Our boldest photography project yet!

From Above & Below, a mission to photograph the same subjects from Earth and space with National Geographic photographer, Babak Tafreshi.

BabakTafreshi traveled the world while I orbited around it, and together we created this perspective.

Lucky shot during the eclipse

Brain growth slowed down about 300,000 years ago due to energetic and climate pressures, according to a study published in Brain & Cognition.

One of the puzzles of human evolution is why Homo sapiens is the only surviving species within the Homo lineage. Larger brains have often been seen as a key advantage, enabling fire use, tool-making, and symbolic communication. However, big brains also come at a cost—they consume around 20% of our resting energy and produce considerable heat, which can be a liability in warmer climates.

Study author Jeffrey M. Stibel examined this evolutionary trade-off. Earlier Homo species experienced strong selection for larger brains, which likely helped them navigate shifting environments and complex social worlds. But fossil evidence suggests that in the past 100,000 years, brain size began to plateau or even shrink, raising the possibility that survival depended not just on biology but also on cultural innovations.

The Dragonfly mission is flying through milestones! Recent thermal and environmental testing shows how the rotorcraft will survive and navigate Titan’s skies. This bold mission will explore one of our solar system’s most intriguing worlds. https://t.co/ctPlSEzMyS

The greatest challenge facing astrobiologists is that there is only one planet known to us that has life. Of all the bodies of the Solar System, only Earth has a dense atmosphere, liquid water on its surface, and the organic chemistry that supports life.

However, these conditions did not exist billions of years ago when Earth was still young. While the nebula from which the planets formed was rich in volatile elements, the high temperatures in the inner Solar System largely prevented them from condensing, leaving them mostly in a gaseous state.

As a result, these elements were not incorporated into the solid rocky materials from which the inner planets formed. Only celestial bodies that formed farther from the Sun retained the substances essential to life, which raises questions about how and when they were introduced to Earth.

In a new study, researchers from the University of Bern showed for the first time how the chemical composition of primordial Earth was complete three million years after it formed (ca. 4.5 billion years ago).

Their results imply that the ingredients for life (water, carbon compounds, sulfur, etc.) were introduced later, likely by an impact.

Starting next month, four volunteers will spend a year inside a 3D-printed habitat at NASA Johnson to help us prepare for future missions to Mars.

Meet the members of our new CHAPEA crew: https://t.co/BMnXQaWq1O