In The News: College of Sciences
In a lab at the Las Vegas Natural History Museum, researchers from UNLV are combing over fossils from a Columbian mammoth that was a real stand-up guy.
Fire-breathing dragons really capture the imagination — leading many writers to ponder just how such a creature might spew forth a torrent of flame. How do we square such a fantastic adaptation with real-life biology?
For 22 years, Maureen Stapleton has led the San Diego County Water Authority.
In just two decades, the agency’s first female general manager accomplished what generations of men had not: Under her leadership, San Diego acquired its own supplies of water.
Media reports describe Cape Town, South Africa, as a parched, barren land where the perfect combination of drought, climate change, a growing population and excessive water use has left officials counting down the days when the coastal city’s tap runs dry.
If someone wants to build a dragon, how can it be made to breathe fire? It seems that all the elements that can make a dragon breathe fire can be found in nature without the help of artificial flamethrowers.
Two longtime friends and co-workers are sharing their love for the Mojave Desert with others through their new book, “A Natural History of the Mojave Desert.”
No fantasy world is complete without a fire-breathing dragon. SpaceX founder Elon Musk even wants to make a cyborg version a reality, or so he tweeted April 25. But if someone was going to make a dragon happen, how would it get its flame? Nature, it seems, has all the parts a dragon needs to set the world on fire, no flamethrower required. The creature just needs a few chemicals, some microbes — and maybe tips from a tiny desert fish.
Reliably bringing all of the ingredients together without harming the dragon could, however, get explosive
Research into the regeneration of eye tissue in embryonic frogs could support work to restore human tissue.
A UNLV scientist and her team have found that frog embryos can fully regrow their eyes after injuries, a breakthrough that may lead one day to the ability to orchestrate tissue regeneration in humans.
Xenopus laevis embryos of the African clawed frog, a species that had been used for decades to detect pregnancy in the United States, (only to be later released into U.S. waters after they were no longer needed in labs), has the capability to regenerate fully functioning eyes, according to researchers with the University of Nevada at Las Vegas.
Imagine solving prehistoric mysteries by sifting through the ashes of ancient volcanoes.