Conservationists with the Wildlife Conservation Society recently released this camera-trap photo of a wolverine retrieving bait placed in a tree in Montana.
The frame upon which the animal climbs is designed so that the unique markings on the underside of the wolverine are revealed to the motion-sensing camera.
Scientists use these markings to identify individual animals and document their distribution and range.
WCS’s eight-year study of wolverines in the Greater Yellowstone Ecosystem has led to a better understanding of wolverine ecology and will help inform conservation strategies so that this rare species can survive despite the 21st century conservation challenges it faces.
An estimated 250-300 wolverines remain in the “lower 48,” where they occupy about half of their former range in high alpine peaks of the western United States.
Scott Smith | Newswise Science News
Innovative grilling technique improves air quality
01.07.2020 | Fraunhofer Institute for Building Physics IBP
Traffic density, wind and air stratification influence the load of the air pollutant nitrogen dioxide
26.06.2020 | Leibniz-Institut für Troposphärenforschung e. V.
Kiel physics team observed extremely fast electronic changes in real time in a special material class
In physics, they are currently the subject of intensive research; in electronics, they could enable completely new functions. So-called topological materials...
Solar cells based on perovskite compounds could soon make electricity generation from sunlight even more efficient and cheaper. The laboratory efficiency of these perovskite solar cells already exceeds that of the well-known silicon solar cells. An international team led by Stefan Weber from the Max Planck Institute for Polymer Research (MPI-P) in Mainz has found microscopic structures in perovskite crystals that can guide the charge transport in the solar cell. Clever alignment of these "electron highways" could make perovskite solar cells even more powerful.
Solar cells convert sunlight into electricity. During this process, the electrons of the material inside the cell absorb the energy of the light....
Empa researchers have succeeded in applying aerogels to microelectronics: Aerogels based on cellulose nanofibers can effectively shield electromagnetic radiation over a wide frequency range – and they are unrivalled in terms of weight.
Electric motors and electronic devices generate electromagnetic fields that sometimes have to be shielded in order not to affect neighboring electronic...
A promising operating mode for the plasma of a future power plant has been developed at the ASDEX Upgrade fusion device at Max Planck Institute for Plasma...
Live event – July 1, 2020 - 11:00 to 11:45 (CET)
"Automation in Aerospace Industry @ Fraunhofer IFAM"
The Fraunhofer Institute for Manufacturing Technology and Advanced Materials IFAM l Stade is presenting its forward-looking R&D portfolio for the first time at...
07.07.2020 | Event News
02.07.2020 | Event News
19.05.2020 | Event News
08.07.2020 | Materials Sciences
08.07.2020 | Health and Medicine
08.07.2020 | Physics and Astronomy