Sign up to save your podcasts
Or
Share Metal-Absorbing Plants Could Make Mining Greener | A Tiny Fern's Gigantic Genome
Share to email
Share to Facebook
Share to X
Share to email
Share to Facebook
Share to X
Or
Metal-Absorbing Plants Could Make Mining Greener | A Tiny Fern's Gigantic Genome
Plants called “hyperaccumulators” have evolved to absorb high levels of metals. Scientists want to harness them for greener metal mining. And, a little fern from New Caledonia is just a few inches tall, but its genome has 160.45 billion base pairs—50 times more DNA than a human.
How Metal-Absorbing Plants Could Make Mining GreenerScientists are exploring a somewhat unusual green energy solution: mining metals from the earth using plants.
Typically, if soil has high levels of metal, plants will either die or do everything they can to avoid it. But, one group has taken a different path: evolve to be able to safely absorb large amounts of the metals. These special plants are called hyperaccumulators. And their ability to suck metals like nickel from the earth is called phytomining.
The Department of Energy’s Advanced Research Projects Agency-Energy announced in March up to $10 million in funding for phytomining research.
Ira talks with Dr. David McNear, professor of plant and soil sciences at the University of Kentucky, about these fascinating flora and their promise as a greener option to metal mining.
A Tiny Fern Has The Largest Genome Ever DiscoveredScientists just discovered the largest genome of any living thing on Earth, and it belongs to a small, unassuming fern called Tmesipteris oblanceolata. If you were to split open one of its cells and unwind the DNA that’s coiled up in the nucleus, it would stretch out more than 300 feet—taller than the Statue of Liberty.
Scientists reported the finding last week in the journal iScience. The fern is only a few inches tall and is found on the island of New Caledonia in the Southwest Pacific. Its DNA is made up of 160.45 billion base pairs—50 times more than the human genome.
This finding has left scientists scratching their heads, wondering how and why a fern ended up with so much DNA. Ira Flatow talks with co-lead author of this study Dr. Jaume Pellicer, evolutionary biologist at the Botanical Institute of Barcelona, about this research and why this fern’s DNA is so puzzling.
Transcripts for each segment will be available after the show airs on sciencefriday.com.
Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.
View all episodes
By Science Friday and WNYC Studios
4.4
58945,894 ratings
Plants called “hyperaccumulators” have evolved to absorb high levels of metals. Scientists want to harness them for greener metal mining. And, a little fern from New Caledonia is just a few inches tall, but its genome has 160.45 billion base pairs—50 times more DNA than a human.
How Metal-Absorbing Plants Could Make Mining GreenerScientists are exploring a somewhat unusual green energy solution: mining metals from the earth using plants.
Typically, if soil has high levels of metal, plants will either die or do everything they can to avoid it. But, one group has taken a different path: evolve to be able to safely absorb large amounts of the metals. These special plants are called hyperaccumulators. And their ability to suck metals like nickel from the earth is called phytomining.
The Department of Energy’s Advanced Research Projects Agency-Energy announced in March up to $10 million in funding for phytomining research.
Ira talks with Dr. David McNear, professor of plant and soil sciences at the University of Kentucky, about these fascinating flora and their promise as a greener option to metal mining.
A Tiny Fern Has The Largest Genome Ever DiscoveredScientists just discovered the largest genome of any living thing on Earth, and it belongs to a small, unassuming fern called Tmesipteris oblanceolata. If you were to split open one of its cells and unwind the DNA that’s coiled up in the nucleus, it would stretch out more than 300 feet—taller than the Statue of Liberty.
Scientists reported the finding last week in the journal iScience. The fern is only a few inches tall and is found on the island of New Caledonia in the Southwest Pacific. Its DNA is made up of 160.45 billion base pairs—50 times more than the human genome.
This finding has left scientists scratching their heads, wondering how and why a fern ended up with so much DNA. Ira Flatow talks with co-lead author of this study Dr. Jaume Pellicer, evolutionary biologist at the Botanical Institute of Barcelona, about this research and why this fern’s DNA is so puzzling.
Transcripts for each segment will be available after the show airs on sciencefriday.com.
Subscribe to this podcast. Plus, to stay updated on all things science, sign up for Science Friday's newsletters.
More shows like Science Friday
View all
This American Life
91,047 Listeners
TED Radio Hour
22,012 Listeners
Radiolab
43,957 Listeners
Freakonomics Radio
32,143 Listeners
Fresh Air
38,499 Listeners
Planet Money
30,678 Listeners
Hidden Brain
43,732 Listeners
Wait Wait... Don't Tell Me!
38,676 Listeners
On the Media
9,182 Listeners
The Brian Lehrer Show
1,570 Listeners
All Of It
471 Listeners
Big Picture Science
942 Listeners
2 Dope Queens
12,727 Listeners
More Perfect
14,449 Listeners
Science Vs
12,181 Listeners
Science Magazine Podcast
823 Listeners
Notes from America with Kai Wright
1,542 Listeners
Sooo Many White Guys
3,511 Listeners
Nancy
2,800 Listeners
A Piece of Work
1,400 Listeners
Late Night Whenever
1,196 Listeners
Trump, Inc.
5,568 Listeners
American Fiasco
5,772 Listeners
Aftereffect
421 Listeners
Throughline
16,246 Listeners
Short Wave
6,420 Listeners
The Experiment
2,822 Listeners
Unexplainable
2,308 Listeners
Blindspot
643 Listeners
Dead End: Crime and Politics
1,962 Listeners
Our Common Nature
105 Listeners
Radio Rookies Podcast
20 Listeners
The Divided Dial
9 Listeners