2025年に海洋が記録的な熱を吸収

The World Meteorological Organization has added the Earth's energy imbalance as a new key indicator in its latest climate report, highlighting how oceans absorb most excess heat. This measure underscores the ongoing warming trend despite yearly temperature fluctuations. The report warns of impacts on food systems from ocean heating and sea level rise.

2026年05月02日(土) AIによるレポート

James Hansen, a prominent climate scientist at Columbia University, has predicted that 2026 will become the hottest year on record, surpassing 2024 due to accelerating global warming and an impending super El Niño. He argues that current sea surface temperatures support this forecast despite ongoing La Niña cooling. Other experts urge caution amid forecast uncertainties.

A major Atlantic Ocean current system that regulates global climate has been slowing down for nearly 20 years. New research provides direct evidence of the decline across a wide area of the North Atlantic.

2026年04月13日(月) AIによるレポート

A new study warns that a shutdown of the Atlantic Meridional Overturning Circulation (AMOC) would trigger the release of up to 640 billion tonnes of carbon dioxide from the deep Southern Ocean near Antarctica. This feedback effect could raise global temperatures by an additional 0.2°C. Researchers at the Potsdam Institute for Climate Impact Research highlight the risk as humanity's emissions continue to weaken the key ocean current.

Researchers have found that shifting ocean temperature patterns, such as El Niño and La Niña, prevent droughts from synchronizing across the planet, affecting only 1.8% to 6.5% of Earth's land at once. This discovery, based on over a century of climate data, suggests a natural safeguard for global food supplies. The study highlights how these patterns create regional variations rather than widespread dry spells.

2026年03月18日(水) AIによるレポート

Researchers have analysed a 3-million-year-old ice core from Allan Hills in Antarctica, measuring atmospheric CO2 at 250 parts per million and methane at 507 parts per billion during the late Pliocene. This epoch featured global temperatures about 1°C warmer than today and sea levels up to 25 metres higher. The levels are lower than previous indirect estimates.