Bolivia’s Carreras Pampas reveals unprecedented dinosaur trackways
Over 16,000 fossilized footprints unearthed in Bolivia present a vivid glimpse into the movements of theropod dinosaurs from over 100 million years ago. These tracks, preserved along an ancient shoreline, offer rare insights into how these predators navigated their environment during the late Cretaceous period.
The Carreras Pampas site, located within Bolivia’s Torotoro National Park, has yielded a remarkable concentration of theropod footprints, with scientists recently identifying 16,600 impressions. This surpasses any previously documented tracksite in terms of sheer volume. The preserved tracks span roughly 80,570 square feet (7,485 square meters) and include both isolated prints and continuous trackways, which trace the paths of individual animals. The study, published in PLOS One, marks the first detailed scientific survey of this exceptional site.
A bustling dinosaur highway
Paleontologists describe Carreras Pampas as a “dinosaur freeway,” where theropods traveled repeatedly across soft, deep mud between 101 million and 66 million years ago. Researchers suggest that the tracks, mostly aligned in north-northwest and southeast directions, were formed over a relatively short period, indicating that this area was a frequently used corridor for these carnivorous dinosaurs. Such a concentration of tracks hints at a larger network of movement that may have extended across parts of Bolivia, Argentina, and Peru.
The size and spacing of the footprints reveal diverse behaviors. Some theropods moved leisurely along the muddy shoreline, while others sprinted, leaving longer, deeper impressions. Remarkably, over 1,300 tracks show evidence of swimming, with the middle toe pressing more deeply into the mud while the other toes and heel left lighter marks. These details offer a unique view into how dinosaurs interacted with water and navigated their surroundings.
Insights from footprint dimensions
Analysis of footprint dimensions reveals a broad spectrum of theropod sizes, with estimated hip heights ranging from approximately 26 inches (65 centimeters) to over 49 inches (125 centimeters). Some trackways even feature tail drag marks, offering further insights into the animals’ movements. Alongside the theropod tracks, researchers recorded several hundred bird footprints that coexisted along the shoreline, offering a window into the wider ecosystem of that era.
“The tracks offer a comprehensive account of movement and surroundings,” stated Dr. Peter Falkingham, a paleobiology professor at Liverpool John Moores University, who did not participate in the study. “Deeper impressions document the foot’s motion in ways that skeletal remains cannot, unveiling gait, posture, and interactions with the substrate.”
Swimming tracks, for example, contrast significantly with walking tracks, as buoyancy changes the way toes sink into the mud. These nuanced differences assist paleontologists in piecing together behaviors that bones alone fail to reveal. Dr. Jeremy McLarty, a coauthor of the study, remarked, “Tracks are a testament to soft tissues, movements, and the habitats where dinosaurs truly existed. Carreras Pampas revives these vanished ecosystems.”
Evaluating pathways throughout Bolivia
Although Carreras Pampas has been known for its dinosaur footprints since the 1980s, the scale and density had never been systematically studied. Bolivia boasts multiple tracksites dating from the Triassic, Jurassic, and Cretaceous periods, making it one of the richest regions in the world for dinosaur trackways. Prior to the Carreras Pampas survey, the most prolific site was Cal Orck’o in Sucre, which contains roughly 14,000 tracks from about 68 million years ago.
The dominance of theropod tracks at Carreras Pampas prompts inquiries into the ecosystem dynamics of that era. In contrast to sauropods, which moved in groups, theropods were generally lone predators. This site, primarily featuring carnivorous dinosaur tracks, might suggest specific hunting territories or a migration path frequently used by these swift predators. McLarty highlighted, “When you start comparing across sites, you can begin to see patterns of dinosaur movement on a continental scale.”
Insights from trackways that fossils alone cannot provide
Unlike skeletal fossils, which may be displaced from their original locations after death, trackways provide a direct snapshot of life in motion. “A skeleton shows what an animal could do; trackways show what it actually did,” explained Dr. Anthony Romilio, a research associate at the University of Queensland. Trackways capture speed, direction, turning behavior, slipping, posture, and, in some cases, group interactions.
The Carreras Pampas site is particularly significant because it preserves a variety of theropod sizes, which may represent multiple species or age groups. The abundance and diversity of footprints offer insights into population structure, predator-prey dynamics, and how different species shared the same habitat. The tracks also provide evidence of repeated use over time, suggesting that this shoreline was an important corridor within the Cretaceous landscape.
Implications for paleoecology
By examining footprint depth, shape, and spacing, scientists can infer not only dinosaur size and behavior but also the characteristics of the substrate and the environmental conditions at the time. The soft, deep mud preserved at Carreras Pampas captured subtle details such as foot rotation, claw marks, and tail drags, all of which illuminate how these animals moved through their environment.
These findings have broader implications for understanding the ecology of late Cretaceous South America. They help reconstruct predator-prey interactions, shoreline usage, and even potential seasonal patterns in dinosaur movement. Furthermore, the combination of theropod and bird tracks provides a more complete picture of the Cretaceous ecosystem, highlighting the interplay between large predators and smaller coexisting species.
Preserving a window into the past
Carreras Pampas showcases how trackways can capture snapshots of ancient life in a manner that mere bones cannot achieve. Visitors to the location are literally positioned where dinosaurs once trod, leaving a motion record that remains unchanged over time. McLarty remarked, “Tracks remain stationary. When you visit Carreras Pampas, you are aware that you are standing where a dinosaur once walked.”
The vast array and variety of footprints render this site an invaluable asset for continuous research. Future investigations might juxtapose Carreras Pampas with other Bolivian locations to discern regional trends in dinosaur behavior and movement. Through the mapping and examination of these trackways, scientists can gain a deeper understanding of how theropods traversed terrains, hunted, and engaged with both their own kind and other species.
Moreover, the site underscores the importance of preserving fossil trackways, which offer irreplaceable insight into ancient life. Each footprint represents a fleeting moment from millions of years ago, capturing the dynamics of extinct creatures in a way that skeletal remains cannot.
The Carreras Pampas tracksite in Bolivia offers an exceptional record of theropod activity and behavior, showcasing the movements, sizes, and interactions of dinosaurs along an ancient shoreline. These fossilized footprints are more than mere impressions in stone—they are vivid snapshots of prehistoric life, providing scientists and the public alike with a rare chance to witness the Cretaceous world as it once existed. The detailed analysis of these tracks not only enhances our understanding of dinosaur ecology but also enriches the global picture of how these iconic predators shaped and navigated their environments millions of years ago.
