
Sign up to save your podcasts
Or


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
Mark Maslin
And
Tracy Aze
Producer: Simon Tillotson.
By BBC Radio 44.6
51095,109 ratings
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
Mark Maslin
And
Tracy Aze
Producer: Simon Tillotson.

7,639 Listeners

301 Listeners

519 Listeners

1,046 Listeners

293 Listeners

3,223 Listeners

1,878 Listeners

870 Listeners

604 Listeners

720 Listeners

283 Listeners

2,110 Listeners

488 Listeners

4,785 Listeners

217 Listeners

360 Listeners

233 Listeners

307 Listeners

3,177 Listeners

3,370 Listeners

15,592 Listeners

1,895 Listeners

65 Listeners

814 Listeners

555 Listeners

2,409 Listeners

328 Listeners

643 Listeners

386 Listeners

239 Listeners

56 Listeners

75 Listeners

74 Listeners