Tuesday, September 24, 2024

Project sees livestock feed in geothermal gases

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Lab research has shown a bacterium and an algae can be used to convert GHG into protein-rich feed.
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A central North Island Māori trust is partnering with geothermal experts and New Zealand scientists in a world-first project to develop livestock feed from geothermal gases.

Funding of nearly $5 million from Tauhara North No 2 Trust and the Ministry for Primary Industries (MPI) will support Rotorua-based Upflow and partners to progress laboratory-scale research that has shown how two microorganisms – a bacterium and an algae – can be used together to convert carbon dioxide and methane into a protein-rich biomass.

This biomass is created when microorganisms feed off greenhouse gas emissions captured from geothermal power stations, such as those used to generate electricity in the central North Island. The biomass produced is made up of several potentially commercially valuable components, including protein for animal feed.

The four-year research project will be the first in the world to pioneer biomass feedstock production from gases and robust microorganisms that thrive in the extreme conditions found at geothermal sites.

Tauhara North No 2 Trust has significant investments in geothermal assets at the Rotokawa geothermal reservoir and is seeking more than financial outcomes. 

Members of the team in the lab at Scion, clockwise from left, are Scion microbial biotech team lead Christophe Collet, Upflow director of business & innovation Andy Blair, Upflow chief engineer Andrew Marsh, Scion portfolio leader for distributed manufacturing Marc Gaugler, Scion laboratory process technician Tasman van der Woude, and Scion bioprocess engineer Carla Cronje. Photo: Scion

“Having geothermal assets in our rohe (region) gives us the opportunity to unlock potential new industries and leverage our existing knowledge to create new jobs and revenue for mana whenua and regional communities,” said Trust group chief executive Mana Newton.

Geothermal consultancy Upflow is the delivery partner for the project, providing leadership and expertise, partnering with researchers from Crown Research Institute Scion, the University of Canterbury and algae experts from Cawthron Institute.

Early-stage research looks promising. 

Industrial biotechnology processes were jointly developed by University of Canterbury researchers, Scion’s biotechnology team and Tauhara North No 2 Trust. The technology uses a methane-eating bacterium, and a carbon dioxide-eating microalgae to capture the gases and use them as a food source for growth.

This process generates a biomass rich in protein, which is being explored as an animal feed ingredient, use for human nutrition, or to produce high-value nutraceuticals or pigments. The initial focus is on the protein component to benefit New Zealand’s primary industry, while also investigating the potential for premium products.

Native extremophilic microalgae, growing from carbon dioxide and light, in a one litre bioreactor. Photo: Scion

The MPI’s investment of $2.49m in the project comes from the Sustainable Food and Fibre Futures fund. 

The MPI’s director of investment programmes Steve Penno said it is an exciting project.

 “If successful, this could be the start of a new biomass feedstock manufacturing industry for New Zealand, worth an estimated $500m per annum by 2045, creating new skilled jobs.

 “It would reduce our reliance on imported livestock feed, and decarbonise these industries, while also reducing the cost of carbon emissions for geothermal companies that adopt the system.”

 According to New Zealand Trade and Enterprise, as a nation of 5 million people, New Zealand feeds an estimated 40 million people worldwide.

 “We’re looking to futureproof this legacy by providing a decarbonised food production option using Aotearoa’s abundant geothermal resources. We’re making animal feed from greenhouse gases,” said Andy Blair, director of business and innovation at Upflow.

Sampling at Parariki in the Rotokawa geothermal area for extremophilic microorganisms. The high-temperature microalgae and bacteria used in this project were sourced from geothermal soils in the Tauhara North No 2 Trust rohe. Photo: Matthew Stott, University of Canterbury

Over the next four years, Upflow will work with researchers to progress development of the technology from its satellite office on Scion’s campus in Rotorua.

 Only small quantities of the biomass have been cultivated and tested so far from pure gases. In the next step, scientists will support Upflow to plan and build a pilot-scale facility. This will aid the transition of fermentation conditions to real geothermal gases to generate yields at pilot scale (1000 litres). 

 More work will determine markets for the biomass, including agriculture, aquaculture and the potential for human nutrition.

 Inghams Enterprises NZ is a keystone industry partner in the project, bringing insights to navigate its animal feed market spaces.

 Scion’s portfolio leader for distributed and circular manufacturing Marc Gaugler said the groundwork was a collaboration through the cultivation of specific bacterial strains at Scion and algal strains at the University of Canterbury.

The protein rich biomass produced by an extremophilic bacterium that consumes methane. Photo: Christophe Collet, Scion

 “With our research colleagues and Upflow, we look forward to seeing this novel technology contribute to regional economic development, create new value from waste and benefit the geothermal sector by helping it decarbonise.”

 Blair said the project is an example of visionary individuals and organisations taking a risk and coming together to incubate an emerging New Zealand-led scientific discovery.

 “Many great research ideas struggle to find real-world application, and to bridge the gap between laboratory-scale concept and application at scale. We’re giving this technology the time and support it needs to be shaped for commercial reality.”

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