By the beginning of June this year, approximately 38 million tons of Sargassum drifted towards the coasts of the Caribbean ...

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

The discovery of non-cyanobacteria diazotrophs underneath Arctic sea ice could change our understanding of the food web, as ...

Researchers found that the fringes of Arctic sea ice tend to host more nitrogen-fixing bacteria and higher nitrogen-fixing ...

Researchers are one step closer to understanding how some plants survive without nitrogen. Their work could eventually reduce ...

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

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 ...

Gingko Bioworks is extending a partnership agreement with Bayer to continue developing microbial nitrogen fixation ...

The marine nitrogen cycle is crucial to sustaining ocean productivity, with biological nitrogen fixation representing a primary mechanism by which inert atmospheric nitrogen is converted into ...

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

AsRon Calhoun, Senior Portfolio Manager for Plant Nutrition at Nutrien Ag Solutions, explains with its three modes of action—N-Finity is elevating how Loveland Products can further nutrient use ...