A Chapman University scientist and his colleagues have determined how the Earth responds as it heats up due to climate change.

CEAB-CSIC researchers have published a scientific article that helps to understand the intercontinental dispersion of harmful microorganisms through the atmosphere.

Researchers led by a team at the University of Wisconsin–Madison have created the first tool to map and visualize the areas where human settlements and nature meet on a global scale. 

If, as the saying goes, "nothing in life is free," then corals might pay a price for being resilient to climate change.

We know less about the rainforest canopy, where most of the world’s species live than we do about the surface of Mars or the bottom of the ocean. 

Ecologists and ranchers alike know that rivers and streams with healthy beaver populations support more biodiversity, are more drought resilient, and keep water available on the land for more days of the year. 

In a new study, researchers have found that the restoration efforts of the critically endangered species elkhorn coral depend largely on the animal’s location, microbiome, and the right conditions to provide an abundance of food. 

A team led by the Hong Kong University of Science and Technology (HKUST) has developed a technique to study how different fish species interact with each other in a coastal region, a breakthrough that helps explain the complex relationships among marine species and how global warming impacts fish populations.

Many landscapes in the tropics consist of a mosaic of different types of land use.

The new methodology, developed by a team from the ICM-CSIC, accurately estimates the horizontal diffusion of water masses in different oceanic regions and will help to improve climate predictions.