Temperature spikes are in the news these days. The lead author of the study said: “It probably went something like: Ocean currents slowed down or sped up rapidly, the northern hemisphere cooled or warmed rapidly, and then this caused abrupt shifts in tropical rainfall that led to increased drought and fire.” The SIS website says: ‘The problem confronting scientists is what triggered these episodes of abrupt climate change. The consensus opinion is that it is all down to ocean currents going into a switch mode. That may well be part of the answer – but what triggered the ocean currents to shift?’ The Talkshop suggests the planetary origin of the Dansgaard-Oeschger cycle – a triple conjunction of Jupiter, Saturn and Neptune every 1470 years – is involved.
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A new study investigating ancient methane trapped in Antarctic ice suggests that global increases in wildfire activity likely occurred during periods of abrupt climate change throughout the last Ice Age, says ScienceDaily.

The study, just published in the journal Nature, reveals increased wildfire activity as a potential feature of these periods of abrupt climate change, which also saw significant shifts in tropical rainfall patterns and temperature fluctuations around the world.

“This study showed that the planet experienced these short, sudden episodes of burning, and they happened at the same time as these other big climate shifts,” said Edward Brook, a paleoclimatologist at Oregon State University and a co-author of the study. “This is something new in our data on past climate.”

The findings have implications for understanding modern abrupt climate change, said the study’s lead author, Ben Riddell-Young, who conducted the research as part of his doctoral studies in OSU’s College of Earth, Ocean, and Atmospheric Sciences.

“This research shows that we may not be properly considering how wildfire activity might change as the climate warms and rainfall patterns shift,” said Riddell-Young, who is now a postdoctoral scholar at the Cooperative Institute for Research in Environmental Sciences at the University of Colorado, Boulder.

Ice that built up in Antarctica over tens to hundreds of thousands of years contains ancient air bubbles. Scientists use samples of that ice, collected by drilling cores, to analyze the gasses preserved in these bubbles and build records of the Earth’s past climate.

Previous research has shown that levels of atmospheric methane, a greenhouse gas, spiked during abrupt climate change periods during the last Ice Age, which ended about 11,000 years ago.

These abrupt climate change events, known as Dansgaard-Oeschger and Heinrich events, were associated with rapid regional temperature changes and shifting rainfall patterns, as well as spikes in atmospheric methane. The goal of the study was to try to determine what caused those spikes.

“These spikes were notable because of how quickly the methane levels changed during these periods,” Riddell-Young said.
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Riddell-Young used a system he designed to extract the air from ice samples and then used a mass spectrometer to measure the isotopic composition of the methane, which can indicate the sources of atmospheric methane.

The measured isotopic changes suggest that the spikes in methane were caused by methane emissions from an increase in wildfires globally, Riddell-Young said.

“These fire events were likely one of the cascading impacts resulting from what triggered the abrupt climate change event,” he said. “It probably went something like: Ocean currents slowed down or sped up rapidly, the northern hemisphere cooled or warmed rapidly, and then this caused abrupt shifts in tropical rainfall that lead to increased drought and fire.”

Past research has suggested that shifts in temperature and tropical rainfall were associated with these abrupt climate change periods, but the new study provides the first good evidence that fire was also a feature of these periods, Brook said.

Full article here.
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Image: Antarctic ice core [credit: Discovering Antarctica]

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January 26, 2025 at 06:09AM