Ebola can remain dormant for five years
Unexpected Elements
BBC
4.4 • 568 Ratings
🗓️ 19 September 2021
⏱️ 65 minutes
🧾️ Download transcript
Summary
An international team of researchers has discovered that an outbreak of Ebola in Guinea in February this year was the result of re-activated Ebola virus in someone who’d been infected at least five years ago during the earlier large Ebola epidemic that swept through Guinea, Sierra Leone and Liberia. This means the virus can remain dormant in some Ebola survivors for five years or more.
Virologists Alpha Kabinet Keita and Robert Garry talk to Roland Pease about the research and its implications. Also in the programme: The eruption of lavas from Iceland’s newest volcano Fagradalsfjall continues six months on. Geochemist Ed Marshall tells us how he gets up close to sample the molten rock with a long scoop and a bucket of water, and what he’s learning about this remarkable eruption. NASA’s Katie Stack Morgan updates Science in Action on the Perseverance rover’s successful sampling of rocks from Jezero crater on the planet Mars. When the specimens are eventually returned to Earth, she says they may turn out to contain tiny samples of Mars’ water and atmosphere from early in the Red Planet’s history.
Also...Look into my eyes. What do you see? Pupil, lens, retina… an intricate set of special tissues and mechanisms all working seamlessly together, so that I can see the world around me. Charles Darwin called the eye an ‘organ of extreme perfection’ and he’s not wrong!
But if the eye is so complex and intricate, how did it evolve? One listener, Aloyce from Tanzania, got in touch to pose this difficult question. It’s a question that taxed Darwin himself, but CrowdScience is always up for a challenge!
The problem is that eyes weren’t ever designed - they were cobbled together over millions and millions of years, formed gradually by the tweaks and adaptations of evolution. How do you get from the basic detection of light to the wonderful complexity - and diversity – of visual systems we find throughout the animal kingdom?
CrowdScience sent Marnie Chesterton on an 800 million year journey to trace how the different elements that make up the human eye gradually came into being; from the emergence of the first light-sensitive proteins to crude eye-cups, from deep sea creatures with simple pinhole eyes to the first light-focusing lenses, all the way to the technicolour detail of the present day.
(Image credit: Getty Images)
Transcript
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| 0:00.0 | Oh, hello. You have chosen a BBC podcast, but before you listen to it, we thought you might |
| 0:04.7 | like our podcast too. You might. You might. It is called Sightracked with me, Nick Grimshaw. |
| 0:09.2 | And me, Annie Mack. And we talk about the week in music. All the news, all the cultural |
| 0:14.0 | happenings in the UK and beyond. And great guests. And it's on BBC Sounds. Yes, where you can |
| 0:19.7 | also enjoy lots of playlists, music mixes and |
| 0:22.6 | live radio, everything from my six music breakfast show to Radio 3 Unwind. But obviously start |
| 0:29.2 | with our podcast, sidetrack. Obviously. Obviously. So if you like music, listen on BBC |
| 0:33.7 | Sounds. Thank you for downloading the Science Hour from the BBC World Service with me, |
| 0:38.0 | Roland P's. And in half an hour, crowd science puts evolution of the eye under the microscope. |
| 0:44.9 | The evolution of the eye is, in my opinion, literally the single most exciting topic in the |
| 0:50.6 | whole of science. I could talk about this for 24 hours without taking a breath. |
| 0:57.9 | Breathless evolutionary optics, quite a vision for later in the hour. Before that, we have lava's |
| 1:04.4 | ancient. The rocks that perseverance just collected and encored, we think that these are |
| 1:10.3 | ancient lava flows at least three and a half, |
| 1:13.4 | if not older, a billion years old. |
| 1:14.8 | And lava's modern. |
| 1:16.4 | We have a long metal pole with kind of a metal scoop on the end. |
| 1:20.5 | And so what we have to do to sample the freshest lavas is to use a scoop to scoop it into a bucket that is water, and the water |
| 1:30.1 | will freeze the lava and actually quench it into a volcanic glass. But first, the return of |
| 1:35.8 | Ebola. While much of the world and this program have been focused on COVID-19, there have been |
| 1:43.1 | recurrent outbreaks of Ebola fever in parts of Africa, |
| 1:46.7 | in Kivu province, in the Democratic Republic of Congo, and in Guinea, which had been swept up in |
... |
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