A surprise discovery in a remote Australian desert region has given us new clues into the evolution of complex animal life, ...

Then, some time later, there were their descendants, the early animals: multicelled creatures ... seeking as yet unknown microbes from aquatic sites around the world. So far, he’s identified ...

Migrating animals can bring food and contaminants to their destination. An assessment of Pacific salmon migrations from 1976 ...

Then, some time later, there were their descendants, the early animals: multicelled creatures, still swimming, eating, reproducing, but doing it all as teams of cells. Exactly what happened ...

Biologists from UMD discovered that geckos can detect low-frequency ground vibrations through their inner ear, providing a ...

The interactions were dominated by water management patents. It should be noticed that those patents with high betweenness patents were also those with high efficiency in all three interactions ...

Aquatic animals such as eels, sharks and dolphins are known to sense electricity in water, which is an excellent conductor of charge. By contrast, air is a poor conductor. But it may relay enough to ...

A 30-year-long study of a small population of marine snail shows how evolution can adapt to environmental changes quite rapidly. This study revealed how a specific ecotype of the snail changed its ...

Series of paleomaps visualising the geographical and chronological aspects of the main events during the evolutionary history of the freshwater fish family Nemacheilidae across Eurasia. A red star ...