Oceans absorb record heat for eighth year in a row

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.

6. mars 2026 Rapportert av AI

A new analysis in Geophysical Research Letters shows Earth warming at ~0.36°C per decade since 2014—about double the prior rate of 0.18°C per decade—with 98% confidence after accounting for natural factors. Led by Stefan Rahmstorf, the study warns the Paris Agreement's 1.5°C limit could be breached by 2028, amid debates over short-term trends and data uncertainties.

Researchers at the University of Tokyo have created an ensemble of eight climate models to trace water circulation worldwide using isotopic fingerprints. This method combines data on heavier hydrogen and oxygen atoms that shift predictably as water evaporates and travels through the atmosphere. The approach improves understanding of extreme weather and climate change impacts.

13. april 2026 Rapportert av AI

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.

A study from NYU Abu Dhabi reveals that brief nighttime drops in ocean oxygen increase energy expenditure in small coral reef fish, potentially affecting reef ecosystems. Researchers examined the Gulf blenny in the Arabian Gulf, the world's hottest sea, where such conditions are already extreme. The findings highlight additional stress from warming oceans beyond just higher temperatures.

5. mars 2026 Rapportert av AI

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.