MENU

Social Channels

SEARCH ARCHIVE

  • Type

  • Topic

  • Sort

FK9T15 Dead fish Lagoa Rodrigo de Freitas. Image shot 03/2013. Exact date unknown.
Dead fish, Lagoa Rodrigo de Freitas. Credit: Pulsar Imagens/Alamy Stock Photo.
OCEAN ACIDIFICATION
19 November 201816:00

Rising CO2 levels in the ocean could benefit toxic algae, study says

Daisy Dunne

11.19.18

Daisy Dunne

19.11.2018 | 4:00pm
Ocean acidification Rising CO2 levels in the ocean could benefit toxic algae, study says

Rising levels of CO2 in the ocean could spark blooms of toxic algae capable of causing harm to marine life and human health, a new study suggests.

Experimental evidence collected by researchers in theCanary Islandsfinds that one species of toxic algae,Vicicitus globosus,can become dominant in marine ecosystems that have experienced high amounts of “ocean acidification” – a process which occurs as seawater absorbs CO2 from the atmosphere.

The findings suggest that this type of toxic algae, which is found off the coasts of southeast Asia, Europe and the Americas, could pose a new threat to “coastal communities, aquaculture and fisheries” under climate change, the authors say.

Lethal levels

The impacts of toxic algae are felt around the world. In Australia, toxic blue-green algae has blighted up to1,700kmof the Murray River forseveral successive years– restricting the amount of safe water available todrought-stricken farmers.

The US, meanwhile, has faced at least 510 reported cases of toxic blue-green algae since 2010, with 239 of these events occuring in the last year alone, according to the non-governmental organisationEnvironmental Working Group. Florida’s coastline is facing an additional threat from “red tide” algae, which has proven fatal to whale sharks, manatees and sea turtles.

The main cause of toxic algal blooms is thought to befertiliser run-offandpoor water management,导致多余的营养物质被释放to the ocean.

However, scientists have also suggested thatwarming sea temperaturescould be helping toxic algae to flourish. And, in some regions, the intensification of rainfall as a result ofclimate changecould bequickening the rateat which fertilisers are washed into the sea.

The new study, however, shows, for the first time, how rising CO2 levels in the ocean could also aid the spread of one species of toxic algae.V. globosusis a widespread algae that can release harmful chemicals known as “cytotoxins”, saysProf Ulf Riebesell, a biological oceanographer fromGEOMAR Helmholtz Centre for Ocean Researchand lead author of the research published inNature Climate Change. He tells Carbon Brief:

“Blooming of this species has been associated with fish mortality in coastal waters and aquacultures in various locations. Direct effects on dolphins and turtles have not been reported, but can also not be excluded.

“Humans should not go swimming in waters where V. globosus is blooming because the toxins may irritate eyes and the respiratory system.”

The research suggests thatV. globosuscould benefit from “ocean acidification”, a process which occurs as seawater absorbs CO2 from the atmosphere. (The oceans have absorbedaround 30%(pdf) of the CO2 released by human activity since the industrial revolution.)

This causes oceans, which are alkaline, to become less alkaline over time. The overall pH of seawater has fallen from around8.2 to 8.1from pre-industrial times to the present day.

Underwater test tubes

To understand how ocean acidification could impactV. globosusand other marine microorganisms (also known as plankton), the researchers set up an experiment at atest siteoff the coast of Gran Canaria. Riebesell explains:

“我们九个海上部署“昌盛”——一种like giant test tubes [pictured below]. Each mesocosm consists of a flotation frame at the sea surface, which holds a 15-metre-long plastic tube vertically in the water. The tubes contain 35 cubic metres of seawater and enclose a natural plankton community.

“The enclosed water column was enriched in CO2 to levels expected for different CO2 emission scenarios. We then closely monitored the development of the plankton community over 57 days.”

Picture of An underwater

An underwater “mesocosm” viewed from below. Source:GEOMAR/Ocean artUp

The researchers found that, in mesocosms where CO2 levels were close to today’s levels, the presence ofV. globosuswithin the experimental ecosystem remained relatively low.

However, in mesocosms where the concentration of CO2 rose above 600μatm (micro atmospheres), numbers ofV. globosusbegan to rapidly increase. Riebesell explains:

“If CO2 emissions continue at current rates [as in the high-emissions scenario “RCP8.5” scenario], this level will be reached within the next three to four decades. If CO2 emissions are reduced rapidly and drastically to the extent that theParis Agreementand we stay below 2C of warming, we may actually stay below 600µatm CO2.”

Glossary
RCP8.5:The RCPs (Representative Concentration Pathways) are scenarios of future concentrations of greenhouse gases and other forcings. RCP8.5 is a scenario of “comparatively high greenhouse gas emissions“ brought about by rapid population growth,…Read More

(For reference, CO2 levels in the seawater around Gran Canaria currently average around 400μatm, according to anearlier research paperby the same group of scientists.)

Under the highest CO2 levels, the amount ofV. globosusincreased exponentially to form harmful blooms, the research finds.

The rapid growth ofV. globosusalso appeared to have a harmful impact on other species in the plankton community, Riebesell says:

“我们的研究还表明,诉一团的盛开osus in our mesocosms disrupted the pelagic [open sea] food web by suppressing the growth of micro- and mesozooplankton [animal microorganisms]. This is important because zooplankton are food for higher trophic levels, including fish and baleen whales.”

‘Emerging threat’

It is still not clear whyV. globosusappears to benefit disproportionately from rising CO2 levels in seawater, Riebesell says:

“Either the algae benefits disproportionately compared to other competing species in terms of its growth rate, for example through increased photosynthesis under elevated CO2. Or, its toxicity increases with rising CO2 – so that it is eaten less.”

The findings reinforce thebody of evidencesuggesting that taking strong actions to limit global warming could reduce the threats to wildlife and humans, he says:

“First and foremost, these results emphasise the need for a strong and rapid reduction of CO2 emissions.

“The results of this study should be regarded as a warning call. An emerging threat for human society lies in being unprepared for range expansions of toxic microalgae in currently poorly monitored areas.

Riebesell, U. et al. (2018) Toxic algal bloom induced by ocean acidification disrupts the pelagic food web, Nature Climate Change,doi:10.1038/s41558-018-0344-1

Sharelines from this story
  • Rising CO2 levels in the ocean could benefit toxic algae, study says
  • ‘Ocean acidification’ could benefit toxic algae, study says

Expert analysis direct to your inbox.

Get a round-up of all the important articles and papers selected by Carbon Brief by email. Find out more about our newslettershere.