Revealed: In Acidic Oceans Sunlight Kills Planet’s Most Important Organism — Marine Algae

A number of marine diatom cells (Pleurosigma), which are an important group of phytoplankton in the oceans.
Credit: Michael Stringer

“There’s a synergistic effect between increased ocean acidity and natural light”

“It’s clear we are conducting a giant experiment on the planet and we don’t know what we are doing.”

 By Stephen Leahy

UXBRIDGE, Canada, May 8, 2012 (IPS)

Without major reductions in the use of fossil fuels, sunlight will kill an unknown number of ocean phytoplankton, the planet’s most important organism, a new study reports this week.

Not only are phytoplankton, also known as marine algae, a vital component in the ocean’s food chain, they generate at least half of the oxygen we breathe.

In the not so distant future, sunlight, the very source of life for phytoplankton, will likely begin to kill them because of the ocean’s increasing acidity, researchers from China and Germany have learned.

“There’s a synergistic effect between increased ocean acidity and natural light,” says Ulf Riebesell of the Helmholtz Centre for Ocean Research in Kiel, Germany.

Riebesell added that it was also possible “phytoplankton could adapt”.

Researchers were surprised to discover that diatoms, one of the most important and abundant types of phytoplankton, fared very badly during shipboard experiments conducted by co-author Kunshan Gao, from the State Key Laboratory of Marine Environmental Science at Xiamen University, Xiamen China.

Previous experiments in labs like Riebesell’s found that diatoms actually did better in high-acid seawater, unlike most other shell- forming plankton. Burning fossil fuels has made the oceans about 30 percent more acidic researchers discovered less than 10 years ago. Oceans absorb one third of the carbon dioxide (CO2) emitted from using fossil fuels.

The good news is this has slowed the rate of global warming. The bad news is oceans are now more acidic and it will get worse as more CO2 is emitted. This is basic, well-understood ocean chemistry. 

Gao and his team made several trips into the South China Sea taking samples from surface waters where phytoplankton are found. While still on the research vessel, those samples were made as acidic as the oceans are likely to be in 2100 without major emissions reductions (800-1000 parts per million compared to current 392 ppm).

A number of marine diatom cells (Rhizosolenia setigera), which are an important group of phytoplankton in the oceans.
Credit: Karl Bruun, Nostoca Algae Laboratory, photo courtesy of Nikon Small World.

As expected under these conditions, certain types of plankton like coccolithophores did not do well but surprisingly, diatom productivity also declined.

One possible reason was the much brighter natural light on the ship versus that in science labs, Riebsell and Gao suspected. Followup lab experiments with lights mimicking the intensity of natural light in the subtropical zone of the South China Sea confirmed that the combination of high-acid sea water and light intensity was more than diatoms could handle.

Riebsell speculates that diatoms stressed by high-acid conditions can’t cope with the energy they receive from sunlight at the same time. Their study was published May 6 in Nature Climate Change.

“We don’t know at what point the combination of a certain level of ocean acidity and sunlight leads to the decline of diatoms,” he said.

This is just one of many recent studies finding negative impacts as the oceans become more and more acidic.

By 2040, most of the Arctic Ocean will be too acidic for shell- forming species including most plankton. Significant areas of the Antarctic Ocean will be similarly affected, oceanographer Carol Turley from Plymouth Marine Laboratory in the UK previously told IPS.

The cold waters of the polar regions allow more CO2 to be absorbed faster, turning the oceans more acidic sooner. The oceans haven’t seen a rapid change like this in 60 million years, said Turley.

She warned that global warming is also raising water temperatures and reducing the amount of oxygen in seawater in some regions. This is another potentially dangerous combination.

“Our research suggests the impact of oceanic acidification upon marine plankton could be more serious than previously thought,” said John Beardall from the School of Biological Sciences at Monash University in Australia.

Beardall and colleagues from several research centres calculate that without major reductions in CO2 emissions, ocean acidity will have a significant impact on phytoplankton before 2100. Their findings were also recently published in Nature Climate Change.

It’s not just plankton. The large and continuing decline of oysters, both wild and farmed, in the Pacific Northwest have now been linked to increased ocean acidity. Scientists have shown that oyster larvae have difficulty building shells in corrosive waters, according to a study in the Journal of  Limnology and Oceanography published last month.

“For the oceans, the Pacific Oyster larvae are the canaries in the coal mines for ocean acidification,” said Richard Feely, a co-author of the study and senior scientist at the National Oceanic and Atmospheric Administration.

Fish and other species are showing changes in their growth, behaviour and reproduction, according to other research.

Not only are the oceans big, covering 70 percent of the planet, they are complex. Recent work by the Scripps Institution of Oceanography at San Diego reveals there is huge variability in ocean acidity levels.

That makes “global predictions of the impacts of ocean acidification a big challenge,” said Jennifer Smith, a marine biologist with Scripps.

The only prediction Riebesell is willing to make is about the high likelihood of a major decline in the ocean’s biodiversity (number and types of living things) if rates of fossil fuel emissions continue. Roughly 80 percent of all life is found in the oceans.

“Changes in the oceans are happening too fast for most species to cope,” he said.

“It’s clear we are conducting a giant experiment on the planet and we don’t know what we are doing.” 

First published as Climate Change Threatens Crucial Marine Algae – IPS ipsnews.net.

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