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Even penguins in Antarctica feel the heat after temperatures rise 15°C above nor

Metro Published Jun 29, 2026 Reviewed Jul 2, 2026 ✓ Reviewed by citations.press editors
Citation-ready fact
Excess deaths in Europe heatwave hit 1,300 after temperatures pushed past 40°C.
1300 · excess deaths in Europe heatwavemore than 40 °C · peak temperature threshold
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Citation-ready fact
Temperatures in the Antarctic rose by as much as 15°C above normal during a recent heatwave.
at least 15 °C · temperature anomaly in the Antarctic
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Citation-ready fact
Temperatures last week in Antarctica reached around -2°C, while conditions typically average between -15°C and -20°C.
-2 °C · recorded temperature last week-17.5 °C · typical long-term average temperature
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Citation-ready fact
Rothera has experienced no sea ice at midwinter in three of the past four years.
3 · number of years with no midwinter sea ice at Rothera4 · total number of years considered
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June 2025 was the warmest June recorded since monitoring began in the late 1970s, according to preliminary analysis.
2025 · warmest June on recordat least 1970 · start of monitoring period
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The UK and Europe weren’t the only places experiencing an extreme June heatwave.

Temperatures in the Antarctic rose by as much as 15°C above normal.

So warm was the weather, scientists at the UK’s Rothera Research Station say conditions are becoming increasingly unrecognisable.

Long-term records show that while conditions typically average between -15°C and -20°C, temperatures last week reached around -2°C.

Earlier this month, Rothera experienced conditions more typical of summer than winter, with rainfall and surface ice replacing the heavy snowfall usually expected, alongside exceptionally low sea-ice levels.

Nearly 50 years of observations at the station indicate a clear shift in winter conditions.

Preliminary analysis suggests June 2025 was the warmest June recorded since monitoring began in the late 1970s, while early indications suggest June 2026 could also rank among the warmest on record.

The findings form part of a broader rapid-analysis study published this week, involving British Antarctic Survey scientists, which concludes that a recent Antarctic Peninsula heatwave was amplified by human-driven climate change.

The study, part of the ExtAnt project led by the British Antarctic Survey, examines the impacts of extreme weather on Antarctica and highlights how climate change is increasing both the likelihood and intensity of such events.

The changes are not limited to temperature. Sea ice in the Bellingshausen Sea, west of the Antarctic Peninsula, has been in long-term decline, and this year marks the third time in four years that Rothera has experienced no sea ice at midwinter. Across the continent, Antarctic sea-ice extent has remained well below average in recent years.

Scientists say the reduction in sea ice has significant consequences. Sea ice acts as a buffer between the ocean and atmosphere, helping to shield the Antarctic coastline from storms. When that barrier is reduced, warmer, moisture-laden air from lower latitudes can more easily reach the continent, bringing rainfall, winter heatwaves and accelerating the loss of snow and ice.

Dr Tracy Moffat-Griffin, head of the Atmosphere, Ice and Climate team at the British Antarctic Survey, said: ‘While Antarctica remains one of the harshest environments on Earth, long-term records show that cold winter extremes around Rothera are becoming less common.

‘Climate projections suggest this trend is likely to continue, with future winters characterised by fewer prolonged cold periods and more frequent warm events. It is an extremely worrying trend.’

Because Antarctic weather naturally varies from week to week, detecting long-term climate change requires decades of consistent observations.

As the British Antarctic Survey approaches 50 years of continuous monitoring at Rothera, scientists say the station’s records are becoming an increasingly valuable tool for understanding how the Antarctic Peninsula is responding to a warming climate, and what these changes may mean for future scientific operations.

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