How whales absorb CO2

How whales absorb CO2

How whales absorb CO2 and can slow down climate change

Can protecting whales be ‘the next’ carbon offset scheme? The world’s largest animals are unusual good at taking carbon dioxide out of the atmosphere, and how they do this is likely going to surprise you.

Whales, particularly baleen and sperm whales, are among the largest creatures on Earth. Their bodies are enormous stores of carbon, and their presence in the ocean shapes the ecosystems around them. Only recently we discovered that these creatures from the depths of the ocean are also helping to determine the temperature of the planet.

“On land, humans directly influence the carbon stored in terrestrial ecosystems through logging and the burning of forests and grasslands,” according to a 2010 scientific paper. “In the open ocean, the carbon cycle is assumed to be free of direct human influences.” But that assumption neglects the surprising impact of whaling.

Humans have killed whales for centuries, their bodies providing us with everything from meat to oil to whalebone. The earliest record of commercial whaling was in 1000 CE. Since then, tens of millions of whales have been killed, and experts believe that populations may have declined from anywhere between 66% to even 90%!

Dead sperm whale releasing CO2 on beachWhen whales die at the surface, the carbon stored in their decomposing body is released directly back into the atmosphere. If you’ve ever encountered a rotting whale on the beach you might have an idea of how much greenhouse gas is being released.

In a study from 2010, scientists found that before industrial whaling, populations of whales (excluding sperm whales) would have sunk between 190,000 to 1.9 million tonnes of carbon per year to the bottom of the ocean – that’s the equivalent of taking between 40,000 and 410,000 cars off the road each year. But when the carcass is prevented from sinking to the seabed – instead, the whale is killed and processed – that carbon is released into the atmosphere. Andrew Pershing, a marine scientist at the University of Maine and an author of that study, estimates that over the course of the 20th Century whaling added about 70 million tonnes of carbon dioxide into the atmosphere. “This is a lot, but 15 million cars do this in a single year. The US currently has 236 million cars,” he says.

However when whales die a natural way, they sink to the ocean floor, and all the carbon that is stored in their enormous bodies is transferred from surface waters to the deep sea, where it remains for centuries or more. “Whale carcasses also provide a unique habitat for deep sea species, many of which are only found on these ‘whale falls’. Research has shown that a single skeleton can provide food and habitat for up to 200 species during the final stages of decay,” says WDC’s James.

But whales are not only valuable after a natural death. The tides of excrement that these mammals produce are also surprisingly relevant to the climate. Whales feed in the deep ocean, then return to the surface to breathe and poo. Their iron-rich feces creates the perfect growing conditions for phytoplankton.
These creatures may be microscopic, but, taken together, phytoplankton have an enormous influence on the planet’s atmosphere, capturing an estimated 40% of all CO2 produced. To give you a better idea of this number, it represents around four times the amount captured by the Amazon rainforest.

The ocean’s missing whales have had some unexpected impacts, too. For instance, as whale populations declined, the orcas that predated them turned to smaller marine mammals like sea otters. The otters subsequently declined, leading to the spread of sea urchins, which munched away the kelp forests around the North Atlantic – with a knock-on effect on marine carbon sequestration.

“We need to think of whaling as being a tragedy that has removed a huge organic carbon pump from the ocean that would have been having a much larger multiplying effect on phytoplankton productivity and the ocean’s ability to absorb carbon,” says Vicki James, policy manager at Whale and Dolphin Conservation (WDC).

This means that restoring whale populations to their pre-whaling numbers could be an important tool in tackling climate change, sequestering carbon both directly and indirectly, and thus helping to make a small dent in the enormous volume of CO2 emitted by fossil fuels every year.

There have been various other proposals for how to achieve this reduction, including tree-planting and stimulating phytoplankton blooms by adding iron to the ocean, a form of geo-engineering known as iron fertilization. But tree-planting requires a scarce resource: terrestrial land, which may already be in use as another valuable habitat or farmland. The beauty of restoring whale populations is that there is plenty of space in the ocean, space once already filled with whales.

The resulting plumes of whale poo would also vastly outstrip the potential of ocean iron fertilization. It would take 200 successful blooms per year to match the potential of a fully restored whale population, according to Pershing’s study. And, unlike with risky geo-engineering techniques, the benefits would not just accrue to the climate, but to the whole ecosystem.

In 2019, the International Monetary Fund (IMF) published a report looking at the benefits of putting whales back in the ocean. And they did it in a way that politicians would understand: by putting a dollar value on it. This study found that, when you add up the value of the carbon sequestered by a whale during its lifetime, alongside other benefits like better fisheries and ecotourism, the average great whale is worth more than $2m (£1.48m), with the entire global stock amounting to over $1tn (£740bn).

The economists behind this study are now working on a project to transform this price tag from theory into reality, through a mechanism known as carbon offsetting. The idea is to persuade carbon emitters to pay a certain amount of money to protect whale populations, rather than invest in reducing their own emissions, helping them to achieve a neutral carbon footprint.

“What you’re doing is valuing the service from the whales, because they’re sequestering carbon dioxide,” says Thomas Cosimano, one of the economists who co-authored the IMF paper. “It doesn’t mean that whales aren’t doing other things. This is just a benchmark we can use to establish a lower bound on what the value of the whale would be.” It’s a complicated scheme, but it’s not beyond the realms of possibility.
The team has been working on a similar carbon-market-based approach for protecting elephants from poachers in the central tropical forests of Africa, which is expected to be in place by the end of the year.

Already, a Chilean charity called the Fundación MERI is figuring out the foundations for a whale-based carbon market, installing early-warning acoustic buoys that will monitor the locations of whales and generate alternative routes for ships. It is believed to be the world’s first project to protect whales because of the carbon storage that they provide.

The IMF study concludes that whale protection must now become a top priority in the global effort to tackle climate change. “Since the role of whales is irreplaceable in mitigating and building resilience to climate change, their survival should be integrated into the objectives of the 190 countries that in 2015 signed the Paris Agreement for combating climate risk,” the authors write.

Later this year, the UN climate conference will take place in Scotland, a country whose coasts regularly host species like minke and humpback whales. With a carbon market for whales now a real possibility, perhaps it’s time to put these creatures on the agenda.
Using whales as an tourist attraction can also help to draw more attention and protection to these magnificent animals!

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