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In states such as Mississippi and Texas with low electricity prices, production costs came down over 20 percent, making it possible to produce fishmeal from methane for $1,214 per ton, or $386 less per ton than conventional fishmeal production. The scenario in which methane was purchased from the commercial grid led to the most expensive fishmeal production costs - $1,783 per ton - due to the cost of purchasing natural gas.įor every scenario, electricity was the largest expense, accounting for over 45 percent of total cost on average. For the scenario in which methane was captured from wastewater treatment plants, production costs were slightly higher - $1,645 per ton - than the average market price of fishmeal. In the scenarios involving methane captured from landfills and oil and gas facilities, the analysis found methanotrophic fishmeal production costs - $1,546 and $1,531 per ton, respectively - were lower than the 10-year average market price of $1,600. Their analysis looked at a range of variables, including the cost of electricity and labor availability. To clarify the approach's potential to meet demand profitably, the Stanford researchers modeled scenarios in which methane is sourced from relatively large wastewater treatment plants, landfills, and oil and gas facilities, as well as natural gas purchased from the commercial natural gas grid. While methane-fed methanotrophs can provide feed for farmed fish, the economics of the approach have been unclear, even as prices of conventional fishmeal have nearly tripled in real terms since 2000. The challenge will only grow as global demand for aquatic animals, plants and algae will likely double by 2050, according to a comprehensive review of the sector led by researchers at Stanford and other institutions. As a result, wild fish stocks are badly depleted, and fish farms now provide about half of all the animal-sourced seafood we eat.
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including lower levels of a potent greenhouse gas in the atmosphere, more stable ecosystems and positive financial outcomes."Ĭonsumption of seafood, an important global source of protein and micronutrients, has increased more than fourfold since 1960. "While some companies are doing this already with pipeline natural gas as feedstock, a preferable feedstock would be methane emitted at large landfills, wastewater treatment plants and oil and gas facilities," said study co-author Craig Criddle, a professor of civil and environmental engineering in Stanford's School of Engineering. The protein-rich biomass that results can be used as fishmeal in aquaculture feed, offsetting demand for fishmeal made from small fish or plant-based feeds that require land, water and fertilizer. These bacteria can be grown in a chilled, water-filled bioreactor fed pressurized methane, oxygen and nutrients such as nitrogen, phosphorus and trace metals. Methane's relative concentration has grown more than twice as fast as that of carbon dioxide since the beginning of the Industrial Revolution due in great part to human-driven emissions.Ī potential solution lies in methane-consuming bacteria called methanotrophs. Methane also threatens air quality by increasing the concentration of tropospheric ozone, exposure to which causes an estimated 1 million premature deaths annually worldwide due to respiratory illnesses. "Our goal is to flip that paradigm, using biotechnology to create a high-value product," added El Abbadi, who is now a lecturer in the Civic, Liberal and Global Education program at Stanford.Īlthough carbon dioxide is more abundant in the atmosphere, methane's global warming potential is about 85 times as great over a 20-year period and at least 25 times as great a century after its release. are emitting a truly staggering amount of methane, which is uneconomical to capture and use with current applications," said study lead author Sahar El Abbadi, who conducted the research as a graduate student in civil and environmental engineering.