A new study shows that nitrogen-fixing trees could help forests remove more heat-trapping COS from the atmosphere than previously thought. Black locust trees have a symbiotic relationship with ...

Joy B. Winbourne is in the Department of Earth, Environmental and Atmospheric Sciences, University of Massachusetts, Lowell, Massachusetts 01854, USA. Barker and colleagues tested whether ...

The ability of tropical forests to grow and store carbon is limited, in part, by herbivory. Insects and other animals prefer to feed on nitrogen-fixing trees, reducing the success of fixers and the ...

Reforestation projects could be made more effective with the findings of new research into the constraints on nitrogen fixation among plants. Some trees, such as those from the Fabaceae or legume ...

Young tropical forests play a crucial role in slowing climate change. Growing trees absorb carbon dioxide from the air, using ...

Young tropical forests can regrow twice as fast with enough nitrogen, dramatically increasing carbon capture, according to a ...

Nitrogen shortage limits young tropical forest growth, slowing carbon capture that could help fight climate change.

The ability of tropical forests to grow and store carbon is limited, in part, by herbivory. Insects and other animals prefer to feed on nitrogen-fixing trees, reducing the success of fixers and the ...

Journal of Vegetation Science, Vol. 29, No. 3 (May 2018), pp. 560-568 (9 pages) Plants associated with symbiotic N-fixing bacteria play important roles in early successional, riparian and semi-dry ...

All known life forms require nitrogen. However, more than 70% of all nitrogen on Earth occurs as inert, triple-bonded dinitrogen gas in the atmosphere, which is generally biologically unavailable. A ...

In Death Valley National Park, which straddles the California-Nevada border, mesquite plants (genus Prosopis) thrive in extreme aridity. While most vegetation types must extract most of their ...

Researchers are one step closer to understanding how some plants survive without nitrogen. Their work could eventually reduce the need for artificial fertilizer in crops such as wheat, maize, or rice.