2024 Stories
One small step for ancient dinos, one long plane ride for modern humans
Last month scientists announced that they’d identified a close match for dinosaur tracks found in the rocks of northern Cameroon…in Brazil, almost 4000 miles across the Atlantic Ocean! The footprints are about 120 million years old and include tracks from theropods (relatives of Tyrannosaurus), ornithopods (relatives of Hadrosaurus), and sauropods (relatives of Apatosaurus). Both sets of tracks, made when dinosaurs traversed the muddy surfaces near ancient streams and lakes, are preserved in the same sorts of sediments. In fact, the African and South American tracks are so similar that scientists think that they represent two halves of the same path, along which dinosaurs dispersed. How could a walking route that began in Africa ever wind up in South America? A look at Earth’s geologic history provides the answer…and illustrates the nature of scientific theories like evolution.
Read more »Wildfires drive evolutionary change, but can California ecosystems keep up?
In recent decades, fires have increased in size and frequency throughout California. The most recent of these record-breaking wildfires, named Park Fire, is the fourth-largest recorded wildfire in the state’s history. Park Fire started in Bidwell Park in Chico, California, as the result of arson. So far, it has burned through over 429,000 acres, destroyed more than 600 structures and burned through protected ecosystems, like Bidwell Park, the Big Chico Creek Ecological Reserve, and over 113,000 acres of Lassen National Forest. Many factors contribute to California’s ever larger and more frequent fires, but two big ones are climate change – with its resultant dry spells and record-breaking temperatures – and shifts in fire management strategies. In the last century, fire suppression practices, as opposed to controlled burns, have become the norm. Smaller, more frequent controlled burns decrease excess vegetation, reducing a fire’s ability to spread, while strict fire suppression can lead to a build-up of vegetation, increasing the frequency of large-scale wildfires. Here we’ll see how fires can drive evolution, helping plants survive and thrive after fires – and how more frequent fires can make some of these fire-adapted traits a liability.
Read more »We live in the age of humans, but it’s not the Anthropocene … yet
While you’ve probably heard of the Triassic, Jurassic, and Cretaceous periods by way of their most charismatic animals, the dinosaurs, other units of geologic time are less well known. The Siderian Period, for example, rarely makes headlines because it is, by definition, old news – 2.5-billion-year-old news. However, discussions of geologic time recently sprang up in news feeds when geologists considered shaking things up and declaring the end of the Holocene Epoch, which we’ve been living in since the last Ice Age ended more than 11,000 years ago. The idea was to cap the Holocene by sectioning off a new unit of time called the Anthropocene – the age of humans. Here we’ll dig into the geologic time scale to see why it matters and what the idea of the Anthropocene Epoch is all about.
Read more »Measles: New outbreaks, old virus
In recent weeks, measles cases have popped up across the U.S in Ohio, Florida, Washington, Michigan, Indiana, Minnesota, and beyond. This highly contagious virus often leads to hospitalization and occasionally to serious complications and death, especially in children under five. While the vaccine is safe and effective, declining vaccination rates have left pockets of people vulnerable. Measles might sound like ancient history compared to COVID-19, mpox, Zika, and other outbreaks that have made headlines in recent years – but how long has measles really been around? Evolutionary biology has the answer.
Read more »Why species stay the same
The word evolution is nearly synonymous with change. One species diversifies into many. A disaster triggers a mass extinction among marine life. A microbe becomes resistant to our drugs. Each of these changes, large or small, is a classic example of evolution in action. But what about lack of change? Most of the species we observe around us today look about the same as they did in our grandparents’ time. And the fossil record includes many species that seem hardly to have changed at all for millions of years. How does this conspicuous stability square with evolutionary theory? New research supports one explanation.
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