BOZEMAN, Mont. – Dryland ecosystems, which include deserts to dry-shrublands, play a more important role in the global carbon cycle than previously thought. In fact, they have emerged as one of its drivers, says Montana State University faculty member Ben Poulter.

Surprised by the discovery, Poulter and his collaborators explained their findings in Nature. At the same time, they urged global ecologists to include the emerging role of dryland ecosystems in their research. Nature is a weekly international journal that publishes peer-reviewed research in all fields of science and technology.

Application of a technology currently used to disinfect food products may help to get around one of the most challenging problems in medicine today, the proliferation of bacteria resistant to antibiotics and other antimicrobial drugs. In a paper appearing in the June issue of the journal Technology and already released online, investigators from the Massachusetts General Hospital (MGH) Center for Engineering in Medicine describe how the use of microsecond-pulsed, high-voltage non-thermal electric fields successfully killed resistant bacteria infecting experimentally induced burns in mice, reducing bacterial levels up to 10,000-fold.

ANN ARBOR—Collecting plant and animal specimens is essential for scientific studies and conservation and does not, as some critics of the practice have suggested, play a significant role in species extinctions.

Those are the conclusions of more than 100 biologists and biodiversity researchers who signed a letter to the journal Science scheduled for online publication May 22.

The letter is a response to an April 18 Perspectives article in Science arguing that alternative methods of documentation—such as high-resolution photography, audio recordings and nonlethal tissue sampling for DNA analysis—make the field collection of animal and plant specimens unnecessary.

EAST LANSING, Mich. — We have hundreds of types of cells in our bodies – everything from red blood cells to hair follicles to neurons. But why can't most of them create offspring for us?

New research at Michigan State University suggests that separating germ cells – sperm and eggs –from somatic cells – all other cells – preserves the genetic building blocks while allowing organisms to flourish in a somewhat hazardous environment.

The results, which appear in the current issue of PLOS Biology, show that having somatic cells do the organism's dirty work helps explain this beneficial evolution.

Antibodies against C. suis are transferred via the sow's very first milk to the piglets immediately after birth. This was discovered by veterinarian and parasitologist Lukas Schwarz and his colleagues in 2013. These findings prompted the researchers at the Institute for Parasitology to look for a way to increase the level of these antibodies in sows. The ultimate goal was to provide the piglets with as much antibodies as possible via their mother's milk during the first few days of life.

A team of Belgian biologists led by researchers at KU Leuven has provided the first genetic evidence that rapid evolution can help non-native plant species spread in new environments. Using samples of centuries-old herbaria and DNA analysis, the researchers reconstructed the genetic adaptations undergone by the Pyrenean rocket prior to its rapid spread in Belgium.