By now many readers will have seen the excellent, excellent BBC/Apple TV+ documentary Prehistoric Planet, a show being widely celebrated as the most significant televisual portrayal of dinosaurs since 1999’s seminal Walking with Dinosaurs. There’s a huge amount to say about the reaction to Prehistoric Planet as well as how it was put together. I’m proud to say I was involved as a concept artist and consultant but, for now, those of us involved with the show have been (understandably) asked not to give too much away. We can, nevertheless, use the programme as a jumping-off point to discuss some cool dinosaur science, and that’s what I want to briefly do today.
One of the most memorable scenes in Prehistoric Planet is the opener of the first episode, and you might be familiar with it even if you haven’t seen the full series. It’s the sequence featuring the swimming Tyrannosaurus and his juveniles crossing a small body of water to engage in some beach-related foraging. Part of this scene featured in a promotional teaser that dropped so many jaws earlier this year, where Tyrannosaurus juveniles hunted turtles on a beach. If you've somehow missed this, here it is.
The official sneak-peek for Prehistoric Planet, from the Apple TV+ YouTube channel.
It’s easy to buy these superbly rendered, fluffy, long-legged and big-eyed baby tyrants as 100% accurate takes on such animals because they look so real. But under their wireframes and digital rigging, these juvenile dinosaurs are based, in fact, on hypothetical reconstructions, not fossil skeletons. Despite the intense interest in Late Cretaceous North American fossil sites, hatchling tyrant dinosaurs are virtually unrepresented by fossils and the first genuine remains of such animals were only described in 2021, by Greg Funston et al. These important finds constitute a piece of lower jaw, a tooth, and a foot claw from embryonic individuals of Daspletosaurus and Albertosaurus. Each sheds a little light on the size and proportions of baby tyrannosaurs, but we’re still far, far away from a complete picture of their entire osteology. Thus, to date, the only way to restore the life appearance of baby tyrants with some degree of scientific rigour has been to extrapolate their proportions from older, larger individuals. We’ve been attempting this activity for at least 50 years and, even now, we struggle to make accurate, or at least statistically sound, models of baby tyrant appearance.
The first effort at predicting hatchling tyrant anatomy was published in Dale Russell’s 1970 paper on the tyrant dinosaurs of Canada. Russell predicted the proportions of a hatchling “Albertosaurus” libratus (=Gorgosaurus libratus today) by calculating scaling trajectories of larger tyrants and projecting them to an individual with a 100 mm long femur. The resultant image is one that might be familiar to many readers, as it has appeared in subsequent dinosaur books and papers. I certainly remember my own first encounter with it in David Norman’s influential 1988 Normanopedia Illustrated Encyclopaedia of Dinosaurs, as it looked very different to the pop-culture plush toy-like baby dinosaurs I was familiar with (hello, The Land Before Time et al.).
Russel’s prediction shows baby tyrants as long-legged, long-tailed and small-bodied animals that were very different to their parents, a consequence of the pronounced allometry that shaped tyrannosaurs as they grew. The overall animal, he calculated, was dog sized: just over 75 cm from the snout to the end of the tail. Some aspects of Russell’s model, including the shapes of the bones themselves, were created by “juvenilising” the bone shapes of adult albertosaurines and, even today, it's a good-looking skeletal. It certainly matches what we see in other non-avian dinosaur embryos and hatchlings, which are generally leggy animals adapted for precocial, relatively independent early lives. It’s probably this skeleton that a lot of palaeoart and dinosaur documentaries have based their baby tyrants on as, all these years later, it's still one of the only published hatchling tyrannosaur skeletals available.
In 2003 another attempt to predict tyrannosaur hatchling proportions was made by Phil Currie. Armed with more specimens and thus more metric data, Currie was able to provide more informed tyrant scaling regimes and, in theory, give us a superior prediction of hatchling proportions than Russell’s effort of three decades prior. As before, his scaling was to an individual with a 100 mm long femur, and the result was, again, dog-sized. Currie didn't specify what tyrannosaur he was modelling specifically, so his data can be viewed as a generic tyrannosaurid, although albertosaurine scaling metrics were prioritised where they differed significantly from those of tyrannosaurines. Because Currie (2003) only presented the results in a data table and did not illustrate the resultant hypothetical hatchling, I took the liberty to restore the animal with his suggested proportions myself*. And, holy moly…
…those are some l-o-n-g legs. They’re slightly maddening to look at, in fact. Like it’s been teleported in from the Nightmare Before Christmas meets Prehistoric Planet Super Crossover Spectacular. While the rest of the animal isn’t too dissimilar to Russell’s baby gorgosaur, the tibia is 60% longer and the metatarsals 220% longer, creating a tiny dinosaur on stilts. The result is a theropod with leg proportions outside of anything known within Dinosauria: even long-legged birds, like stilts, secretary birds and seriemas, are being put to shame. Needless to say, if anyone seriously thought that this is what baby tyrant dinosaurs looked like we’d be considering all sorts of ecological and biomechanical implications. Were baby tyrants waders? Specialists of prairies and open habitats? Did they make money on the side at Mesozoic carnivals as stilt walkers? What the heck is going on?
*I had to take lengths of the vertebral column and manus from Russell (1970), as these were not modelled in Currie (2003).
But, of course, no-one does think that this is what hatchling tyrannosaurs looked like. The outlandish hindlimb proportions of this model were dismissed as unbelievable by Currie (2003) as quickly as they were introduced, and the whole exercise ended with a blunt cautionary note: “there are limitations to what can be done in extrapolating this data.” (Currie 2003, p .663). And before anyone asks, it's worth stressing that Currie's values were not errors or the outputs of wrongful methodology: they're simply what fell out of legitimate, perfectly normal scaling equations. The "limitations" Currie referred to are fundamental difficulties with scaling the proportions of extinct animals outside of observed ranges. Such issues include low sample sizes, our scaling curves being skewed by outliers and overall low confidence intervals, but it's unusual to talk about these as problems for scaling tiny animals. We're generally much more used to these frustrations when trying to scale smaller animals to the size of giant adults.
And strange as it seems, I admit to finding Currie’s stilt-limbed tyrant baby a more profound example of these issues than our usual subjects of scaling woes, like titanic sauropods or giant pterosaurs, because we know so much more about small dinosaur proportions. It's easy to spot these data as (probably) “wrong” because they're so out of the ordinary, but concerning proportions are harder to intuitively identify in animals beyond the size limits of anything ever witnessed by a person. It's a good reminder that any extrapolation is viewed as shaky from a mathematical perspective, and recalls Knut Schmidt-Nielsen's comments in his classic 1984 book Scaling: why is animal size so important: "unless we fully understand all the pertinent factors involved (and that is not likely to happen in a biological system), going beyond the limits of observation is not simply chancy, but outright perilous” (p. 25). It’s perhaps only when we see relatable, but obviously wrong-looking reconstructions like the one above that we’re confronted with this reality. And while we basically have no choice but to extrapolate and go beyond data limits when dealing with certain unknowns in the fossil record, it's good to come back to Earth from time to time and realise the unreliable nature of the mathematics we're using. So many extrapolations we're familiar and comfortable with might be just as crazy as that lanky-limbed hatchling, we just don't see them as obviously "wrong".
All this said, that stilt-legged tyrant baby still has some utility. While it probably doesn't genuinely reflect what baby tyrants looked like, it does serve as a great visualisation of the allometry expressed through tyrannosaur ontogeny. If we compare the stilt-legged model with a regular-old T. rex, for instance...
Currie's paper is now almost 20 years old so, to wrap this up, one last question: have we made any progress in being able to reconstruct baby tyrants reliably in recent years? To be frank, no, we don't yet have the data needed to clear the problems outlined above. Things have moved ahead thanks to Greg Funston and colleagues (2021) who, finally, have been able to factor some embryonic tyrant fossil material into their scaling equations. These have generally pointed to animals of the same size and shape as predicted by Currie and Russell, but their 95% confidence intervals (CI) for many predictions are still enormous (which means, in plain terms, that the true proportions may have been very different to the predicted ones). For instance, Funston and colleagues scaled their Albertosaurus embryo dentary to a body length 715 mm, but with a CI range of 496–897 mm. Their (seemingly) larger Daspletosaurus specimen, represented by a toe claw, scaled to 1101 mm long, with a CI of 250–5954(!) mm. Estimates for their femoral lengths were also not well constrained, at least in Daspletosaurus, with CI values of 76–256 mm. Some of the upper ranges of these CIs are consistent with larger tyrant specimens that are already several years old, and they're thus far from the measurements we'd expect from embryos or hatchlings (Funston et al. 2020). Our most charitable assessment is that we're consistently getting the same basic signals about tyrant hatchling form, so we're probably on the right track, but we have a long way to go before we'll have reliable body proportion predictions for tiny tyrants. The discovery of more small tyrannosaurids would go a long way to helping this but, of course, a skeleton of an embryo or hatchling would be the best and most direct way to resolve any uncertainty.
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