The need to feed increasing urban populations is placing unprecedented pressure on the agriculture industry. To secure higher productivity, the sector relies upon synthetic fertilisers derived from energy intensive manufacturing methods – the devastating effects of which are outlined in the sustainability imperative section. In addition, for every 1 °C increase in atmospheric temperature, 10 % of farmland used for crop production will be lost [8]. Over the next 50 years, farming is going to become even more marginalised [9]. As a result, there is a growing trend within urban environments to develop local and regional food systems.

When considering how our technology best be deployed, examination of urban agricultural production led us to urban farming. Urban farming often involves cultivating vacant urban spaces and growing in contained environments. This method of farming provides a benefit to our concept as it removes the need for release of GMOs. Therefore, it became the focus of our Human Practices.

Growing in contained urban environments is already a well-established practice (e.g Greenhouses) and there are many benefits of growing within them:

• Providing Newcastle with fresh produce all year round.
• Reducing the carbon footprint of crop production due to reduced food millage.
• No agricultural run-off.
• Limited need for pesticides and fertilisers.
• Safer crops as there is less risk of contamination.
• Reduced spoilage because of shorter transportation times and reduced handling.

With developing technologies in the field of sustainable energy, it could one day be possible to engineer contained growth systems that are self-sustaining regarding its energy usage. By carefully controlling the parameters within these environments, we can emulate perfect surroundings that allow the crops to grow to their full potential, maximising yield.

We are attempting to use a system like this in our project. We are taking a global issue and trying to implement it at a local scale. Newcastle City council has recently declared their bold plans to convert Newcastle into a ‘Smart City.’ Looking into the proposed scenarios, we saw an opportunity to propose a ‘sustainable agriculture’ scenario for Newcastle, incorporating our hardware development. We have put together a theoretical design project that outlines how we many implement this idea into Newcastle.

….....And an investigation of the endophytes chassis our results show.

We believe engineering endophytes is the new paradigm in plant productivity, as a result our goal was to characterise Pseudomonas sp. endophytic properties and optimise transformation protocols. Pseudomonas sp. Could subsequently be engineered to express genes of interest that could change the physiology of the plant.

The goal of our Human Practices work was to generate a conversation locally about the use of Newcastle's Victoria Tunnel as an urban farm. In doing so, we wanted to raise larger questions surrounding the use of GM bacteria to increase plant productivity, as opposed to genetically modifying the plant itself - challenging consumer views on GMOs.

Alongside this, our goal was to build a hardware prototype for the Victoria Tunnel; and address the lack of suitable hardware that would allow us to grow large numbers of plant seedlings in a controlled environment for the purposes of our project. The hardware needed to be cheap, energy and cost efficient, and a standardised method for growing plants.