Rising Temperatures Threaten the Southern Ocean’s Ability to Absorb Carbon and Slow Climate Change

Nature Communications, 14 June 2022

Increased ice loss appears to be reducing the Southern Ocean’s ability to absorb and store atmospheric carbon. The surface waters surrounding Antarctica have been absorbing much of human CO2 emissions from the atmosphere, sequestering the carbon in deep ocean layers. This has slowed the increase in atmospheric CO2 concentrations and related atmospheric warming. Rising global temperatures have however increased the flow of warm ocean water onto the Antarctic continental shelf. This accelerates glacial ice loss, reduces the formation of sea ice, and decreases the production of dense water in key regions such as the Weddell Sea in West Antarctica. All these factors slow the movement of carbon-rich surface waters into deep ocean layers, preventing long-term carbon storage. Under a high emissions scenario, reduced deep layer circulation in the Southern Ocean will greatly decrease its capacity for additional carbon storage by the end of this century. The Southern Ocean is one of the Earth’s most important carbon sinks; it has absorbed 40% of anthropogenic carbon dioxide emissions taken up by global oceans, as well as 75% of human-created excess heat. Authors underscore the importance of reducing emissions to avoid sudden system shifts in Southern Ocean circulation, maintain the stability of the West Antarctic Ice Sheet and related sea-level rise, and curb the long-term trajectory of climate change.

https://www.nature.com/articles/s41467-022-30671-3

Pam Pearson

Recent Posts

Carbon and Nitrogen Release Due to Melting Permafrost in Arctic River Deltas

Nature Communications, 29 May 2026 The soils of Arctic river deltas store large amounts of…

1 week ago

Himalayan Mountain Infrastructure Increasingly Exposed to Climate Risks

Scientific Reports, 27 May 2026 Rising global temperatures increase the exposure of communities and infrastructure…

1 week ago

Permafrost Thaw Increases Infrastructure Risks and Economic Inequality in the Qinghai-Tibet Plateau

Global Environmental Change, 20 May 2026 In the Qinghai-Tibet Plateau, reducing greenhouse gas emissions could…

1 week ago

Warming Near 1.5°C Commits Coastal Louisiana to Substantial Sea-Level Rise

Nature Sustainability, 4 May 2026 Sediment records from the Last Inter-Glacial (LIG) period suggest that…

2 weeks ago

Over Four Decades of Winter Arctic Sea Ice Loss Primarily Driven by GHG Emissions

NPJ Climate and Atmospheric Science, 20 May 2026 Human-caused warming has been the primary driver…

2 weeks ago

Sudden Meltwater Lake Drainage Speeds Up Greenland Ice Loss

Nature Communications, 27 May 2026 Sudden drainage of meltwater lakes through water-filled fractures can locally…

2 weeks ago