The discovery of non-cyanobacteria diazotrophs underneath Arctic sea ice could change our understanding of the food web, as well as the ocean's carbon budget.

Melting Arctic ice is revealing a hidden ecosystem where bacteria convert nitrogen gas into nutrients, fueling algae growth.

Melting Arctic sea ice can be a driving force behind a process called nitrogen fixation, where atmospheric nitrogen can be ...

Scientific expeditions to the Arctic have uncovered a phenomenon that was previously thought impossible, report experts at ...

Upwelling of phosphorus-rich deep water promotes an N-fixing symbiont of the Sargassum algae giving it a competitive ...

Melting Arctic ice enables nitrogen-fixing microbes to feed algae and absorb carbon, challenging old climate views.

Upwelling of phosphorus-rich deep water promotes an N-fixing symbiont of the Sargassum algae giving it a competitive advantage. • Each year, vast mats of Sargassum spread across the tropical Atlantic, ...

As Arctic sea ice melts, new life may emerge from the thaw. Researchers have discovered that bacteria beneath and along the melting ice are converting nitrogen gas into a form that fuels algae. The ...

Researchers have taken a major step toward understanding how certain plants can thrive without chemically produced nitrogen.

Scientists have found nitrogen-fixing microbes beneath Arctic sea ice, potentially reshaping climate and nutrient models if ...

The salad on your plate may owe its existence to a thunderstorm. Many people are wary of lightning as a natural phenomenon. A ...