News

The country's first peer-reviewed study of a COVID-19 treatment that transfuses blood plasma from recovered patients into critically ill patients shows 19 out of 25 patients improving, including 11 discharged from the hospital.

Students at UT Austin already had plenty on their plates. When COVID-19 hit, the usual return from spring break and settling back into campus life turned instead into a mass migration—students scattering to shelter in place wherever they call home, in many cases moving back in with their families. Some became ill or began caring for sick family members. Classes moved online. Jobs ended. Everything was topsy turvy (it still is). But that hasn't stopped College of Natural Sciences undergraduates in public health, neuroscience and computer science from finding ways to help out their communities and fellow classmates.

This semester, the College of Natural Sciences is checking in with faculty experts about developments related to their fields of study that may well affect how we live, work and interact with one another and the world around us over the next 50 years.

A University of Texas at Austin model that projects COVID-19 deaths for all 50 U.S. states and dozens of metro areas using geolocation data from cellphones to determine the impact of social distancing within each place finds, in many communities, deaths have likely not yet peaked. The model, originally launched with state data, was updated on April 24 to be the first publicly available model to show projections of deaths also by metro area.

The hunt for an effective treatment for COVID-19 has led one team of researchers to find an improbable ally for their work: a llama named Winter. The team — from The University of Texas at Austin, the National Institutes of Health and Ghent University in Belgium — reports their findings about a potential avenue for a coronavirus treatment involving llamas on May 5 in the journal Cell.

Can we simulate life — in all its messy complexity and at the scale of each individual atom — in a computer?

Astrophysicist Katherine Freese, astronomer John Kormendy and evolutionary biologist Mark Kirkpatrick of The University of Texas at Austin have been elected to the National Academy of Sciences. They join 120 new members recognized by the academy this year for distinguished and continuing achievements in original scientific research.

Evolutionary biologist Mark Kirkpatrick of The University of Texas at Austin has been elected to the National Academy of Sciences. Among his many accomplishments, Kirkpatrick has helped explain how mating preferences drive the evolution of male traits and how sex chromosomes originate and evolve.

Cotton producers in Texas, elsewhere in the US and around the world are looking for new varieties that can better withstand droughts, pests and pathogens, yet yield higher-quality fibers for the textile industry.

A group of trees that grow fast, live long lives and reproduce slowly account for the bulk of the biomass—and carbon storage—in some tropical rainforests, a team of scientists says in a paper published this week in the journal Science. The finding that these trees, called long-lived pioneers, play a much larger role in carbon storage than previously thought may have implications in efforts to preserve forests as a strategy to fight climate change.