only thing the crop does well. “Together with certain grasses, it is the finest living collector of sunlight energy and a producer of biomass in unit time. Sugarcane is now recognised worldwide as a potential renewable and environment-friendly bioenergy crop.” 

Significantly more bioenergy can be produced from sugarcane if the production system is not focused on the production and recovery of sucrose alone but on the maximum use to the total above-ground biomass. Diversification within the sugarcane industry is of paramount importance. 

He has been able to identify a few high biomass varieties that can be exploited industrially. One of the varieties is a commercial type with relatively high sugar and low fibre in the cane stem. Dr Santchurn explains: “Its sucrose content is about 0.5% less than the most cultivated commercial variety in Mauritius. Nevertheless, its sugar yield and above-ground biomass yield surpass those of the commercial varieties by more than 24%. The genetic gains compared to commercial varieties were around +50% for total biomass yield and +100% for fibre yield. Its cultivation is strictly related to bio-energy production and the extracted juice can be used as a feed-stock for ethanol and other high-value products.”

Dr Santchurn received his PhD at the UFS’s Department of Plant Sciences during the Winter Graduation Ceremonies in June this year. His study leader was Prof Maryke Labuschagne from the Department of Plant Sciences. 

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