In Our Time

The Paleocene-Eocene Thermal Maximum

Mar 16, 2017

49:47

Snipd AI

Exploring the Paleocene-Eocene Thermal Maximum, a period of rapid climate change marked by increased temperatures and extinctions. The rise in temperature was attributed to an increase in carbon dioxide and methane, possibly released from frozen crystals in the sea bed. The podcast discusses the evidence for this event, including changes in fossil plants and animals, and the process of drilling into deep sea sediments to uncover valuable insights. It also explores the significance of the Paleocene-Eocene Thermal Maximum for understanding current climate change and the potential threats of methane hydrates.

AI Summary

AI Chapters

Episode notes

Podcast summary created with Snipd AI

Quick takeaways

The Paleocene-Eocene Thermal Maximum (PETM) was a period around 50 million years ago when Earth experienced a rapid and significant increase in temperatures, with the Arctic and Antarctic becoming subtropical and crocodiles inhabiting polar regions.

The exact cause of the PETM is still debated, but it is believed to involve a combination of factors, including carbon release from coal burning, melting permafrost, volcanic activity, and the release of methane from frozen hydrates on the sea floor.

The study of the PETM provides valuable insights into future climate change, emphasizing the need for active carbon removal, the dangers of ocean acidification, and the potential destabilization of methane hydrates in the Arctic.

Deep dives

The Paleocene-Eocene Thermal Maximum (PETM)

The PETM was a period around 50 million years ago when Earth's climate changed rapidly, resulting in significantly higher temperatures than today. Massive amounts of carbon dioxide and methane were released into the atmosphere, causing the Arctic and Antarctic to become subtropical, with crocodiles and no ice. Some species went extinct, while others adapted to the warmer, more acidic oceans. The PETM lasted for about 200,000 years, with a temperature increase of around 5 degrees Celsius.

Introduction

2min

The Paleocene-Eocene Thermal Maximum: A Climate Shift in Earth's History

13min

The Paleocene-Eocene Thermal Maximum

6min

Drilling into the Sea Floor and the Findings Revealed

2min

Studying Sediment Cores and Understanding Past Climates

7min

Insights from Fossil Plants

5min

Understanding the Paleocene-Eocene Thermal Maximum (PETM) and its Relevance to Climate Change

14min

Significance of Methane Hydrates in Climate Changes and Potential Threats

2min

Melvyn Bragg and guests discuss the high temperatures that marked the end of the Paleocene and start of the Eocene periods, about 50m years ago. Over c1000 years, global temperatures rose more than 5 C on average and stayed that way for c100,000 years more, with the surface of seas in the Arctic being as warm as those in the subtropics. There were widespread extinctions, changes in ocean currents, and there was much less oxygen in the sea depths. The rise has been attributed to an increase of carbon dioxide and methane in the atmosphere, though it is not yet known conclusively what the source of those gases was. One theory is that a rise in carbon dioxide, perhaps from volcanoes, warmed up the globe enough for warm water to reach the bottom of the oceans and so release methane from frozen crystals in the sea bed. The higher the temperature rose and the longer the water was warm, the more methane was released. Scientists have been studying a range of sources from this long period, from ice samples to fossils, to try to understand more about possible causes.

With

Dame Jane Francis Professor of Palaeoclimatology at the British Antarctic Survey

Mark Maslin Professor of Palaeoclimatology at University College London

And

Tracy Aze Lecturer in Marine Micropaleontology at the University of Leeds

Producer: Simon Tillotson.

Get the Snipd
podcast app

Unlock the knowledge in podcasts with the podcast player of the future.

AI-powered
podcast player

Listen to all your favourite podcasts with AI-powered features

Discover
highlights

Listen to the best highlights from the podcasts you love and dive into the full episode

Save any
moment

Hear something you like? Tap your headphones to save it with AI-generated key takeaways

Share
& Export

Send highlights to Twitter, WhatsApp or export them to Notion, Readwise & more

AI-powered
podcast player

Listen to all your favourite podcasts with AI-powered features

Discover
highlights

Listen to the best highlights from the podcasts you love and dive into the full episode

In Our Time

The Paleocene-Eocene Thermal Maximum

Podcast summary created with Snipd AI

Quick takeaways

Deep dives

The Paleocene-Eocene Thermal Maximum (PETM)

Causes of the PETM

Evidence of the PETM

Implications for Future Climate Change

Long-Term Climate Trends

Get the Snipd
podcast app

AI-powered
podcast player

Discover
highlights

Save any
moment

Share
& Export

AI-powered
podcast player

Discover
highlights

In Our Time

The Paleocene-Eocene Thermal Maximum

Podcast summary created with Snipd AI

Quick takeaways

Deep dives

The Paleocene-Eocene Thermal Maximum (PETM)

Causes of the PETM

Evidence of the PETM

Implications for Future Climate Change

Long-Term Climate Trends

Get the Snipdpodcast app

AI-poweredpodcast player

Discoverhighlights

Save anymoment

Share& Export

AI-poweredpodcast player

Discoverhighlights

Get the Snipd
podcast app

AI-powered
podcast player

Discover
highlights

Save any
moment

Share
& Export

AI-powered
podcast player

Discover
highlights