Scientists identify molecule that could have helped cells thrive on early Earth

A new study offers an explanation for how ''protocells'' could have emerged on early Earth, eventually leading to the cells we know today. The work suggests that molecules called cyclophospholipids may have been the ingredient necessary for protocells to form important internal structures called vesicles, which likely kicked off the evolutionary process.

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Big data reveals extraordinary unity underlying life's diversity

Limits to growth lie at the heart of how all living things function. The diversity of life is staggering. From microscopic algae to elephants, life has devised countless ways to thrive in every environment on the planet. But while biologists have tended to focus on the many varied forms that species have evolved, the age of 'big data' offers an unprecedented view of some surprisingly common features shared by all creatures, great and small.

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Dust in ice cores leads to new knowledge on the advancement of the ice before the ice age

Working with the ice core ReCap, drilled close to the coast in East Greenland, researchers wondered why the dust particles from the interglacial period — the warmer period of time between the ice ages — were several times bigger than the dust particles from the ice age. The research led to the invention of a method able to map the advancement of the glaciers in cold periods and the melting in warmer periods.

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Oldest miniaturized stone toolkits in Eurasia

Microliths are often interpreted as being part of composite tools, including projectile weapons, essential to efficient Homo sapiens hunting strategies. In Europe and Africa, these lithic toolkits are linked to hunting medium and large-sized animals in grassland or woodland settings, or as adaptations during periods of climatic change. The presence of microliths in Sri Lanka suggests the existence of more diverse ecological contexts for these technologies by some of the earliest members of our species.

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Ancient genomes provide insight into the genetic history of the second plague pandemic

Researchers have analyzed remains from ten archaeological sites in England, France, Germany, Russia, and Switzerland to gain insight into the different stages of the second plague pandemic and the genetic diversity of Yersinia pestis during and after the Black Death. The researchers reconstructed 34 Y. pestis genomes, tracing the genetic history of the bacterium, which revealed key insights into the initiation and progression of the second plague pandemic in Europe.

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