Rate of ocean warming has nearly doubled since 2005: EU monitor

The findings by the Copernicus Marine Service underscore the consequences of a warming planet on oceans, which cover 70 percent of the earth's surface and act as a major regulator of the climate

Published: Oct 1, 2024 04:07:01 PM IST
Updated: Oct 1, 2024 04:10:15 PM IST

A report said that in 2023, more than 20 percent of the world's oceans experienced at least one severe to extreme marine heatwave, events that have ripple effects for marine life and fisheries.
Image: Lillian Suwanrumpha / AFP©A report said that in 2023, more than 20 percent of the world's oceans experienced at least one severe to extreme marine heatwave, events that have ripple effects for marine life and fisheries. Image: Lillian Suwanrumpha / AFP©

The pace at which oceans are warming has almost doubled since 2005 as global temperatures rise because of human-caused climate change, a report from the EU monitor Copernicus said Monday.

The findings by the Copernicus Marine Service underscore the consequences of a warming planet on oceans, which cover 70 percent of earth's surface and acts as a major regulator of the climate.

Ocean warming has "increased continuously" since the 1960s but sharply accelerated in the years since 2005, oceanographer Karina von Schuckmann from Copernicus told reporters.

Over the past two decades, the pace of warming has close to doubled from a long-term rate of 0.58 watts per m2 to 1.05 watts per m2.

"Ocean warming can be seen as our sentinel for global warming," said von Schuckmann, a specialist on the unique role the ocean plays in Earth's climate system.

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The findings echo the IPCC, the expert panel of climate scientists mandated by the United Nations, on the longer-term heating of the oceans because of humanity's release of planet-heating emissions.

Since 1970 some 90 percent of excess heat trapped in the atmosphere due to the release of carbon dioxide and other greenhouse gasses has been absorbed in the oceans, the IPCC says.

Warmer oceans fuel storms, hurricanes and other extreme weather by influencing global weather patterns and where rainfall lands.

Copernicus said its report detailed "record-breaking ocean temperatures, marine heatwaves stretching down to the deep ocean, unprecedented sea ice loss and rising levels of heat stored in the ocean".

Also read: 'Life or death' for big cities should planet warm to 3C: study

Ripple effect

It said in 2023, more than 20 percent of the world's oceans experienced at least one severe to extreme marine heatwave, events that have ripple effects for marine life and fisheries.

Such heatwaves can lead to the migration and mass mortality of certain species, harm fragile ecosystems, and interfere with the flow of deep and shallow waters, hindering the distribution of nutrients. 

Ocean warming "can affect all aspects of the marine world, from biodiversity to chemistry to fundamental oceanographic processes, currents, and as well as the global climate," said von Schuckmann.

More extensive marine heatwaves also tend to be longer.

The average annual maximum duration of such a heat event has doubled since 2008 from 20 to 40 days, according to the latest "Ocean State Report" by Copernicus.

Compared to an earlier baseline, the bottom of the north-east Barents Sea in the Arctic appears to have "entered a state of permanent marine heatwave", said von Schuckmann, citing a research paper.

2023 also saw the lowest sea ice on record in the world's polar regions. 

The report said that in August 2022, a temperature of 29.2 degrees Celsius was recorded in the coastal waters of the Balearic Islands off Spain, the warmest in forty years.

That same year, a marine heatwave in the Mediterranean Sea stretched to roughly 1,500 meters below the surface, illustrating how heat can reach the deep ocean.

Copernicus noted that ocean acidity had also increased 30 percent since 1985, another consequence of climate change caused primarily by the burning of fossil fuels. 

Above a certain threshold, the acidity of seawater becomes corrosive to the minerals used by marine life including corals, mussels, and oysters to make their skeletons and shells.

This threshold—considered a key "planetary limit" by scientists—is expected to be crossed in the near future, according to a report published last week by the Potsdam Institute for Climate Impact Research (PIK).

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