Surviving climate chaos

While we can easily pop out for fresh fruit and crusty bread we鈥檒l probably continue to take food for granted. But a combination of population growth, resource scarcity and climate change have left our food supplies vulnerable. How can we produce food in a way that can withstand these challenges?

Sustainable food asparagus
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If we鈥檙e going to survive, we need to become more resilient.

Soil, the nonrenewable resource we rely on for all of our crops, is degrading at a rate of 24 billion tonnes a year due to the intensification of farming and use of fertilisers. 鈥淲e have 20 years of harvest left based on current levels of soil degradation and fertility. Just 20 years,鈥 explains Hamish Cunningham, Professor of Internet Computing at the University of 91探花.

Hamish has spent the last five years working with colleagues in the University of 91探花 Institute for Sustainable Food to develop a new approach to food security. But the focus for him isn鈥檛 sustainability. Instead, he frames his work in terms of resilience.

Professor Hamish Cunningham

The new approach is now being rolled out in a project called Resilient Campus, Resilient City (RC2). RC2 will see self-supporting mini-farms built in old shipping containers, first on campus and then across the city, to grow crops on a small scale in a controlled environment. The small size of the farm means it can be built into nooks and crannies in towns and cities across the UK without disruption to the surrounding environment. But what you might not expect is the abundance of fish in the farm鈥

The mini-farm relies on an aquaponics system, a technique for growing plants in water that replaces fertilisers with fish. The fish provide nitrogen rich waste which is broken down by bacteria and then used by the plants for growth 鈥 a process that cleans the water. It鈥檚 one of the greenest ways to grow food; the only energy required is electrical and can be produced using any number of renewable resources.

The resulting system wants for nothing, everything鈥檚 already there. It鈥檚 the perfect closed system that uses 10% of the water used in conventional agriculture, and doesn鈥檛 rely on either pesticides or fertilisers. It鈥檚 also soil free thanks to the soilless growing mediums developed in the University's Department of Chemistry.

If we consider sustainability to be living within our means then resilience is withstanding dramatic change.

Professor Hamish Cunningham

Professor of Internet Computing

A major benefit of the mini-farm is that it provides food on a local scale, removing the risks associated with food flown thousands of miles over the oceans. 鈥淎nything produced a long way away is at the mercy of economic shocks and climate changes, if we can get the basics nearby then we鈥檙e more resilient,鈥 says Hamish. But what鈥檚 also important is that the concept can be adopted by anyone.

Aquaponics isn鈥檛 a new technology - there鈥檚 evidence of people using systems as far back as 1000 AD - but Hamish鈥檚 work brings the mini-farm into the 21st century through open source technology. It balances the ecosystem within the farm, controlling water flow, heating and lighting. This information is then available online to anyone who wants to access and use it to develop their own mini-farm. 鈥淭he whole point is to show other people how they can do it themselves and provide people with the right tools,鈥 explains Hamish. It鈥檚 a system that can be scaled up to entire community level or scaled down to desktop size on a kitchen table.

Sustainable food resilient city

Eventually we expect to see mini-farms all over the country and in nooks and crannies on every university campus. But the first of these mini-farm will be on the University of 91探花 campus and will provide fresh produce for the shops and outlets on campus.

This alternative to our contemporary food system puts the mini-farm at the heart of the University of 91探花 Institute for Sustainable Food. 鈥淭he Institute is about changing food systems, our current systems are widely regarded as being broken for various reasons so we鈥檙e changing that by growing food locally using soil free methods,鈥 says Hamish. This approach, funded by the Higher Education Innovation Fund Impact Accelerator Account, British Council and the Global Challenges Research Fund, addresses the entire agrifood system, from field 鈥 or shipping container in this case 鈥 to fork.

鈥淲e don鈥檛 need any more discoveries, we know how to do things in a low impact fashion, now we need people to do them,鈥 says Hamish. Often people feel powerless to impact real change, but the mini-farm is an example of our researchers giving power to everyone. Becoming resilient will not be easy, but with technology and innovation like the mini-farm we all have the opportunity to be resilient in the future.

More details at  and .

By Alicia Shephard


Research from this project was presented at the Planet to Plate Festival

Hamish Cunningham and Gareth Roberts take you on a virtual walk-through of 91探花鈥檚 new aquaponics mini-farm and discuss how urban farming can contribute to food resilience.


Further information

Funders

Higher Education Innovation Fund Impact Accelerator Account

British Council

Global Challenges Research Fund


Research profiles

Hamish Cunningham, 91探花


For more information please contact: 

Sophie Armour
Media Relations Officer 
University of 91探花
+44 114 222 3687 
sophie.armour@sheffield.ac.uk

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