Evolutionary Roots and that Loving Feeling
In honor of Valentine's Day, we're taking a look at some evolutionary lessons about love and attraction from College of Natural Science researchers in the Department of Integrative Biology.
In honor of Valentine's Day, we're taking a look at some evolutionary lessons about love and attraction from College of Natural Science researchers in the Department of Integrative Biology.
Using cellphone mobility data and COVID-19 hospital admissions data, researchers at The University of Texas at Austin have reliably forecast regional hospital demands for almost two years, according to a new study published in the Proceedings of the National Academy of Sciences. The forecasting system, which municipal authorities credit with helping Austin maintain the lowest COVID-19 death rate among all large Texas cities, has been built out for use by 22 municipal areas in Texas and can be used by any city to guide COVID-19 responses as the virus continues to spread.
Three College of Natural Sciences faculty members members have been elected fellows of the American Association for the Advancement of Science (AAAS), the world's largest general scientific society. In total, six faculty members from The University of Texas at Austin were elected this year.
Expanding rapid testing stands out as an affordable way to help mitigate risks associated with COVID-19 and emerging variants. Infectious disease researchers at The University of Texas at Austin have developed a new model that tailors testing recommendations to new variants and likely immunity levels in a community, offering a new strategy as public health leaders seek a way out of a pandemic that has so far thwarted the best efforts to end its spread. It is the first study to identify optimal levels of testing in a partially immunized population.
Until COVID-19, few people alive today had experienced the chaos and destruction of a really bad pandemic, one that has at times ground businesses, schools and social lives to a near standstill and killed millions globally. But did you know that we aren't alone in being battered by a global infectious disease? Frogs are also struggling through their own pandemic that, according to biologist Kelly Zamudio, has several eerie parallels with COVID-19. Perhaps our own encounters with a pandemic will give us new sympathy for our slimy, bug-eyed friends.
While for many 2021 may have felt like it lasted a few years, it was in fact just 12 months—and University of Texas at Austin scientists and researchers managed to pack a ton of new discoveries into that time. From the furthest reaches of the cosmos to the depths of the ocean and from the tiniest microbes to the most massive black holes, research in Texas Science covered a lot of ground, as researchers pushed boundaries, answered big questions and offered solutions to the world's problems. Here are 16 examples of how UT Austin scientists, mathematicians and technologists used 2021 to usher in new knowledge and innovations to help change the world.
Tropical forests are being deforested at an alarming rate, but also have the potential to regrow naturally on abandoned lands. A study published this week in Science shows that regrowing tropical forests recover surprisingly fast, and after 20 years can attain nearly 80% of the soil fertility, soil carbon storage, structure and tree diversity of old-growth forests. The study concludes that natural regeneration is a low-cost, nature-based solution for climate change mitigation, biodiversity conservation and ecosystem restoration.
While switchgrass has been seen as useful as a clean-burning source of renewable fuel, it also has the ability to pull carbon out of the atmosphere and store it underground in its substantial root system. Atmospheric carbon is a major contributor to climate change and finding ways to sequester it underground could have impacts on efforts to mitigate the catastrophic effects of climate change.
Few developments have rocked the biotechnology world or generated as much buzz as the discovery of CRISPR-Cas systems, a breakthrough in gene editing recognized in 2020 with a Nobel Prize. But these systems that naturally occur in bacteria are limited because they can make only small tweaks to genes. In recent years, scientists discovered a different system in bacteria that might lead to even more powerful methods for gene editing, given its unique ability to insert genes or whole sections of DNA in a genome.
Many of us can't wait to catch up with friends and loved ones this holiday season, COVID-19 experts included.
"I look forward to connecting with family that I haven't seen in over 18 months," says Lauren Ancel Meyers, director of the UT COVID-19 Modeling Consortium. "Since we are not out of the woods with COVID-19 yet, we will take precautions so that we can enjoy being together with peace of mind."