The type of material present under glaciers has a big impact on how fast they slide towards the ocean. 

Palaeoclimatologists study climate of the geological past. 

When lockdowns during the coronavirus pandemic cut local nitrogen oxide emissions, the effect on ozone pollution was global and unexpectedly rapid.

Such detailed maps could help policymakers choose the most effective ways of cutting carbon emissions.

Smithsonian Conservation Biology Institute scientists are one step closer to understanding why some corals can weather climate change better than others, and the secret could be in a specific protein that produces a natural sunscreen.

A consortium of French laboratories, the ALPALGA project, has set out to study the little understood communities of microalgae that live in mountains, including some that turn snow orange or red, a phenomenon known as “glacier blood.”

New research shows transmission of the virus behind COVID-19 varies seasonally, but warmer conditions are not enough to prevent transmission.

New research has shown that by injecting an alkalinizing agent into the ocean along the length of the Great Barrier Reef, it would be possible, at the present rate of anthropogenic carbon emissions, to offset ten years’ worth of ocean acidification.

The bad odors produced by the Waste Water Treatment Plants, known as WWTPs, have become a growing concern in the cities and towns that host these facilities and are considered by citizens to be the main cause of the perception of pollution, along with the dust and noise. 

In “Atchafalaya,” John McPhee’s essay in the 1989 book The Control of Nature, the author chronicles efforts by the U.S. Army Corps of Engineers to prevent the Atchafalaya River from changing the course of the Mississippi River where they diverge, due to the Atchafalaya’s steeper gradient and more direct route to the gulf.