Using the past to unravel the future for Arctic wetlands
A new study has used partially fossilized plants and single-celled organisms to investigate the effects of climate change on the Canadian High Arctic wetlands and help predict their future.
A new study has used partially fossilized plants and single-celled organisms to investigate the effects of climate change on the Canadian High Arctic wetlands and help predict their future.
Environment
May 28, 2019
1
60
Our genetic code is stored in chromosomes that are composed of DNA (deoxyribonucleic acid). To make sure the genetic code is maintained accurately in all the cells, our cells must replicate precisely and distribute its chromosomes ...
Cell & Microbiology
May 22, 2019
0
107
In 2016, CNRS scientists demonstrated that the slime mold Physarum polycephalum, a single-cell organism without a nervous system, could learn to no longer fear a harmless but aversive substance and could transmit this knowledge ...
Cell & Microbiology
Apr 22, 2019
0
803
With a share of up to ten percent, ethane is the second most common component of natural gas and is present in deep-seated land and marine gas deposits all around the world. Up to now, it was unclear how ethane is degraded ...
Biochemistry
Mar 28, 2019
0
56
There is a wide variety of animals living on the Arctic seabed. Attached to rocks, they feed by removing nutrients from the water using filters or tentacles. But it can take decades for these colonies to become established, ...
Earth Sciences
Mar 25, 2019
0
10
It isn't easy being green. It takes thousands of genes to build the photosynthetic machinery that plants need to harness sunlight for growth. And yet, researchers don't know exactly how these genes work.
Biotechnology
Mar 18, 2019
3
154
Freeing thousands of microorganisms to swim in random directions in an infinite pool of liquid may not sound like a recipe for order, but eventually the swarm will go with its own flow.
General Physics
Mar 4, 2019
0
387
The algae responsible for Florida's toxic red tides may be more resilient to shifting ocean chemistry than scientists previously realized, according to research from Florida State University oceanographers.
Environment
Mar 4, 2019
0
15
Coccolithophores are microscopic marine algae that use carbon dioxide to grow, and release carbon dioxide when they create their miniature calcite shells. These tiny, abundant planktonic microorganisms could therefore be ...
Earth Sciences
Feb 15, 2019
0
76
A team of physicists from Immanuel Kant Baltic State University have suggested a method to identify single antibiotic-resistant tuberculosis-causing bacteria. The new method detects the bacteria and evaluates their resistance ...
Biochemistry
Feb 13, 2019
0
5