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You might remember claiming that towing nets over the seabed to catch fish (known as bottom trawling) releases as all flights taken each year. It turns out that the assessment behind this claim overestimated how much COâ‚‚ is released in the process of bottom trawling by .

Bottom-trawl fishing supplies and, as it occurs worldwide, is by far the way in which people disturb the seabed. Towing nets, chains and other heavy metal trawl gear along the seabed kills some of the clams, worms and starfish that , but it also mixes and resuspends sediment in the water.

Globally, 1.75 times more carbon is stored in the sediment of the seabed than on land. Disturbing this carbon could increase COâ‚‚ concentrations in the water, and in shallow well-mixed waters, where around half of trawling activity is concentrated, this COâ‚‚ may be released to the atmosphere.

While preventing bottom trawling from disturbing the seabed could reduce the emissions driving climate change, how much CO₂ it would prevent is uncertain – and previous predictions are likely to be overestimates.

Modelling the effect of trawling

Once a trawl throws up sediment into the seawater, animals and microbes consume and convert the organic material into COâ‚‚. A widely publicised study modelled the effect of bottom trawling on the carbon stored in the seabed and predicted that a similar amount of COâ‚‚ is released annually as a result as all global air travel.

This amount didn’t seem plausible to me and my collaborators at the time. An of 49 studies investigating how much carbon was stored in the seabed after trawling had found mixed results: 61% of the studies reported no difference, 29% reported less carbon and 10% even reported more carbon.

This prompted us to look at the model used by the authors of the 2021 study to identify what caused this discrepancy. We found that an assumption they had made about the carbon cycle was .

Organic carbon in the sediment consists of different fractions. The freshest fraction has recently settled from the water and consists of algae and recently dead animals. Most of this fraction is highly reactive, meaning that it is readily consumed by invertebrates and bacteria living in the seabed and then returned to the water as CO₂. But a small fraction is not easy to digest because it consists of largely inedible material, such as bones. This unreactive organic carbon is what is buried and forms the seabed’s carbon store.

The authors of the 2021 study asked how much bottom trawling contributes to releasing this buried carbon into the water as COâ‚‚ (a process scientists call remineralisation). Their model assumed that the buried carbon is highly reactive and is converted to COâ‚‚ very quickly. If that was correct, up to 60% of the organic carbon disturbed by a single trawl passing would be converted to COâ‚‚. But if this carbon was really so reactive, microbes and seabed animals would have consumed it already, and it would not have been buried.

Biogeochemists have found that organic carbon buried in the sediment typically degrades . And so, these results seem highly implausible. Using the much slower rates of decay that are appropriate for buried carbon, we showed that the approach used by the authors of the 2021 study overestimates the amount of buried organic carbon released as COâ‚‚ .

Credit for nothing

Why does clarifying the climate consequences of bottom trawling matter?

Some governments are considering banning bottom trawling and to represent the quantity of CO₂ averted in order to offset other activities. You might have seen a similar option to pay for someone to plant trees to offset the emissions from a flight you’re planning to take.

But if the carbon emissions caused by trawling are overestimated then these carbon credits could increase COâ‚‚ emissions overall by justifying more pollution elsewhere. Because most of the COâ‚‚ reduced by curtailing trawling is likely to be imaginary, treating it as an offset threatens to exacerbate the climate crisis. The management of bottom trawling might be a good idea for other reasons of course, such as protecting endangered habitats and vulnerable species that .

But managing bottom trawling to benefit the climate requires estimates of the relevant carbon emissions involved that are at least of the correct order of magnitude. Research has so far not been able to supply those because our understanding of the mechanisms through which bottom trawling affects seabed carbon is very limited. Researchers need to, among other things, study the effects of different trawls in different environments, examine how seabed invertebrates mix the sediment and what happens to carbon once it is thrown up into the seawater.