Satellites record second lowest Arctic sea ice extent since 1979

The polar oceans are among the most rapidly changing oceans in the world. The yearly cycle of the build-up and melting of Arctic sea ice is one of the earth’s vital signs and a key climate variable monitored by scientists.

While they may be far from the world’s major population centres, changes in the polar regions have global implications: they affect the world’s climate through carbon storage and/or release, heat balance, and other environmental and ecological impacts.

One of the most visible indicators of this change is the reduction in the extent of Arctic sea ice by the end of September each year.

Arctic sea ice increases its extent during the northern hemisphere winter, reaching a maximum in March. “Under the influence of global heating caused by human-induced greenhouse gases emissions, we have seen a sharp decrease in the extent of Arctic sea since 1979,” says Pascal Peduzzi, Director of GRID-Geneva, part of the UN Environment Programme (UNEP).

Since 1979, scientists have observed a decrease in the extent of Arctic sea ice in all months of the year. The September minimum extent is 36.5 per cent smaller in the period 2010–2019 than it was in the 1980s.

In a recent Intergovernmental Panel on Climate Change report (IPCC, 2019), scientists observed a reduction trend of 12.8 per cent (± 2.3 per cent) per decade. With 4.1 million square kilometres, the 2019 minimum arctic sea ice extent is the second lowest (after the record low of 2012) since the beginning of satellite monitoring in 1979. This rate of decline is likely (between a 66 per cent and 90 per cent probability) to be unprecedented in at least the past 1,000 years.

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Arctic sea ice increases its extent during the northern hemisphere winter, reaching its maximum in March before decreasing during the summer. The extent of Arctic sea ice in 2019 was the second smallest since satellite monitoring started in 1979. This graph is updated daily and can be accessed from the UNEP World Environment Situation Room. Graph by UNEP/GRID-Geneva, based on data from the National Oceanic and Atmospheric Administration and the National Snow and Ice Data Center.

 

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During the period monitored by satellites (1979-2019), the minimum Arctic sea ice extent in mid-September has shown a sharp decline (12.8 per cent per decade), which is likely to be unprecedented in the last 1,000 years. The summer of 2019 saw the second smallest extent of Arctic sea ice (after 2012). Graph by UNEP/GRID-Geneva, based on data from the National Oceanic and Atmospheric Administration and the National Snow and Ice Data Center.

Under a scenario of global heating of 1.5°C above pre-industrial levels, by the end of the 21st century, the Arctic ocean would only be ice-free in September once in every 100 years. Under a global warming scenario of 2°C, this would occur as much as one year in three, according the IPCC.

Loss of sea ice increases global heating. White snow reflects sunlight, whereas water absorbs it. Declining Arctic sea ice, therefore, amplifies the warming up of the Arctic. Temperatures increased by around 0.5°C per decade between 1982 and 2017, primarily due to increased absorbed solar radiation accompanying sea ice loss since 1979. This is twice as fast as the global average.

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Arctic sea ice reflects the sun’s rays. As ice cover decreases, more of the sun’s rays are absorbed by the ocean, leading to further warming. While melting of sea ice does not directly contribute to sea-level rise, it contributes to the warming of the oceans, thus inducing thermal expansion. Satellite images for 1979 and 2012 are from NASA (arrows added by UNEP/GRID-Geneva).

Thinner ice

Not only is the extent of Arctic sea ice reducing, but it is also much thinner, and scientists observe a transition to younger ice. Five-year-old sea ice has declined by about 90 per cent since 1979.

This has several impacts. It reduces the reflection of light, thus contributing to thermal expansion of the oceans. The change in Arctic sea ice extent may influence mid-latitude weather, and it may affect the regional composition of species, their spatial distribution, and the abundance of many marine species, with impacts on the structure of ecosystems.

For instance, reduced ice cover is adversely affecting the habitat of polar bears which now need to travel greater distances and swim more than previously, particularly threatening young cubs.

While the science tells us that global heating is happening, the exact impacts on fragile habitats and ecosystems are much harder to predict.

“There is an urgent need to reduce our greenhouse gases emissions,” says Peduzzi.

Source : unenvironment.org