What is it about?

By analysing peat cores, researchers have shown how populations of nesting seabirds have fluctuated on a sub-Antarctic island over 8,000 years. They found that bird numbers rose and fell alongside shifts in climate, offering new clues about how future climate change could impact seabird populations.

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Why is it important?

[Detailed picture of seabird population dynamics over 8000 years] How these seabird populations have varied in size in the past, before the Anthropocene (modern era), has been largely unknown. This has limited our ability to understand what is happening, and to predict further consequences of climate change. Chuxian Li and her colleagues have now shown that the first continuous seabird colonies were established on Bird Island, South Georgia, between 6800 and 6100 years ago, more than 1000 years earlier than previously thought. They also show that there have been four distinct periods since then with major increases in seabird populations, and that these periods coincided with less intense Southern Hemisphere westerly winds. “Our findings lead us to believe that the present-day increase in westerly wind intensity may bring about further declines in seabird populations in the Southern Ocean”, says Chuxian Li.

Perspectives

[Mercury as a window into past ecosystem dynamics] To map the nesting history on the island, the researchers have developed an innovative method: analysing the mercury content at different depths in a valley peatland below the slopes where the birds nest. Mercury is a chemical element that bioaccumulates in organisms and becomes further magnified as it moves up the food web. This means that when small organisms are eaten by larger ones, the predator ends up with higher mercury concentrations. Since seabirds are top predators, they accumulate substantial amounts of mercury, and the mercury in their prey is also present in their guano. When the guano is washed into the peat below the nesting sites, it becomes archived in successive layers of the peat. Once the researchers had collected peat cores from the valley, they could use the mercury content in peat layers of different ages as a robust indicator of the size of past seabird populations. “Mercury lets us open a window to see what happened in the past and learn from that”, explains Chuxian Li.

Chuxian LI
Swedish University of Agricultural Sciences

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This page is a summary of: Southern Ocean seabird population shifts over the Holocene revealed by peat sequestration of mercury from guano, Proceedings of the National Academy of Sciences, April 2026, Proceedings of the National Academy of Sciences,
DOI: 10.1073/pnas.2533681123.
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