How many Tyrannosaurus rex walked the Earth?
Ashley Poust, University of California, Berkeley and Daniel Varajão de Latorre, University of California, Berkeley
The Research Brief is a short take about interesting academic work.
The big idea
During 2.4 million years of existence on Earth, a total of 2.5 billion Tyrannosaurus rex ever lived, and 20,000 individual animals would have been alive at any moment, according to a new calculation method we described in a paper published on April 15, 2021 in the journal Science.
To estimate population, our team of paleontologists and scientists had to combine the extraordinarily comprehensive existing research on T. rex with an ecological principle that connects population density to body size.
From microscopic growth patterns in bones, researchers inferred that T. rex first mated at around 15 years old. With growth records, scientists can also generate survivorship curves – an estimate of a T. rex‘s chances of living to a given age. Using these two numbers, our team estimated that T. rex generations took 19 years. Finally, T. rex existed as a species for 1.2 to 3.6 million years. With all of this information, we calculate that T. rex existed for 66,000 to 188,000 generations.
From the fossil record alone, we had generated a T. rex turnover rate. If our team could estimate the number of individuals in each generation, we would know how many T. rex ever lived.
In ecology, there is a well-established relationship between body mass and population density called Damuth’s law. Larger animals need more space to survive – one square mile of grassland can support a lot more bunnies than elephants. This relationship is also dependent on metabolism – animals that burn more energy require more space.
Paleontologists have come up with a range of good estimates of T. rex’s body mass and have also estimated its metabolism – slower than mammals but somewhat faster than a large modern lizard, the Komodo dragon. With Damuth’s law, we then estimated that the ancient world held about one T. rex every 42.4 square miles (109.9 square km). That’s about two individuals in the entire area of Washington, D.C.
Now we had all the pieces we needed. Multiplying the population density by the area in which T. rex lived gives us an estimate of 20,000 individuals per generation.
Why it matters
Once we figured out the average population size, we were able to calculate the fossilization rate for T. rex – the chance that a single skeleton would survive to be discovered by humans 66 million years later. The answer: about 1 in 80 million. That is, for every 80 million adult T. rex, there is only one clearly identifiable specimen in a museum.
This number highlights how incomplete the fossil record is and allows researchers to ask how rare a species could be without disappearing entirely from the fossil record.
Beyond calculating the T. rex fossilization rate, our new method could be used to calculate population size for other extinct species.
What still isn’t known
Estimates about extinct animals always include some amount of uncertainty. Our estimate of T. rex population density ranges from one individual for every 2.7 square miles (7 square km) to one for every 665.7 square miles (1,724 square km). But surprisingly, the largest source of this uncertainty comes from Damuth’s law. There is a lot of variation in modern animals. For example, Arctic foxes and Tasmanian devils have similar body mass, but devils have six times the population density.
Further study of living animals could tighten up our estimates on T. rex.
We also don’t know fossilization rates of other long extinct dinosaurs. If we have many fossils of one species, does that mean they were more common than T. rex, or do we simply recover their fossils more often?
What’s next
This study might lead to other hidden facts about T. rex biology and ecology.
For instance, we might be able to learn whether T. rex populations fluctuated up and down with Triceratops – similar to wolf and moose predator and prey relationships today. However, most other dinosaurs do not yet have the incredibly rich data from decades of careful fieldwork that allowed our team to tally up T. rex.
If scientists want to apply this powerful technique to other extinct animals, we’ve got some more digging to do.
Ashley Poust, Research Associate in Paleontology, University of California, Berkeley and Daniel Varajão de Latorre, Ph.D. Student in Paleontology, University of California, Berkeley
This article is republished from The Conversation under a Creative Commons license. Read the original article.