https://static.tvtropes.org/pmwiki/pub/images/utahraptor.png

Top: Utahraptor CGI model for the show from 1999.
Bottom: Utahraptor restoration from 2014 by Emily Willoughby

While Walking With Dinosaurs was generally accurate for when it was made, it is over two decades old now. New evidence regarding behavior, color and other details are always emerging. So, there are inaccuracies.

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Walking With Dinosaurs

In general

Most coelurosaurs certainly had feathers. The several dromaeosaurid species surely had them, but in the franchise they are all shown featherless: this, rather than Science Marches On, might be interpreted more as Rule of Cool, or rather, Artistic License – Paleontology, since feathered non-avian dinosaurs were already known at the time; perhaps fluffy raptors would have appeared "too cute"? Another possibility is that the effects team had difficulty rendering convincing feathers, though they would have just sculpted the feathers onto the model like they did with the birds (especially given feathers lay against the body). In Real Life dromeosaurids had WINGS just like their famous relative, the "ur-bird" Archaeopteryx… This might be nothing compared to what is seeming to come: most small-sized dinosaurs may well have had some sort of covering. This theory was led by the discoveries of the primitive herbivore Tianyulong in China and Kulindadromeus in Russia, and further supported by the discovery of feathers or feather-like filaments in two anurognathid pterosaur specimens from China: the theory is that some kind of covering was present in the last common ancestor of all dinosaurs and pterosaurs, and then it was partially lost by its largest descendants, possibly because of the surface area to volume ratio. Some think the "spikes" on Diplodocus have the same common origin of feathers, as well as the quill of the small herbivore Psittacosaurus and even the horny bumps lined on the back of several hadrosaur mummies.
While the pterosaurs are correctly portrayed with pycnofibers, in all cases this is very sparse and in the CG models, basically nonexistent. In reality, it's probable that pterosaur pelts were equal in density to typical land mammals (such as bats), and most species would have been very noticeably furry or even outright fluffy. For instance, compare their Anurognathus◊ to a modern reconstruction.
They tried to partially remedy all the issues by showing Walking with Dinosaurs again in 2008 with updated narration. Unfortunately, the visuals remained untouched, so the small carnivore Ornitholestes still had a horn, coelurosaurs were still scaly, so on and so forth.
Any and all shots of pterosaurs taking off bipedally became inaccurate after it was discovered that they launched quadrupedally. The documentary also avoids showing the large pterosaurs taking off almost entirely, because at the time it was uncertain how such large flying animals could lift up from the ground (Chased by Dinosaurs states they relied on winds blowing off steep cliffs to get themselves aloft). It's now believed that they probably pushed off their front limbs to vault themselves into the air.
All the non-avian theropods have pronated hands, a position that is impossible in reality. Instead, they held their hands out to the sides, akin to their relatives the birds.
Pterosaurs' wings have two major problems- one, they all come to an acute point, while we now know that many of the larger families would have had rounded wings, and when landed the wings folded outward like an origami crane, as opposed to the (rather complicated and hard to model) way they folded inwards and behind the animal's arms.
The series uses the Noisy Nature approach that was universal to dinosaur restorations at the time (although it's commendable here because the series went to the extra effort to give each animal species their own unique calls), such as giving sauropods whale-like bellows and Tyrannosaurus a Mighty Roar, but later studies from 2009 and 2016 have suggested it's likely non-avian dinosaur vocalization would've been limited in comparison to modern birds and mammals due to crocodilians, as the closest relatives of dinosaurs, having a more primitive larynx compared to mammals, and the dinosaurs not having the syrinx that modern birds have for vocalization. Some of the predators, Postosuchus in particular, vocalize a lot while pouncing on their prey (though others, like Allosaurus and Utahraptor, are more realistically silent). Although a 2022 study on a fossilized ankylosaur syrinx may refute this idea.
There is increasing evidence to suggest that most, if not all dinosaurs had their teeth covered in either keratinous beak-like structures or lizard-like scaly lips, but the show uses the then much more common, conservative, and cooler-looking interpretation that they all had their teeth exposed, with only half lips.
Walking with Beasts features many Asian mammals from the Paleogene, but extensive research during the 2000s pushed back the land mammal ages in Asia during the Eocene-Oligocene, so the Hsanda Gol Formation (where "Land of Giants" is nominally set in) went from Late Oligocene to Early Oligocene, and the Irdin Manha Formation (where the Andrewsarchus holotype comes from) went from Late Eocene to Mid Eocene.

New Blood

A complete in depth review of the episode done in 2019 by Ben G. Thomas can be found here.
What was thought to be evidence for "cannibalistic Coelophysis" has been discredited. Some of the evidence was cannibalism was later seen as adult Coelophysis simply having died on top of juveniles, while the stomach contents of other adult Coelophysis was determined to be that of small crocodilians, not younger Coelophysis. Granted, cannibalism in times of scarcity is pretty common among carnivores and is even confirmed to be the case in other theropods like Allosaurus and T. rex, so Coelophysis being cannibalistic is very plausible. In addition, new evidence of an adult Coelophysis having vomited up bones that belong to a younger Coelophysis has been found as well.
As the closely related Megapnosaurus indicates, Coelophysis was likely nocturnal.
The narration states that dinosaurs first appeared as small predators. Nowadays, it would be much more accurate and probable that the first dinosaurs were omnivorous and later diverged into carnivores and herbivores, but even the notion of omnivorous dinosaurs was controversial back then.
The early long-necked dinosaur Plateosaurus could not walk on four legs, being more of an obligate biped that couldn't pronate its hands to walk on the ground with them.
The pillar-limbed croc-relative Postosuchus was most likely a biped, or at least semi-bipedal, rather than an obligate quadruped. It would have been a pursuit predator, not a slow ambush predator. However, it does rear up on its back legs in the episode for brief moments.
Postosuchus is shown coexisting with Chinle Formation animals Placerias and Coelophysis, because rauisuchian remains from the Ghost Ranch were referred to the genus in 1995, but subsequent studies in 2002, 2004, 2011, and 2016 all found that it had no specific morphological features linking it to Postosuchus, and numerous differences, and the remains likely represent a new, yet unnamed pseudosuchian taxon unrelated to Postosuchus. Many other Late Triassic rauisuchians from the Southwest previously assigned to Postosuchus may also represent new species.
The introduction for Coelophysis states that dinosaurs were unique among reptiles for being able to stand balanced on two legs. However, it's since been found that crocodilian-line archosaurs independently developed bipedalism at about the same time (specifically, the poposauroids); they in fact coexisted with Coelophysis and were so dinosaur-like, they were thought to be dinosaurs at the time.
Though uncommon, there have been fossils from the Chinle Formation and adjacent sites in Late Triassic western North America that have historically been attributed to cynodonts, though most of those are only isolated teeth (which share characteristics with other Triassic amniotes), and one particular find, several teeth and two ischia found in the Placerias Quarry, have even been attributed to a Thrinaxodon-like cynodont in a 1994 paper, while two other (and rather large) isolated teeth (named Kraterokheirodon in 2005) have been attributed to “huge traversodont cynodonts” in a 1995 review of the vertebrate fauna of Chinle. But later studies deemed most of these fossils undiagnostic and potentially not even representing synapsids. In 2020, we finally named a proper (albeit tiny) cynodont from Chinle called Kataigidodon, with supplementary material to that paper re-examining the previous, alleged cynodont material from the region and once more deeming it undiagnostic and dubious.
The cynodonts are depicted with highly altricial offspring, which would have been a reasonable assumption at the time since the more "primitive" living mammals, the marsupials and monotremes, have highly altricial offspring. However, later fossils of primitive mammals, specifically multituberculates, which are between marsupials and monotremes, and the non-mammalian cynodont Kayentatherium indicates they had well-formed offspring at birth/hatching (in the case of Kayentatherium, it's possible they were independent immediately after hatching and did not have parental care), suggesting the altricial offspring of monotremes and marsupials might be a derived attribute rather than the original state of cynodont offspring. The Kayentatherium fossil also suggests that complex parental care did not appear until the evolution of near-mammalian cynodonts.
More refined radiometric dating has allowed the stratigraphic layers of the Chinle Formation to be more clearly defined, showing it stretches from about 223 to 208 million years old. Coelophysis is only definitively known from the latter end of this temporal range, so it is not actually known to have coexisted with Placerias, which is from near the beginning of the stratigraphy, despite being from the same fossil formation, as more than ten million years separates the two. This may have been because of the closely related Camposaurus, which did live in the same time and place as Placerias, was periodically considered a Coelophysis species (it only given its own genus in 1998, while the series was deep in production).
The youngest known dicynodont is not Placerias anymore, with Lisowicia known from roughly eight million years later in Poland. Other fossil evidence from around the world also suggests that, although dicynodonts were never necessarily diverse in any Late Triassic ecosystem, as a group they were widespread and were continuing to evolve up until the very end of the Triassic.
- The Placerias is depicted with tusks. Unlike most dicynodonts, Placerias actually had horn-like protrusions of bone projecting straight from its skull rather than tusks (technically, it also had tusks, but they were very small and hidden underneath these protrusions).
- Placerias is known from two morphotypes of equal ratio, one with longer tusks than the other, and usually believed to be the male and female forms (this was actually noted in scientific descriptions long before the production of WWD, but the literature was rather obscure and would've been difficult to find, making this a borderline example), but the version here is depicted without this dimorphism.
Postosuchus and Placerias are both depicted as sluggish and ungainly relics from a bygone age that are destined to be supplanted by the "superior" dinosaurs (not unlike how we used to view dinosaurs themselves back in the early to mid-20th century in relation to mammals), who are framed as being more versatile, fleet-footed and have the unique gift of bipedalism. Suffice to say, none of that is true, as all terrestrial Triassic tetrapods were just as agile, sophisticated, and well-adapted to their environment as early dinosaurs and most of them likely died out as a result of the Triassic-Jurassic mass extinction, which also allowed dinosaurs to take over (in the same way mammals would later take over thanks to the K-T mass extinction)^note, and bipedalism wasn’t unique to dinosaurs, as several other contemporary archosaurs, such as rauisuchids (including Postosuchus), poposaurids, and shuvosaurids were also bipedal and shared many other morphological similarities to true dinosaurs (the last of which looked nigh-identical to dinosaur◊ to the untrained eye◊).

Time of the Titans

In 2019 Ben G. Thomas created an up to date analysis of the episode which can be found here.
Allosaurus was generally not as large as shown here, as most adult specimens are around 8-9 meters in length, not 12 meters. The larger size is mostly based on fellow Morrison allosaurids Saurophaganax maximus and Epanterias amplexus, which did reach 10.5-12 meters and have been classed within the genus Allosaurus by some (though as separate species), but both are very fragmentary, especially amplexus (to the point of being considered a nomen dubium). Furthermore, fossils of giant allosaurids are incredibly rare at Morrison, while the mid-sized Allosaurus fragilis is a common find and much more complete. This implies that the giant variety was a rare sight, which makes sense, as the apex predator in any given ecosystem is bound to be rarer than the smaller mesocarnivores. The Ballad of Big Al does fix this issue somewhat, by emphasizing that gigantic Allosaurus are a rare sight, but presents it as being due to most Allosaurus not living long enough to reach their adult size instead of species diversity and/or size variation within a species.
The idea that Ornitholestes had a nasal crest was based on the fact that post-mortem damage to the type fossil had warped the bones of the snout upwards. In Real Life, their noses were almost certainly unadorned (there was a group of Jurassic coelurosaurs known with nasal crests, the proceratosaurids, the earliest known group of tyrannosaurs; interestingly, Ornitholestes was once considered related to the type genus, Proceratosaurus).
The Allosaurus is portrayed with an unusually short and blunt skull, but this is because the design is based on the Allosaurus neotype, USNM 4734, which had a rather poorly preserved skull that was distorted in the fossilization process, rendering it shorter and more rounded. It's now recognized that this was in error, but not before the error was repeated in The Ballad of Big Al (complete with the skull's smaller secondary crest ridges). The longer-snouted skulls were attributed to another species; Allosaurus atrox, but once the erroneous reconstruction of the former was recognized, A. atrox was sunk into A. fragilis (previously thought to have sported the short snout).
A study from 2007 suggests that Anurognathus and its ilk were nocturnal and caught insects on the fly, like bats or swifts, making the "Mesozoic oxpecker" idea presented on the show highly unlikely (and that's not even mentioning that Anurognathus isn't even known from the same continent as Diplodocus).
The episode places Anurognathus' eyes in the wrong skull hole, the upper temporal fenestra rather than the orbit, making its face seem longer than it really was. Notice the shrinkwrapped circle in front of the eye in this prop◊? That's where the eye should be. This is what makes it likely that Anurognathus was actually a nocturnal predator; its eyes were enormous◊ (each eye alone was bigger than its brain). Where WWD placed its eyes were actually where jaw muscles would have been attached. However, at the time, Anurognathus was only known from very scrappy and crushed skull material, and it wasn't until 2007, when a well-preserved complete skeleton was found, that this mistake was rectified.
The Diplodocus is depicted as nesting individually, but only a few years later there were extensive bonebeds discovered that indicated sauropods (or titanosaurs at least) nested in large colonies like hadrosaurs or modern day seabirds.
Post-WWD studies indicate that sauropod dinosaurs probably didn't grow to adult size within more or less ten years as shown in the series, although exactly how fast they grew is still debated (current estimates range from less than four decades to up to 70 years of growth necessary to reach maximum adult size).
It's stated the Diplodocus is the longest of all the sauropods, however subsequent fossils of a contemporary diplodocid, Supersaurus, may exceed the largest Diplodocus in size, with partial remains suggesting monstrous sizes of up to one-hundred-and-fifty feet in length (if BYU 9024 is in fact assignable to Supersaurus).
The series give a very generous upper size limit of +40 metres for Diplodocus, even though the largest Diplodocus fossils of the time were only up to 26 metres in length. The companion book provides the justification; the episode used the measurements for Seismosaurus, because of a hypothesis of the time that suggested the latter was actually a synonym of the former. This idea was actually ahead of its time, and most palaeontologists now consider Seismosaurus to be a species of Diplodocus, but on the other hand, the old measurements for its size (some of which went as high as fifty metres) were greatly inflated; modern measurements give it a maximum of 32 metres in length.
The idea that most sauropods (brachiosaurids such as Brachiosaurus being the exception) could only hold their necks horizontally - which influenced the WWD reconstructions of Diplodocus, Apatosaurus and Argentinosaurus, which in turn probably popularized the concept - is questioned nowadays as well, although the show’s portrayal still has adherents.
"Iguana-spike-backed" Diplodocus: Some researchers now argue these spikes were spread across on Diplodocus' back rather than put in a single line as shown in the program.
Footprints from a baby bipedal sauropod were found in 2010: Perhaps Littlefoot and the WWD sauropodlets walked on two legs and become quadrupedal only when they grew larger (an ancient heritage from their ancestors, the "prosauropods" such as the aforementioned Plateosaurus)! However, most paleontologists are skeptical of this interpretation. Even the trackways of adult sauropods often leave just the prints from just one pair of feet, thus is even more likely about the younger ones.
Brachiosaurus is no longer considered the largest land animal to have ever lived; the exact species of sauropod that was is not clear, one such candidate being Argentinosaurus, but it wasn't Brachiosaurus. The weight measurement given in the episode is also a bit higher than the maximum weight estimates considered plausible nowadays (over 70 tonnes versus less than 60 tonnes). This is likely due to weight calculation methods done on Giraffatitan (then considered a species a Brachiosaurus, as noted in the companion book, which includes Africa as part of Brachiosaurus' range) which are now considered to be flawed.
The sauropods are depicted with nostrils on their foreheads (this was because the nasal openings on the skull were located there, so it was assumed the nostrils were there as well), but nowadays a position near the tip of the snout as with most dinosaurs is considered far more likely (it was later pointed out that in all land vertebrates the nostrils were located in front of the bony nasal openings and not on them).
Evidence suggests that Stegosaurus lived in herds and would have preferred the open savanna regions of the Morrison formation to the more forested areas. Also, a 2011 skin impression of Hesperosaurus has shown stegosaur plates were covered in horn rather than skin.^noteThe idea that the plates had a horny sheath have been suggested for years, but this discovery officially confirms it. So much for the scene where the Stegosaurus changes the color of its plates by flushing blood into them. And then in 2014 came "Sophie", the most-complete specimen of Stegosaurus to date, which revealed that Stegosaurus's neck and tail were longer than previously thought, the hindlegs were slightly shorter, and the tip of its tail pointed downwards. Although given Sophie is a juvenile, it's likely adult Stegosaurus would have been similar in proportion to the show's design, but still with a longer neck and the tail pointing downward.
- Another detail that should be changed is the orientation of the tail spikes. Traditionally, they are depicted erupting mostly vertically, but fossils with the tail spikes still in place show that it should be more horizontal. In hindsight, this is more logical since the position makes it much easier to use the spikes as side-to-side swiping weapons.
Another that was speculative to begin with: The idea that dung beetles coevolved with sauropods like Diplodocus, which was inspired by fossil evidence of dung beetle activity in dung of ornithopod dinosaurs from the end of the Cretaceous (Maiasaura), rather than Jurassic sauropods. Phylogenetic studies in the 2010s indicate that dung beetles first diversified in the Early Cretaceous in conjunction with flower plants and ornithopod dinosaurs - thus supporting the paleontological consensus of The '90s, but going against the assumption of the show. Something must have eaten sauropod dung back then, but it wasn't our dung beetles.
The idea that sauropods relied on gastroliths to digest plant matter is considered unlikely according to a 2014 study, since it would require hundreds of pounds of rocks to adequately grind up plant matter inside them, but gastrolith fossils are comparatively rare, strongly suggesting that sauropods did not have hundreds of pounds of rocks inside them all the time. More likely, sauropods just relied on their massive gut to slowly digest vegetation and simply happened to swallow rocks by accident on occasion while grazing.
The shape of Diplodocus's head changed more dramatically as it grew, from a narrower and more triangular shape in subadults to the flatter muzzles of the adults. Also, juvenile Diplodocus actually had very long legs relative to their body size compared to the adults, rather than being stumpy-legged their whole life as seen in the episode, possibly allowing them to move much faster than adults.
Later discoveries of well-preserved sauropod skulls show that they had gums covering their teeth and a keratin covering on the end of the mouth forming into a beak-like structure. This is in stark contrast to the series' depiction of sauropods with fleshy lips or exposed teeth.
A well-preserved fossil of Stegosaurus found in 2019 shows that the animal was much more slender and long, as opposed to the more compact, hunchbacked reconstruction of the show.
In 2007, the best material of Othnielia was placed in the newly-coined genus Othnielosaurus based on studies on the teeth of Morrison ornithischians. And then in 2018, Othnielosaurus and Othnielia along with Drinker have been reclassified as being the same animal as Nanosaurus.
A 2022 study on dinosaur skin impressions reported that Allosaurus (and some other species of theropod) had broad, flattened scales on its underside like those on the bellies of crocodilians or snakes, and had scutes under its neck. Both features are obviously absent in the version seen here.
The end of the episode gives off the impression that sauropods globally declined at the end of the Jurassic, which was a common view at the time (possibly why none appear in subsequent episodes). However, about the time the show came out, there were many new fossil remains of Cretaceous sauropods being discovered in the southern hemisphere, particularly South America, showing that they only seemed to have declined in the northern continents (and even then persisted there until the end of the Late Cretaceous there in species like Alamosaurus and Magyarosaurus), but continued to flourish in the south in great numbers and diversity. In fact, sauropods of the Cretaceous tended to reach much larger sizes more often than those of the Jurassic.

Cruel Sea

An analysis done in 2020 by Ben G. Thomas analyzing the accuracy of the episode can be found here.
The small size of the holotype of the megalosaur Eustreptospondylus oxoniensis (the only specimen we have of the animal) is no longer thought to be an example of island dwarfism but rather because the specimen wasn’t fully grown. Though the holotype being a subadult was aknowledged as far back as 1988's Predatory Dinosaurs Of The World.
The main reason it was considered acceptable to make Eustreptospondylus just a Palette Swap of Allosaurus is because at the time, the former's classification was unclear (as acknowledged in the tie-in books) and some researchers considered it to be a member of the allosaurid family, which back in the '90s was used as a dumping ground for many Upper Jurassic and Lower Cretaceous "carnosaurs". Not helping matters was that, although the Eustreptospondylus holotype preserves most of the skull, the individual skull bones were disarticulated, leaving its exact shape unclear. Late researchers, however, consistently classified Eustreptospondylus as a member of the megalosaurid family, thus making it less acceptable to restore the animal as an undersized Allosaurus lookalike.
Biomechanical studies have shown that skim feeding (as Rhamphorhynchus is shown doing) was not possible in known pterosaurs. Rhamphorhynchus itself is more likely to have hunted fish while swimming and diving (skim-feeding is also rare among seabirds to begin with; among extant birds, only the extremely specialized, and aptly-named, skimmers hunt this way).
WWD was perhaps the last hurrah of sea turtle-like pleisosaurs in documentary media before the idea fell out of favor with the Turn of the Millennium. Plesiosaurs gave birth to alive newborns in water just like the fish-like ichthyosaurs; and it's now universally agreed that they could not crawl onto land because of their limb anatomy and the shape of their chest, not even the small ones, thus making them far more analogous to cetaceans. Notably, when discussing the terrestrial capabilities or lack thereof in plesiosaurs, Walking with Dinosaurs: The Evidence, while trying to cite evidence for both sides of the argument, ultimately leans more on plesiosaurs being fully marine, especially noting how their sensory abilities (sight, smell, and hearing) were very ill-suited for life out of the water.
The episode implies that plesiosaurs reproduced on land (although that does raise the question if the producers thought the same of the gargantuan Liopleurodon...) when it states that "most sea reptiles return to the land to lay eggs". Plesiosaur reproduction was unknown at the time, but subsequent fossils have indicated plesiosaurs gave birth underwater like ichthyosaurs, but were k-type breeders similar to whales, and therefore likely cared for their young.
Rhamphorhynchus has since been found to likely have been nocturnal while the closely related Scaphognathus was active in the same area during the day (an example of niche partitioning).
The largest known pliosaurs were probably only around 12 metres or so at the most, and even that's pushing it for most species. As detailed in the tie-in book Walking with Dinosaurs: The Evidence, the whale-sized Liopleurodon was based on an assortment of jaw and snout fragments from Oxford Clay, as well as one vertebra around 25 cm in width housed at the Peterborough Museum, which were interpreted at the time as stemming from pliosaurs reaching up to 18-20 meters in length (later estimates suggest that the Peterborough vertebra belongs to a specimen closer to 11-12 meters), with the main Liopleurodon of the episode being stated to be an unusually large specimen of a species that on average reaches 18-20 meters in length. Further complicating things, some taxonomic shifting down the line transferred the largest alleged Liopleurodon remains (attributed to animals reaching 8-11 meters), such as the massive "Cumnor mandible", to the related Pliosaurus, leaving Liopleurodon in the 5.5-7 meter range. Though it was still the biggest killer of its day before being replaced by (or possibly evolving into) the larger Pliosaurus. Additionally, it should have a fluke on its tail, as should the Cryptoclidus.
The episode depicts plesiosaurs as having an alternating flipper stroke, but biomechanical tests done since have found this method of locomotion was pretty inefficient due to the vortexes created by the stroke of the front flippers resulting in significant turbulence that would hinder propulsion generated by the delayed stroke of the back flippers. A 2017 study with mechanical plesiosaur fins found that the most efficient gait for plesiosaurs was all four flippers moving almost in unison, with the back flippers stroking just after the front pair to ride in its immediate wake.
The episode depicts numerous Mid Jurassic species near the end of the Late Jurassic in one of the series' most egregious examples of Anachronism Stew. This likely stems from the fact that Liopleurodon, Cryptoclidus, and especially Ophthalmosaurus were used as wastebasket taxa in the past, with various pliosaurid, cryptoclidid and ichthyosaur fossils from the Late Jurassic being attributed to them respectively, and in the case of Ophthalmosaurus, even some Early Cretaceous ichthyosaur material, but those younger specimens have all since been placed in different genera, reclassified as new genera or have been deemed too fragmentary to be diagnostic, leaving the former three restricted to the Callovian-early Kimmeridgian (166-155 mya). There was, however, no excuse for Eustreptospondylus, who is only known from its Oxfordian-aged holotype (circa 160 mya).
The adult Ophthalmosaurus are described as being toothless, but this actually turned out to be an error from a nearly complete fossil which had no teeth, but it's now known that it had teeth, but they dropped out and were lost during the process of decomposition.
It's now considered more likely that plesiosaurs such as Cryptoclidus swallowed stones to help grind up food items rather than for use as ballast; in some cases, the stones made up less than one percent of the overall predicted body weight of the animal, and so would have been of very little use to weigh the animal down.
At least some ichthyosaurs could actually give birth to more than five pups at a time (up to eleven or more), and they came out head first, not tail first as in the show. Most famous fossils purported to show mothers dying in childbirth are actually of pregnant ichthyosaurs who died before birth, and the fetuses dropped out during decomposition.
The depiction of ammonites with an operculum is nowadays considered doubtful; unlike modern nautiluses, they probably didn't have any sort of lid. Most modern restorations also tend to make ammonites more colourful, similar to modern marine molluscs, rather than the greyish-brown which was the popular convention at the time (since it's been pointed out that the dull colour of the shell fossils don't usually correspond to the colour it was in situ).
Although unnamed in the episode, supplementary material identifies the shark as Hybodus. Subsequent studies indicate Hybodus is a wastebasket taxon of various hybodont species; the species in the episode would nowadays probably be identified as Asteracanthus.

Giant of the Skies

In 2020 YouTubers Ben G. Thomas and TREY the Explainer did an in depth review of the current inaccuracies and accuracies of the episode which can be found here.
The animal called "Ornithocheirus" is actually based on the related and larger Tropeognathus mesembrinus. Though named as its own genus in 1987, around the Turn of the Millennium, this species was subjected to much taxonomic debate, with various researchers placing it in Ornithocheirus, Anhanguera, Coloborhynchus and "Cryorhynchus". David Unwin (the main pterosaur consultant for the series) placed it in Ornithocheirus (as it was named before all the other genera) and furthermore, was of the opinion that Tropeognathus mesembrinus was a synonym of Ornithocheirus simus, which also inspired the cross-continental migration (along with Ornithocheirus being reported from other parts of the world). Things changed in the late 2000s, when Ornithocheirus was acknowledged as a major wastebasket taxon and that O. simus itself was originally described based on very fragmentary and essentially undiagnostic remains◊ (something workers have criticized as far back as the early '90s), the same being true for Coloborhynchus and "Cryorhynchus", leading to Tropeognathus being seen as a valid genus once more (as its holotype is a very complete skull◊) and distinct from the sympatric Anhanguera.
During the '90s it was indeed believed that the largest ornithocheirids might have had wingspans of 11-12 meters (though those were the highest possible estimates and Unwin was skeptical of those), based on wing bones and other fragments found in the Santana Group, as well as the Isle of Wight (as explained in the tie-in books). However, improved understanding of ornithocheirid anatomy during the 21st century lowered such estimates, as well as the description of more complete specimens, like the giant partial Tropeognathus skeleton MN 6594-1 (which wasn't an inspiration for the show, as far as supplementary material suggests), which has an estimated wingspan between 8.2 to 8.7 meters, smaller than the giant featured in the episode, but still quite a massive pterosaur, second only to the giant azhdarchids. The apparent presence of gigantic ornithocheirids in both Brazil and England further encouraged the intercontinental migration shown in the episode.
Ornithocheirus is depicted in the episode making vast cross-continental migrations from South America to Europe due to the fact it was once thought to have lived on both continents (based on Unwin's proposed synonymization of O. simus and T. mesembrinus); however, since the South American Ornithocheirus species has since been reclassified as Tropeognathus, there is no longer direct evidence for it. That said, it's still possible (if speculative) that some pterosaurs migrated between continents, much like many extant birds.
Ornithocheirus is portrayed with delicate, thin-membraned wings like those of a bat, that make it unable to fly while in the rain and easily warded off by a flock of tiny enantiornithine birds. Subsequent studies suggest pterosaur wings were much thicker and more complex in structure than bat wings, with separate layers of air sacs, fibrous tissues, muscles, and a strengthening, weave-like outer layer known as "actinofibrils". As for the supposed need to keep the wings from getting wet, the prevailing theory now is that most fish-eating pterosaurs would dive into the water to catch fish, like gannets.
Ornithocheirus is shown as sexually dimorphic, with females lacking the keel-like crests. This was based on a theory by David Unwin, who thought that Tropeognathus represented the male form of Ornithocheirus, and that other fragmentary ornithocheirid (anhanguerid) taxa with larger and smaller crests respectively could actually represent males and females of the same species. Besides Tropeognathus being seen as a distinct genus now, this theory has largely fallen to the wayside, as it was otherwise based on fragmentary fossils that also came from various different fossil formations, so they can't confidently be identified as the same species. It's not impossible though that toothed pterosaurs exhibit sexual dimorphism, as the more distantly related Hamipterus from China is known from a large number of specimens, and the ones with larger beak crests are interpreted as adult males (though the apparent females and juveniles still aren't crestless).
The juvenile Ornithocheirus at the end is portrayed as being identical to the adults, but research on pterosaurs since has found that in most species, the juveniles were very different in appearance from adults because they held different ecological niches (a life history pattern shared by many non-avian dinosaurs, but basically nonexistent in modern birds and mammals).
Ornithocheirus is seen as a seagoing animal feeding solely on fish, but a 2017 study on ornithocheiroid carbon isotopes found that they probably fed substantially on terrestrial prey as well as aquatic prey, making them closer to gigantic seagulls than albatrosses.
Similar to the Rhamphorhynchus, the Ornithocheirus is shown fishing by simply flying low over the water and skimming its beak across the surface to catch prey, with the accompanying guidebook even suggesting its keel-like snout crests were used to keep its head straight while dipping its beak underwater. Few take the idea of such massive flying animals skim-feeding seriously anymore.
The Tapejara species featured has now been reassigned to Tupandactylus. We also now know that the head is too small and the males had a flat crest rather than a ridged crest. Also, a nearly complete Tupandactylus navigans fossil (the species depicted in the episode) with crest impressions described in 2021 indicates the crest was more forward slung than depicted in the episode.
- The 2021 study on the Tupandactylus fossil cautiously suggested that T. navigans may actually represent the female form of the larger T. imperator. This is unlike the episode's portrayal, which has T. navigans as the larger male form, while the smaller female is represented by a speculative and made-up morph with blunt crests. However, the authors stressed that this was just one possible interpretation (because sexual dimorphism is generally hard to prove from fossils).
Tropeognathus and Tupandactylus, known from the Brazilian Santana Group, specifically the Romualdo and underlying Crato Formation respectively, are shown living 127 million years ago (middle Barremian), but the ages of Romualdo and Crato have subsequently been reinterpreted as early Albian (112-108 mya) and late Aptian (115-113 mya) respectively. The same Anachronism Stew is present with the sympatric Anhanguera in Dinosaur Revolution. Also, Tropeognathus is known only from the Romualdo Formation, while Tupandactylus is only known from the underlying Crato Formation, so it is probable the two animals did not actually coexist.
While the Iguanodon model has aged much better than many others in this series, it still possesses very gracile forelimbs with relatively small thumb pikes. This was based on◊ the smaller Mantellisaurus atherfieldensis, which used to be classified as Iguanodon atherfieldensis until 2008. It’s also an example of Mix-and-Match Critters, since the large size (stated to weigh 3 tons) of the European Iguanodon suggests that it’s meant to be the type species, Iguanodon bernissartensis, which had much thicker forelimbs with more formidable thumb spikes.
The "American Iguanodon" would probably be placed in the genus Dakotadon today. Likewise, the narrator alludes to Iguanodon being a highly successful genus that was both widely distributed and lasted for tens of millions of years, but this was due to Iguanodon’s former status as a wastebasket taxon, when any mid to large-sized ornithopod fossils from the Early- to Mid-Cretaceous (even if they were very fragmentary) were lumped into it. Subsequent studies, however, found that the only fossils attributable to Iguanodon come from Western Europe (Great Britain, Belgium, Germany, and Iberia) during the Barremian and early Aptian (130-122 mya), and even then, many iguanodont fossils from the Early Cretaceous of Europe have been reassigned to different genera like Hypselospinus, Barilium, and the aforementioned Mantellisaurus.
Polacanthus showing up in North America was based on Hoplitosaurus marshi, a fragmentary polacanthiine that some workers in the late '80s and '90s argued was a North American species of Polacanthus, and was likely also inspired by then-recent news of more complete polacanthiine fossils being found alongside Utahraptor in the Cedar Mountain Formation of Utah. However, in 1998 (while WWD was in the middle of production), the Utah fossils were described as a distinct taxon, Gastonia, and its describer James Kirkland, along with Ken Carpenter, argued against the proposed synonymy of Polacanthus and Hoplitosaurus that same year, citing that many of the anatomical similarities between them were actually plesiomorphic traits found in most early nodosaurs. Tellingly, the American cut of WWD changed the American Polacanthus into Gastonia. Furthermore, a 2020 study found that only the holotype of Polacanthus foxii from the Isle of Wight could be conclusively attributed to the genus, with fragmentary fossils from Iberia and other parts of Britain being deemed indeterminate polcanthiines/nodosaurs.
The description of the more complete Gastonia also revealed several errors with the WWD reconstruction of Polacanthus, most notably its elongated head, when Gastonia's skull is shorter and more rounded. Walking with Dinosaurs: The Evidence (published in 2000) acknowledges this error, as well as the geographic displacement.
When it was first described in 1993, Utahraptor was only known from fragmentary remains and workers used its smaller but much better-preserved cousin Deinonychus to fill in the missing gaps, which resulted in Utahraptor usually being reconstructed as just a scaled-up Deinonychus. But subsequently, paleontologists discovered a block of sandstone containing several Utahraptor specimens along with a small iguanodont (theorized to be a “predator trap” akin to the famous La Brea Tar Pits). This breakthrough find showcased that Utahraptor was anatomically very different from smaller dromaeosaurs like Deinonychus and Velociraptor, and had a bulky body with relatively short hind legs and tail, making it the raptor version of a saber-toothed cat, and its jaw had a procumbent shape similar to Masiakasaurus.
Utahraptor stems from the Yellow Cat Member unit of the Cedar Mountain Formation in Utah, which for the longest time was considered to be Barremian in age (the same age as the setting of the episode), despite some workers disagreeing. But in 2019, using advanced methods of radiometric and palynological dating, it was concluded that the Yellow Cat Member is indeed older than previous estimations, and that Utahraptor, along with sympatric dinosaurs like the ankylosaur Gastonia and sauropod Cedarosaurus lived during the early to mid Valanginian (139-134 mya).
As mentioned in the book Walking with Dinosaurs: The Evidence and several other bits of supplementary material, the reason why Utahraptor was shown living in Europe was due to a theory that was floating around in the 90s, which suggested that Europe and North America were connected via a land bridge through Greenland during the Barremian, which allowed for easy intercontinental migration (akin to the faunal exchanges through the Bering land bridge during the ice ages). This was based on the apparent fact that other taxa such as Iguanodon and Polacanthus had fossil material from both Europe and North America. However, with the reclassification of the North American fossils as different genera, this theory has largely fallen out of favor.
- In 2021, a (fragmentary) dromaeosaur called Vectiraptor greeni was described from the Isle of Wight, the same formation that contains Iguanodon and Polacanthus, but it was much smaller than Utahraptor. Some teeth from the same formation have been attributed to a Utahraptor-sized dromaeosaur (which some have tentatively attributed to Vectiraptor itself), but other workers believe that they come from a proceratosaur.
Later studies suggested that most Mesozoic birds probably incubated their eggs by burying them like modern crocodilians or megapodes, rather than sitting on them (however, as portrayed in the show, at least some enantiornitheans did nest in colonies, so they got that right at least).
The episode implies that pterosaurs went into decline during the Cretaceous due to being outcompeted by early birds. Not only did later studies go on to suggest that pterosaur decline was unrelated to bird diversity due to ecological overlap between the two groups being less than previously thought, the idea that pterosaurs declined at all is now in serious doubt. In fact, there's evidence to indicate that pterosaurs were reclaiming niches previously occupied by birds prior to the K-T extinction event.
The pliosaur which makes a very brief cameo is identified in supplementary material as Plesiopleurodon. This specific genus was probably chosen because, at the time, it was considered a very close relative of Liopleurodon and looked very similar to it (hence the very similar names), so they could just use a very lazy Palette Swap of their Liopleurodon to portray it (despite the massive Anachronism Stew, due to the fact it lived during the Cenomanian, while the episode is set during the mid Barremian, some 30 million years apart). However, it has since been reclassified as a polycotylid and therefore wasn't closely related to Liopleurodon.^note

Spirits of the Ice Forest

In December 2023, YouTuber Ben G. Thomas reviewed the episode, analyzing the accuracies and inaccuracies in it here.
Some argue that Leaellynasaura needs plumage. It also might have actually had a really long tail, although it's not clear if these long-tailed fossils belonged to Leaellynasaura or a separate but similar animal.
- Interestingly, the tails lack ossified tendons. This may have allowed the dinosaurs (whoever they were), to roll the tail over their bodies during their sleep, like foxes do today.
In 2011, a study suggested that the supposed large eyes of Leaellynasaura were actually just because it was a juvenile specimen rather than an adaptation for low-light conditions.
Remains of simple burrows have been found in the area since then, suggesting that Leaellynasaura sought refuge underground to survive the cold, rather than making nests above ground. Similar structures have been attributed to other small ornithopods in Asia and North America (with three individuals of one species, Oryctodromeus, even being found preserved inside of its own burrow).
The "polar allosaur" has a complicated history and the odd distinction of becoming outdated twice:
- The animal was based on a single ankle bone excavated from the Wonthaggi Formation (upper Aptian, circa 120-115 mya) in Victoria during the late 1980s, which was tentatively attributed to Allosaurus, or at least an allosaur of some kind, and the idea of a “dwarf polar allosaur” gained popularity during the 90s, mainly due to a lack of any other large theropod known from Cretaceous Australia, even though its classification was highly controversial among workers, due to its fragmentary nature. But in 2009, a whole decade after the series aired, a similar-sized but much more complete and related theropod was dug up from the Winton Formation in Queensland, dubbed Australovenator wintonensis, and its discovery led to the naming of a new, previously unknown lineage of tetanuran theropods called the megaraptorans. While their classification remains controversial (since they seemingly share characteristics of both allosaurs and coelurosaurs), based on Australovenator and related genera, we know that they looked very different from other large tetanurans, with elongated snouts and long arms armed with formidable claws◊.
- Following the description of Australovenator, it was briefly considered possible that it and the mystery “polar allosaur” might have been the same creature, with the ankle bone being anatomically similar to the corresponding bone in Australovenator, and several BBC websites started referring to the polar allosaur as Australovenator. But in 2013, the Winton Formation was found to be late Cenomanian in age (circa 96-94 mya) instead of late Aptian-early Albian (115-110 mya) as was initially thought, making the ankle bone far too old to be assigned to Australovenator, but it most likely belonged to a similar animal, and further finds from the Eumeralla Formation (home of Leaellynasaura) showed that megaraptorans did indeed live in southern Australia close to the time of the Wonthaggi ankle bone. Furthermore, in 2023, we described some more fragmentary remains from Wonthaggi (a left frontal and fused parietal fragment), which could potentially belong to the same species as the "polar allosaur" or a close relative, and they have been identified as a very basal type of megaraptoran.
In regards to the polar allosaur, the narrator cites that “its kind is rare in the Cretaceous”. But that was not even remotely true, since a group of theropods called the carcharodontosaurs were incredibly successful during most of the Cretaceous, being apex predators on almost every continent, and during the Mid Cretaceous (when “Spirits of the Ice Forest” takes place), many gigantic forms like Giganotosaurus, Carcharodontosaurus, and Acrocanthosaurus roamed the Earth, and while their phylogeny was debated in the past, it’s now universally accepted that carcharodontosaurs were derived allosaurs, essentially being larger and more powerful versions of Jurassic taxa like Allosaurus, the opposite of what's shown in the episode. They only disappeared some 15 million years after the events of the episode.
The initial identification of the ankle bone as being Allosaurus led in part to the idea of Cretaceous Australia being a Lost World for Jurassic life that had otherwise gone extinct elsewhere (including the relict temnospondyl Koolasuchus), a hypothesis which the program presents. However, since the bone in question has been re-examined and is now thought to be either an abelisaur or a megaraptoran, two theropod groups that were very widespread across the southern hemisphere during the Cretaceous, the idea bears little weight nowadays.
Much like moas, wetas are now believed to have come to New Zealand long after it separated from Australia and Antarctica, rather than being isolated there from the beginning.
The Muttaburrasaurus is depicted with thumb spikes, but shortly before the show premiered, the description of Muttaburrasaurus was revised after no evidence was found for any.
We briefly see a flock of generic pterosaurs flying over the polar forest (it’s the same Pteranodon-esque model we see in “Giant of the Skies”). While pterosaur fossils were known from Australia at the time, none were properly described (though some were tentatively suggested to be Ornithocheirus, a major wastebin taxon at the time) . After WWD, we have named no less than four genera; Thapunngaka, Mythunga, Aussiedraco, and Ferrodraco, with the former three having lived right around the time the episode takes place. Furthermore, Thapunngaka and Ferrodraco turned out to be very similar to Tropeognathus, with the former growing nearly as large.

Death of a Dynasty

In February 2024, YouTuber Ben G. Thomas reviewed this episode, analyzing its accuracies and inaccuracies here.
The episode depicts female Tyrannosaurus as being larger and more vicious than males, based on then supposed evidence of "gracile" and "robust" morphs of T. rex fossils and a supposed egg canal gap in the tail vertebrae known in the "robust" morphs, as known in modern crocodilians, so the "robust" morph was considered the female (the 'making of' program has them identifying the very large and extremely robust "Sue" Tyrannosaurus specimen as female). However, shortly after the series was broadcast, evidence for female's being larger was severely weakened by the fact the supposed egg canal anatomy found in crocodilians was in error, so it could not be used to accurately determine dinosaur sexes, and the extremely robust "Sue" specimen had a fully intact tail vertebrae anyway, contradicting the idea regardless. Although considering that this pattern of dimorphism is seen in most large carnivorous birds as well as the most primitive birds today, it isn't improbable, there's just no direct evidence of it.
Later papers suggest, contrary to many if not most other theropods, that most of Tyrannosaurus was covered in scales (small amounts of feathers are still a possibility), however, the scales themselves were tiny, more akin to those seen on a bird's foot than the thicker, lizard-style scales seen in the show. In reality, the scales would have been too small to see unless you were standing very close. The snout is also believed to have had thick keratinous scales on it, too, which are absent in WWD's depiction.
Subsequent revisions of Tyrannosaurus anatomy indicate it was far more rotund than often depicted and its chest would've been much closer to the ground (as seen in a more modern reconstruction, compared to WWD's version◊). Tyrannosaurus is stated as weighing up to five tonnes, but most modern weight estimates suggest higher boundaries around seven to nine tonnes.
The series uses a design choice of fusing the bony hornlets above its eyes into one large, continuous ridge. Supplementary material states some experts at the time argued for them, but the idea, which was niche even at the time, has virtually no followers nowadays since there is no real evidence for it from any theropod; Walking with Dinosaurs is probably the only popular depiction that uses this design idea.
Subsequent tyrannosaur fossils of juveniles indicate that young Tyrannosaurus had long, slender proportions with elongated snouts very distinct from the broad, blunt snouts of the adults, and they were probably fast and agile hunters even as chicks. They likely would've been independent from an early age, although this doesn't necessarily preclude some level of post-embryonic parental care.
The giant pterosaur Quetzalcoatlus is shown as a fish eater hunting prey on the wing (the episode implies that it's normally a seagoing animal and happened to come in from the coast, seemingly ignoring that its remains are known entirely from semi-arid inland ecosystems that would've been hundreds of kilometres from the sea), while we now know it was actually stork-like in habits. In fact, it probably wouldn't have hesitated to eat juvenile tyrannosaurs, like the ones in the program! We also now know Quetzalcoatlus had a much larger head and neck than what is seen in the show.
- Pterosaurs were probably not "on the decline" at the end of the Cretaceous. Indeed, azhdarchids like Quetzalcoatlus were among the most successful animals at the time. In March of 2018, the notion that only azhdarchids were left at the time was completely decimated, as several genera of pteranodontid and nyctosaurid pterosaurs were discovered in Morocco strata that were dated to 67 million years. Additionally, not all Maastrichtian pterosaurs (even azhdarchids) were giants.
The body shape of the Quetzalcoatlus is more akin to the old reconstructions◊ of the species with a short neck, sprawled posture, and Pteranodon-like crest, very different from the modern view, with a much flatter and frontal crest, erect stance, and massive head mounted on a long neck.
The episode states that Quetzalcoatlus had a wingspan of thirteen metres; this was actually conservative at the time, but nowadays, with better knowledge of azhdarchid anatomy, a maximum wingspan of about eleven metres is considered more likely.
It's been theorized that Triceratops and Torosaurus (which were featured in Death of a Dynasty as seperate genera) are actually the same animal in different growth stages. However, research on this is still ongoing and has been doubted by some later studies.
The accompanying book briefly mentions the possibility that Anatotitan is synonymous with Edmontosaurus. As of September 2011, this is the majority view. Also, in 2013 it was discovered that Edmontosaurus regalis had a crest of skin on its head like a rooster's, suggesting that E. annectens (the species that includes "Anatotitan") may have one as well.^note
Anatotitan is portrayed with a flat, ducklike mouth, though we now know that Edmontosaurus had a flat beak that sat at a 90 degree angle from its mouth, much like the one Muttaburrasaurus was given the previous episode.
The episode depicts Anatotitan/Edmontosaurus as being considerably smaller than Tyrannosaurus, but newer fossils indicate it was actually much larger, with specimens such as MOR 1142 and MOR 1609 suggesting lengths of close to fifteen metres and possibly up to fourteen tonnes for some adults, far out-weighing the biggest T. rex. This is partly because the most well-known fossils of the species were of 8-9 metre long individuals, but these were later determined to be adolescents.
The Anatotitan lacks the frill of skin along its back that hadrosaurs are known to have had. An exceptionally well preserved "mummy" of the closely related Brachylophosaurus described in 2006 shows that this frill was separated into individual segments, and this has become widely known, but of course it was several years too late for Walking with Dinosaurs and Chased By Dinosaurs, although the movie does include this feature on Edmontosaurus.
At the time the show came out, Didelphodon was mostly known from teeth, which were exceptionally large and robust for a Cretaceous mammal, leading to badger-like depictions, as in this episode. A skeleton was later found, revealing that it was shorter-legged, leaner, and semiaquatic, like an otter. The robust teeth were probably used to crush freshwater crabs and molluscs. This is ironic, because Didelphodon is used in the show as an argument for dinosaurs "oppressing" mammals and keeping them from diversifying during the Mesozoic, but in reality it was an example of higher mammalian diversity in the Mesozoic than commonly assumed.
- Interestingly, there is another mammal that lived alongside T. rex, called Nanocuris, which might fit the profile of the WWD Didelphodon a lot better, as it was a member of the deltatheridiids, who were likely active predators and might have even preyed on baby dinosaurs, as the skull remains of a juvenile troodontid from Mongolia sport bite marks made by a deltatheridiid.
The featured dromaeosaur goes unnamed because, at the time, there wasn't a named dromaeosaur taxon that was sympatric with T. rex, though supplementary material calls it Dromaeosaurus, as isolated teeth from Hell Creek and adjacent sites had previously been tentatively attributed to it and Saurornitholestes, but both are only known from the previous Campanian age. Post-2013, there are now three named dromaeosaurs that coexisted with T. rex (the giant Dakotaraptor^note, the small Acheroraptor, and the midsized Dineobellator, with the last one hailing from New Mexico). In the scientific description for Acheroraptor, the describers surmised it was likely the supposed Dromaeosaurus teeth actually belonged to Acheroraptor. Furthermore, we now know that Dromaeosaurus had a rather deep, robust skull armed with strong jaws, and the same is true for Saurornitholestes (though it wasn't known until a well-preserved skull was found in 2014), in contrast to the Deinonychus-like skull shown here (on account of it being a Palette Swap of the Utahraptor, itself based entirely on Deinonychus). It has even been suggested that the former two were more reliant on their heads for killing than the contemporary Asian velociraptorines (though they would have still used their feet and talons).
Ankylosaurus is now considered to have been shorter in height and with a less arched, flatter back. It may have aimed for the tyrannosaur's tibia rather than its femur. Its armor was also a lot more complicated than in the show.
It has since been revealed that at least some hadrosaurs had horse hoof-like forefeet, with a spiked index finger.
The episode sets the tone that even before the asteroid arrives, dinosaurs are already doing poorly due to increased global volcanism poisoning the environment with toxic fumes, and the meteor is more like the straw that broke the camel's back. However, this stance on dinosaur mass extinction is highly contentious, and many newer studies indicate evidence for a drop in end-Cretaceous dinosaur diversity brought on by mass volcanism is inconclusive at best. Notably, even Walking with Dinosaurs: The Evidence admits that evidence for excessive volcanism during the Late Cretaceous is lacking and controversial, instead citing the alleged drop in saurian diversity and the possibility that a meteor impact wasn't "enough" to wipe out the non-avian dinosaurs completely to beef up the former argument. The novelization also downplays this, showing Hell Creek as a more lush environment and although increased volcanism still threatens the local dinosaurs, it hasn't turned the environment into a barely habitable hellscape. The next prevailing view is that an impact event was indeed the primary reason for their extinction and they were doing very well beforehand, which is currently the majority held view.
Hell Creek is shown as a barren wasteland with only patches of forest scattered across it (due to the alleged volcanism), but most of the available evidence paints a very different picture. Based on the fossil flora and the abundance of small animals (mammals, birds, fish, turtles, and crocodiles), we know that Hell Creek was a lush, alluvial floodplain environment, with araucaria conifers and ferns in place of grass, much more similar to today’s Everglades.
At the time, it was believed grass was not present in the Cretaceous and only evolved in the Cenozoic, so the crew filmed in barren, grassless areas of Chile. Later studies would push back the evolutionary history of grass into the Albian stage of the Cretaceous, having diversified in the Late Cretaceous. Many herbivore dinosaurs have been proven to have eaten it because grass is found in their coprolites (though whether it was present in Hell Creek itself is still unknown).
Geologists place the end of the Mesozoic Era as being roughly 66 million years nowadays instead of 65.5 million, as is portrayed in the episode.

Walking With Beasts:

New Dawn

The brief shot of a tamandua, likely meant to represent Eurotamandua from the Eocene of Messel, which was initially identified as an anteater, and is identified as such in the accompanying "Triumph of the Beasts" making-of. Studies from 2010 indicate that it probably wasn't an anteater and quite likely it wasn't a xenarthran at all. However, the alternative is that it was a primitive, arboreal pangolin with no armor. This makes sense (since anteaters originated in South America while pangolins appeared in Eurasia, and other pangolins are known in Europe at this time) but also means that Eurotamandua, in the flesh, would look very much like a tamandua even if it wasn't a real tamandua. The use of a tamandua as a stand-in should be perfectly excusable (although its reclassification as a stem-pangolin ends up refuting the statement in the making-of stating anteaters didn't change much since the Early Eocene). The use of a coati as a stand-in for the giant platypus Steropodon in WWD, on the other hand... not so much.
Whether the robust beak of Gastornis was to crush large nuts or small animals has been a matter of debate since its discovery. WWB went with the animals and presented Gastornis as the top predator in the Eocene European jungle. However, the latest study on calcium isotopes found that Gastornis' data was more similar to herbivorous mammals and reptiles (such as dinosaurs). There goes the show's iconic line about the Eocene being a time when birds ate horses.^noteNear the end of their time in the early Pleistocene, the superficially similar terror birds, which were carnivores, did however eat horses, as possibly did the earlier giant bathornithids of North America. In addition, the idea of Gastornis being carnivores was already suspect, since the beak lacked a hook and its feet lacked claws. It's more likely that creodonts (the order containing Hyaenodon), mesonychids, and terrestrial crocodilians such as Boverisuchus would have been the apex predators; flightless predatory birds that were high up on the food chain aren't impossible, but no hard evidence for their existence has been discovered.
- Eggshells from France reveal Gastornis eggs were similar in size to cassowary eggs, while the one in the episode seems ostrich-size if not larger. Since cassowaries lay three eggs or more at once, it's likely that Gastornis did the same, as opposed to the single egg seen in the episode.
It's not completely agreed upon whether leptictids hopped like modern kangaroos, or walked bipedally like theropod dinosaurs. A close relative of Leptictidium, Leptictis is currently believed to have walked rather than hopped, but differences between the skeletons make it insufficient evidence to suggest either way for Leptictidium.
Ambulocetus is portrayed as very awkwardly being able to walk on land, while still being a graceful swimmer; it may not have been able to support itself on land, but this study is provisional due to not accounting for bone density, center of gravity and other factors.

Whale Killer

In contrast to the agile, orca-like open ocean predator seen in the episode, studies of the skeleton of Basilosaurus suggest that it was actually quite‭ ‬restricted in terms of movement, unlike the smaller Dorudon, who was a diving, three-dimensional swimmer.‭ The larger whale swam in a two-dimensional anguilliform fashion, since its vertebrae ‬were hollow and likely filled with fluid, unlike‭ ‬in modern whales, which are solid,‭ and the skeletal anatomy of the tail suggests that it had a small fluke, which would have aided only in vertical motion. Muscle attachments along the spine also imply that Basilosaurus had relatively weak muscles and could neither‭ ‬dive deep nor swim for extended periods. ‬These characteristics point to an animal that only swam and hunted near the surface and/or in shallow water, while the show showed it being forced into shallow water from the open sea.
Andrewsarchus, known only from a skull and a few fragments of bone, was assumed at the time the series was produced to be closely related to the mesonychids, and modelled after them. However, later phylogenetic studies indicate that it might have actually been a close relative of entelodonts and therefore might have been much less wolf-like than portrayed. Like entelodonts, it may have also been more omnivorous and not a pure carnivore.
Mesonychids most likely weren't the true ancestors of whales. Later studies have found whales to still be ungulates, but closer to the ancestors of hippopotamuses than more basal groups like the mesonychids (it helps that both hippos and whales are aquatic). Ironically, these two corrections have coalesced into Andrewsarchus being still a land-dwelling relative of whales, but in a different branch of the ungulate family tree than previously assumed.
The holotype of Andrewsarchus hails from the Irdin Manha Formation, which turned out to be Mid Eocene in age (44-40 mya), not Late Eocene (39-34 mya), meaning it would not have been a contemporary of Embolotherium. The apex predators of Late Eocene Asia would have been hyaenodonts and entelodonts (like the ones seen in "Land of Giants").
Apidium is now dated to the Oligocene instead of the late Eocene as portrayed in the show.
It's been suggested that the horn-like bony growths on the nose of brontotheres like Embolotherium were not free-standing, but actually the anchoring point of a large, fleshy nasal cavity that acted as a resonating chamber (similar to the crests of hadrosaurs). Not all brontotheres would've had this, as there were other species that did have them free-standing and used for interspecific combat and defense.

Land of Giants

Indricotheres were not completely invulnerable to predation, as bones from the Bugti beds in Pakistan have revealed tooth marks of bear-dogs and a 8-meter long crocodile, Astorgosuchus bugtiensis. However, even giant crocs could (at best) have only hunted young animals, while 10-15 ton mature adults were definitely off the menu.
While paleontologists never expected Paraceratherium to behave like a carbon copy of African rhinos, this depiction became even less plausible after Prothero reviewed the group's biology extensively a decade later. One of the conclusions was that a mammal the size of Paraceratherium would be in permanent risk of overheating, so it would be mostly nocturnal or crepuscular, and spend the day in the shade, bathing, mud-bathing, or near water. Since indricotheres fed on tree leaves only, they would avoid depleting their food source by moving constantly from one forested area to another, which would not tire them due to their size, and might do yearly migrations like giraffes and elephants (but not modern rhinos). This would be specially true in desertic areas like the one shown in the episode. Ranging areas would be enormous and densities very low; to guarantee that mating happened at replaceable rates, the females may live in herds or family groups. Isotope data from central China is also consistent with indricotheres feeding mostly on riverine forests, even when the territory around was desert-like.
There is some anatomical evidence to suggest indricotheres may have had a small trunk like a tapir instead of the pointed rhino-like fleshy lip the show used (although the latter is still plausible).
Male indricotheres were found to have longer tusks than females, which at least strongly suggests that tusks were used in threatening or mating displays. This is not the case in the show where the threatening display is a combination of African rhinos and giraffes.
The opening states that indricotheres are the largest land mammals of all time, but a study in 2015 found that the extinct elephant species Palaeoloxodon namadicus may have gotten bigger by about five tonnes (17 tonnes for Paraceratherium vs 22 tonnes for Paleoloxodon). However, the study based this on two partial bones discovered and measured in the early 19th century, not from direct examination of these fossils, so it still requires further confirmation. Also the study found the largest Paraceratherium could have reached 17 tonnes rather than 15 as stated in the episode. In any case, the claim that indricotheres are the largest land animals since the dinosaurs is still true.
The Hyaenodon is described as being “as big as a rhino”, but no known hyaenodont approached the size of even the smallest extant rhino (the Sumatran rhino, which can still reach a whopping 800 kg). The largest known hyaenodont is Megistotherium osteothlastes, with an estimated weight of 500 kg, but it lived in Early-Mid Miocene Africa, not Late Oligocene Asia. The largest species of Hyaenodon proper, Hyaenodon gigas (only known from teeth and jaw fragments), is estimated to have weighed 250-378 kg, about the size of a tiger. The exaggerated size was likely based on outdated methods used for calculating the body weight of hyaenodonts, based on the proportions of modern carnivorans. This failed to take into account their unique proportions compared to modern carnivores (specifically their proportionally larger heads), leading to overestimates.
- Interestingly, in 2019, a close relative of M. osteothlastes was described, called Simbakubwa kutokaafrika, which was initially estimated to have possibly reached as much as 1.5 tons, thus making it the largest hypercarnivorous mammal ever found! However, those estimates were soon met with scrutiny, since they were obtained using the aforementioned questionable methods, and in reality, S. kutokaafrika was likely much closer in size to H. gigas (around 250-380 kg).
The entelodonts notably suffer from shrink-wrapping, as their heads look like someone just draped skin over the bare skulls, with next to no soft tissue between them, and their teeth are shown to be exposed even when they have their mouths closed. In reality, an entelodont’s head would likely have been encased in a lot more flesh. The Hyaenodon too has its enlarged canines exposed (giving it a saber-toothed look), when in reality, they would have been tucked behind its lips.
The entelodonts are described as cousins of pigs and the narrator even uses the popular moniker “hogs from hell”. At the time of the show’s making (and over much of paleontological history), entelodonts were classed as members of the Suina suborder, the same one that contains pigs, but studies made after the show's release have placed them as members of Cetancodontamorpha, whose only surviving members are hippos and whales. Interestingly, hippos were traditionally also classified as members of Suina prior to the advent of DNA studies.
The reason for Chalicotherium showing up at the end of the Oligocene can be chalked up to it being used as a wastebasket taxon in the past. As it was the first chalicothere ever named, many different, often fragmentary chalicothere fossils across Eurasia and even Africa were historically placed in the genus, ranging in age from the earliest Miocene to the Mid Pleistocene (23 million to 800,000 years ago). The two largest species, the European Chalicotherium goldfussi (the type species) and Asian Chalicotherium brevirostris are only known from the Upper Miocene, and they are also the only species still confidently placed in the genus, with even Chalicotherium grande, the most complete and best-researched species, being later reclassified as Anisodon grande. Very fragmentary fossils belonging to smaller and more basal forms from the very Early Miocene were previously lumped into Chalicotherium, "Chalicotherium" pilgrimi from the Bugti Hills of Pakistan, and "Chalicotherium" wetzleri from Western Europe, suggesting that the genus showed up much earlier, but these are no longer considered members of the genus, and might not even be knuckle-walking chalicotheriines, with C. wetzleri later being classed as a species of Metaschizotherium (a schizotheriine).
The bear-dog, if indeed Cynodictis, would count as an example of Misplaced Wildlife. While known from extensive material in Western Europe, especially the Quercy Phosphorites Formation in France, fossils attributed to Cynodictis in Asia (like "Cynodictis mongoliensis") are scarce and fragmentary, and later researchers have dismissed their inclusion in Cynodictis and suggested that they represent other basal caniforms, such as amphicynodontids (not to be confused with amphicyonids, actual bear-dogs), who are basal relatives of bears or possibly even stem-pinnipeds. Furthermore, due to its basal nature, there has been debate about whether Cynodictis is even an amphicyonid or possibly a basal canid (though later research favors the bear-dog classification).
Geologists now place the end of the Oligocene at 23 million years ago, instead of 25. Notably, the episode is nominally based on the Hsanda Gol Formation (known for fossils of the giant Paraceratherium transouralicum), which at the time was thought to be late Oligocene in age, but researchers in the mid-late 2000s determined its age to actually be the very early Oligocene (the overlying Loh Formation represents the late Oligocene), which also had the domino effect of pushing back the ages of many underlying fossil beds in Central Asia, such as the Houldjin Gravels (previously considered the lowest unit of Hsanda Gol), which went from early Oligocene to late Eocene, and is the only part of the location to have fossils of entelodonts.

Next of Kin

Dinofelis was not too slow to catch "fast prey" and did not rely exclusively on "slow prey" like Australopithecus. A 2002 study on calcium isotopes of fossil carnivores that lived alongside australopithecines found that their sampled Dinofelis primarily hunted grazing ungulates, leaving leopards, hyenas, and the smaller sabre-toothed cat Megantereon as the likelier to feed on primates. However, modern big cats generally tend to specialise in whatever prey is readily available and, sometimes, what prey their mother taught them to hunt. So, even if Dinofelis was not a specialist primate-hunter, individual Dinofelis could have been.
- Incidentally, Megantereon also had climbing adaptations that its larger, terrestrial descendant Smilodon didn't have. Which also makes the cat's behavior in the episode closer to what could be expected of Megantereon.^note
It's very likely that Dinofelis and other machairodontine cats with modest-sized canine teeth (like Homotherium) had them tucked behind their lips. Many modern felines such as tigers and especially clouded leopards have surprisingly large canines that are nonetheless hidden behind their lips. The only exceptions would have been Smilodon and other taxa with fangs protruding beyond the jawline.
The Deinotherium model follows the theory that deinotheres had shorter trunks than elephants. This was based on the facts that deinotheres separated early from the proboscidean family tree, and that their skulls lack the attachment marks corresponding to some trunk muscles, which were interpreted as deinotheres lacking these muscles, and as a result having shorter and more primitive trunks than elephants. It was later found that elephants don't have these marks either, because the muscles actually attach to other muscles in the trunk rather than the skull. If deinotheres didn't have them, it could be because they had long, advanced, elephant-like trunks, rather than the opposite. Finally, the authors of the later study appealed to common sense: while deinothere necks are slightly longer than elephant's, their legs are also longer, and they are not better at kneeling than elephant legs are. This means that if deinotheres had trunks as short as depicted in the show◊, the animals would be nearly incapable of drinking without getting partially submerged in water. However, some paleontologists believe deinotheres still wouldn't have long trunks since their family was part of an order known as the Plesielephantiformes that diverged from other proboscideans as far back as the Paleocene, and propose that their method of drinking was by submerging in water similar to how modern moose drink. The debate is still going on, but it's most likely deinotheres would have had longer trunks than in the show.
Musth likely has nothing to do with mating, but with helping elephants fight in times of scarcity. Musth-striken males will kill females rather than try mating with them.
There is increasing evidence that Australopithecus is not an ancestor of Homo at all, but a more vegetarian offshoot from a common ancestor, that eventually led to the specialist vegetarian genus Paranthropus. The last common ancestor of Australopithecus and Homo might be Ardipithecus (named from fragmentary remains in 1995; a much more complete specimen, called "Ardi", was unveiled in 2009) or an even earlier genus like Sahelanthropus or Orrorin. In any case, the adaptation to bipedalism appeared already in the primitive East African jungle and was unrelated to its clearing and transformation into savanna. "Next of Kin" (as in Next to our Kin) still makes for a great description of Australopithecus, though. That said, the offshoot hypothesis still isn't universally agreed upon and there are some analyses that continue to recover Australopithecus as a Homo ancestor.
Ancylotherium is no longer the last surviving chalicothere: Nestoritherium and Hesperotherium survived in East Asia until the Middle Pleistocene less than one million years ago, and were contemporary with Homo erectus.

Sabre Tooth

A rarity for the WW series, but the Smilodon species featured in the episode, Smilodon populator (one of the largest known felines), wound up being undersized. Here it’s described as reaching 300 kg, which would have been a reasonable weight for an average-sized individual, but a huge skull described in 2020 from the Dolores Formation in Uruguay revealed that very large specimens could reach an estimated 436 kg, which would be comparable to an average-sized male Alaskan brown bear.
Smilodon was a terrible runner and would not be able to chase prey in the manner shown, due to its short tail making it harder for it to turn during a chase, and its more muscular body making it less suited for running in a chase than lions and tigers. That said, S. populator had proportionally longer legs than S. fatalis, which implies that it was more adept at running. This makes sense, since the former often inhabited savannah-like environments (as shown in the episode), though it was still probably not a pursuit predator.
Studies at the time stated the saber teeth were brittle and could break when they hit bone, which actually was shown in the episode with the Smilodon only using their sabers to deliver the killing strike while hunting and being very careful when eating carcasses. Later studies, however, have elaborated on this to explain their teeth weren't that brittle, and could still safely remove meat from carcasses. They could even eat much smaller bones, similar to what lions can do.
If Smilodon lived in packs, they would not have had a lion-like structure (1-2 or so males with a lot of females), due to males and females being similar sizes. Wolf-like packs have been suggested (1 main male/female pair, with a mixed group of other members), although the evidence for any sort of pack lifestyle is thin.
The species of Smilodon shown (S. populator) in the episode had not evolved yet when the show was set.
At the time the episode was produced, scientists believed that sabertooths had displaced terror birds as apex predators with their arrival, hence their depiction as scavengers. However, it is now considered more likely that the terror birds were still able to remain as apex predators in competition with the sabertooths. Also, the species would have been Titanis in reality, but a theory presented at the time was that Titanis was a synonym of Phorusrhacos, which is mentioned in some supplementary material. Eventually it turned out that not many large terror birds were still around in South America by the time Smilodon arrived in the continent, as Titanis is more well known from being the sole North American terror bird, and would've instead coexisted with the older Smilodon gracilis, the earliest known species of the genus Smilodon which was the size of a leopard, and so would have been dwarfed by Titanis.
The claim that terror birds survived until just before the arrival of humans in the Americas was based on the initial confusion regarding the age of the Titanis walleri fossils, which were first found underwater in the Santa Fe River and mixed through different sediments, alongside animals known to have survived until the Late Pleistocene, which led to speculation about how long the giant bird lasted. Around 2007, more precise dating of the bones based on the chemical signatures of minerals that had been absorbed into the bones during fossilization revealed the youngest Titanis fossils to be around 2 million years old (Early Pleistocene). Likewise, the youngest fossils of a large terror bird from South America (a tibiotarsus) was found in the lower layers of the Raigon Formation in Uruguay, dating to the Late Pliocene-Early Pleistocene (circa 2.5-2 mya), though it too was previously claimed to be younger. These two taxa represent the last known occurrence of giant phorusrhacids and put their extinction at around 2 million years ago. Some fossils of a small terror bird, similar to the 5-kg Psilopterus, from Uruguay might come from the Middle to Late Pleistocene but their age remains controversial.
Phorusrhacos is depicted as incredibly tall and lanky, with a very long neck and legs, coupled with a small head, basically resembling a 3-meter seriema. But now it’s known that giant phorusrhacids were stockier animals with large, ax-like heads used for striking down prey and it’s therefore unlikely that any terror bird reached 3 meters in height, including the largest known species, Kelenken guillermoi, who is estimated to have stood between 2 and 2.5 meters tall. Titanis walleri in particular turned out to have been even stockier than its closest relatives◊, the polar opposite of what is shown in the episode.
Though hard to see and not explicitly referenced, the Phorusrhacos model has a single finger-like claw per wing. This was based on a theory about Titanis's unusual joint articulation mixing flexing digits with relatively rigid wrists that would not have allowed the hand to fold back against the arm as in other birds, which was interpreted as the wings supporting some type of re-evolved clawed, mobile hand similar to the hands of non-avian theropods. However, this was debunked about 4 years after the show came out, when the same articulation was discovered in the closest living relatives of the terror birds, the seriemas, who don't have any kind of wing claws.
The terror bird is depicted with typical tridactyl feet, akin to most birds and theropods in general, but later research on phorusrhacid foot anatomy showed that they actually had a raised third digit, similar to that of a dromaeosaur, a feature that is also present in seriemas today. The 2023 discovery of a phorusrhacid trackway further confirmed that these animals held their third digit aloft◊.
Although it was suggested at the time by some that Megatherium and other giant ground sloths may have occasionally hunted or scavenged, this idea was always a fringe one due to the lack of evidence (and extensive counter-evidence, such as the lack of carnassials in ground sloths and the fact that no animal remain has been ever found in ground sloth dung - which is a very abundant fossil, by the way). A relative of Megatherium, the bear-sized and sympatric Mylodon, was actually described as an omnivore and scavenger in a 2021 paper, based on isotope analyses, though Megatherium and several other ground sloths came out as herbivores based on similar isotope tests, and it's unlikely that the smaller Mylodon would have tried stealing the kill of a Smilodon, let alone a group of them.
Megatherium probably wasn't as hairy as commonly portrayed, due to its large size and the fact that it lived in a warm climate. If it was shaggy as in the show, it likely would have overheated.
Macrauchenia patachonica was actually a very imposing animal◊, similar in size to a moose but stockier in build, weighing up to a ton, in contrast to the rather dainty animal depicted in the episode. Its design and proportions might have actually been based on smaller, more basal species, which have since been reclassified as separate genera (like Promacrauchenia and Huayqueriana).
After a century and a half of mystery, DNA finally revealed litopterns like Macrauchenia were very distant relatives of perissodactyls and true ungulates as a result.
Paleoartistic reconstructions have increasingly moved away from showing Macrauchenia with a long, tapir-like trunk to a more moose-like snout, though there is still no conclusive evidence for either. ^note
Glyptodonts such as Doedicurus would have had a “cap” of osteoderms to protect their exposed heads.

Mammoth Journey

Ancient DNA studies have found that Europeans retained dark skin tones until the arrival of paler people from the Middle East and Siberia about 7,000 years ago. This means the episode's Homo sapiens should be of noticeable darker complexion than the Neanderthals, some of whom were red haired.
The interpretation of the Jersey cliffs as killing sites where Neanderthals drove mammoths over the edge and butchered them below has been questioned. The mammoth bones might have just rolled downhill and accumulated there naturally, long after their owners died. However, due to the presence of tool marks in the bones, it is still possible that the mammoths were killed by Neanderthals in some other way.
Nowadays it's known that Neanderthals were not shorter than H. sapiens, and were more or less the same average height.
More refined radioactive dating methods suggest Neanderthals became extinct closer to 40,000 years ago than 30,000 years ago, as was generally believed when the show was made.
The introductory opening of the episode states that there were two different types of humans alive at the time (Neanderthals and Cro-Magnon), but a third variety of ice age human was identified in 2010, known as Denisovans, which may have survived as late as 14,500 years ago. However, they are still very poorly understood and not known to have existed in the region the episode is set.
The discovery of frozen cave lion hair, and also complete cubs, in Siberia in 2016-2017 showed cave lions had largely the same plain sandy coat as modern African lions, only slightly longer and yellowish at most. The theory that they were white haired or turned white in the winter always had a lot of Rule of Cool involved, anyway. Funnily enough, it was also discovered (in 2003) that the saber-toothed cat Homotherium survived in Europe until at least 28,000 years ago, so they could have had a better result disguising their Dinofelis model as that, than trying to pass it as a cave lion.
Mammoth trunks in the show are based on their closest living relative, the Asian elephant, which only has one "finger". It is now known that mammoths had three trunk fingers, and also that the sides of the trunk were expanded near the tip, allowing to warm it by rolling the trunk over itself.

Walking With Cavemen:

Blood Brothers

The status of H. habilis as a human ancestor is slowly eroding with each new discovery. It is possible toolmaking was more widespread than previously believed, and that Homo ergaster-type hominids evolved earlier than previously thought and thus not from H. habilis.
It's been suggested that there was just one Homo species in this time, that was a very plastic one (think dogs rather than people) and as a result, H. rudolfensis and H. habilis were the same species (maybe even H. ergaster, as well - but this is extremely far from the consensus).

Savage Family

Gigantopithecus probably wasn't actually over ten feet tall; a 2017 study of its jaw fossils (one of the only parts of the animal actually known), suggest it more likely had a large and robust jaw for its size. It certainly still would have been an enormous ape, but it was more likely a bit larger than the largest gorillas rather than a nigh-legendary three-metre plus high colossus.

The Survivors

It's been argued that the H. heidelbergensis of Atapuerca's Pit of Bones are not actually H. heidelbergensis, but early Neanderthals. If true, H. heidelbergensis should probably be considered as existing before 500,000 years ago only (the approximate age of the Pit of Bones remains).
The "H. heidelbergensis not caring for their dead" bit was taken from H. georgicus. The type locality of this species was interpreted later as a sabertooth cat den. Maybe they could not bury these dead because they were hunted by cats and irretrievable. Or maybe they really didn't care about their dead. In any case, the premise flies on the face of extensive body disposal by hominids at the Pit of Bones, unless you assume the Pit of Bones' hominids are not H. heidelbergensis.
The idea that imagination is what distinguishes modern humans from our ancestors came from the fact that no signs of art from other human species had been found at the time. Since then, it's been found that Neanderthals carved artful objects and decorated them with pigments.

Walking With Monsters:

Water Dwellers

The Anomalocaris doesn't have the segmented body and cephalic plate on its head it's now believed to have had; rather bizarrely, the show's portrayal seems to have a single, solid, unsegmented plate covering its entire body. The species of Anomalocaris which the show based its portrayal on (previously known as Anomalocaris saron) is now known to have been a chimera of two different dinocaridid species and subsequently named Houcaris (the great appendages) and Innovatiocaris (for the rest of the body), and the former was part of a group of filter-feeding anomalocarids. The immense size of the Anomalocaris in the episode is based on a fossil of a giant velvet worm-like predator from the formation in the episode known as Omnidens, which was once thought to have belonged to an anomalocaridid.
- Although a popularly depicted predator-prey relationship for a while, the idea that Anomalocaris fed upon trilobites is questionable now due to subsequent studies on the structure of its mouthparts and lack of wear suggesting that it wouldn't have been gnawing through their hard shells. More likely, Anomalocaris specialized in hunting soft-bodied prey animals, such as worms. Previous evidence for trilobite predation, such as bite-marks and coprolites, are now considered to have come from the related dinocaridid Peytoia or giant trilobites, such as Redlichia.
The oversized, 3-meter Pterygotus was likely based on the larger and closely related Jaekelopterus rhenaniae, which was sometimes included within the Pterygotus genus. However, Jaekelopterus turned out to have inhabited brackish waters instead of the sea, while no similar-sized pterygotid has been found in marine deposits. It also received a slight downsize, at 2.6 meters in length including the chelicerae.
Hyneria is stated to reach up to 5 metres in length, but this was based on undescribed fossils which have since been evaluated to belong to animals only about 2.7 metres in length. Maximum known size for the species is now thought to be 3 metres in length, possibly up to 3.5 metres (in another undescribed specimen).
Hynerpeton has also been found to only be about 70 centimetres in length rather than 1.5 metres as in the program, making him less than half the length of the animal presented.

Reptile's Beginnings

The Giant Spider in the Carboniferous was based on Megarachne, which ultimately turned out to be eurypterid ("sea scorpion") rather than spider. This was actually an error found out during production, but at that point it was too late to change the model (since the story hinged on Megarachne being a spider), so they just avoided naming the specific animal, opting instead to calling it a generic "Mesothelae", a basal suborder of spiders that evolved in the Carboniferous and survives today with only one extant family, the liphistiids.
Arthropleura is now considered to be a true millipede rather than simply a distant relative of the group.
There is increasing evidence to suggest that while increased oxygen in the air may have been a factor, giant land arthropods were able to exist primarily, or at least heavily, due to lack of competition from tetrapods, which were still just beginning to free themselves from the water. The giant land arthropods such as Arthropleura declined and became extinct the moment the land-dwelling reptiles started to produce large-bodied forms and provide serious competition. Giant flying insects continued to exist into the Permian and Triassic periods, and perhaps not coincidentally, became extinct just as the first flying vertebrates appeared (the pterosaurs).
The lineage that gave rise to mammals split to the one that gave rise to reptiles and birds before those developed the reptilian scales. The show represents perhaps the first time that Dimetrodon and its herbivorous "twin" Edaphosaurus have skins similar that of modern hairless mammals, instead of the classic scaly one. However, some think now that they would have the skin texture of a salamander, and the belly of a fish.
- Surprisingly, Dimetrodon may have been nocturnal.
- A study in 2012 suggested that in at least some Dimetrodon species, the sail may not have extended all the way to the very tips.^note
- Interesting to note that the giant, Angry Guard Dog-looking Gorgonopsid from the show has scent glands (a typical mammalian feature).
The German Edaphosaurus featured in the episode is probably based on a little-known Edaphosaurus species known as "Edaphosaurus" credneri. However, a 2019 study found this species to be an indeterminant species of edaphosaurid and considered it a nomen dubium, that may or may not be an Edaphosaurus. Other European Edaphosaurus were classified in different genera like Remigiomontanus and Bohemiclavulus.

Clash of Titans

The armoured plant-eating near-reptile Scutosaurus probably wasn't the ancestor of turtles. Later research suggests that the latter were closer to modern reptiles than to Scutosaurus.
The series depicts its gorgonopsid as being hairless and the narration states that fur has not evolved yet, but fossils described in 2015 found in the Late Permian of Russia (the exact time and location the specific episode is set) found direct evidence of hair. Whether the hair came from a gorgonopsid is unknown, but it's clear some sort of therapsid at the same time already did have fur.
A 2023 study found that the last Inostrancevia migrated to South Africa from Russia to replace the rubidgeine gorgonopsids of the region. Considering both Rhinesuchus and Diictodon are already known from South Africa and absent in Russia, they could just as well have just made the entire segment set in South Africa instead (replacing Scutosaurus with Lystrosaurus, which, unlike Diictodon, actually did survive the Permian into the Triassic).
The end of the Palaeozoic is more precisely dated to 251.9 MYA rather than 250 MYA as depicted in the episode.
Rhinesuchus showing up at the end of the Permian, despite only being known from substantially older strata, can be attributed to related and younger rhinesuchids being previously included in the genus, such as Rhineceps and Uranocentrodon, the latter of which is known from the Permian-Triassic boundary.
The therocephalian being depicted as venomous is based on fossils of Euchambersia with possible venom gland pits in its skull and venom grooves in its teeth. However, an exceptionally well-preserved skull described in 2022 failed to find evidence of the supposed venom glands, making it possible they were actually scent glands. The venom idea remains possible, however (the venom being as incredibly potent as depicted is purely speculative though).
Proterosuchus is depicted as a semi-aquatic, crocodile-like swimmer. This was the traditionally held view, but later studies find evidence that conflicts with this idea and suggests it was a land-based predator, such as having strong, well-developed limb bones, nostrils placed on the sides of the skull rather than the top, and its fossils being known from arid environments. On the other hand, the traditional view has been upheld due to evidence from brain anatomy.
Euparkeria wasn't anything close to the "dinosaur ancestor" that the program makes it out to be. Not only did it evolve its bipedal gait independently from dinosaurs, it was more related to basal archosaurs, a group containing multiple major groups of reptiles other than dinosaurs. It was equally as related to crocodiles and pterosaurs as it was to dinosaurs.
A 2023 study concluded from Euparkeria's anatomy that it was not bipedal and was strictly quadrupedal, unable to rear up even for short periods because it was far too top-heavy. Barring some yet-to-be discovered genus, it seems that archosaur bipedalism must have evolved some time later during the Triassic, after the setting of the segment.

The Ballad of Big Al

A study on the life history of Big Al presented at the 2022 SVP meeting indicates that Al actually lived until at least sixteen years old, rather than dying at six as shown. Tissue structures found in the medullary cavities also suggested that Al may have been female and recently laid eggs at the time of death, rather than Al being depicted male and failing to attract a mate as depicted in the documentary.
Big Al was reclassified in a new species known as Allosaurus jimmadseni in 2020, which is currently only known from the earlier Kimmeridgian stage of the Late Jurassic rather than the following Tithonian stage (in which only A. fragilis is known to have existed).

Chased by Dinosaurs:

Land of Giants

This special portrayed the largest land animal of all time, Argentinosaurus, being hunted by the largest land predator, Giganotosaurus. Both have been supplanted since then: New evidence found that Spinosaurus was the biggest land predator (though it was partially aquatic), while Argentinosaurus has been surpassed in length by a specimen of Barosaurus described in 2016. (Argentinosaurus is still heavier, though).^noteEven before Argentinosaurus was described its estimated size and weight was surpassed by those attributed to Amphicoelias and Bruhathkayosaurus. However, the record size of Amphicoelias was based on a single partial vertebra that was lost shortly after it was described by Cope in 1878, and a 2018 study suggests it was actually classified as a different type of sauropod than it really was (a diplodocid versus a rebbachisaurid, which are known to have very tall vertebrae), resulting in a bloated total body length due to differing proportions (sixty metres versus thirty metres). meanwhile the estimated dimensions of Bruhathkayosaurus were never peer-reviewed and published (and since the type fossil was later lost in a moonsoon flood, no further study can be made on it) with some suggesting it was actually misidentified petrified wood. The accuracy of both original descriptions has been questioned. Evidence of other sauropod species exceeding Argentinosaurus in size still exists however.
- Funnily enough, later studies found the largest Tyrannosaurus were probably heavier than the largest Giganotosaurus by one or two tonnes, and a contemporary sauropod that lived alongside Tyrannosaurus, Alamosaurus, reached similar sizes to Argentinosaurus, from fragmentary remains discovered in the early 2010s.
Giganotosaurus did not live at quite the same time as Argentinosaurus, although its close relative, Mapusaurus (whose fossils were initially attributed to Giganotosaurus), did, as the latter two both hail from the Huincul Formation. Likewise, Giganotosaurus, which hails from the underlying Candeleros Formation, lived alongside a still-unnamed but equally massive cousin of Argentinosaurus. So the predator-prey dynamic is accurate, but the specific pairing isn't.
Argentinosaurus is portrayed as weighing slightly over ninety tonnes, which was actually conservative for the time, since some put at around one-hundred tonnes. Subsequent weight estimates suggest slightly lower mass ranges of between 75-85 tonnes, although it's still up for debate.
Argentinosaurus would have looked different than the Saltasaurus-like design in the show; giant titanosaurs are now known to have longer necks and upright-slanted postures similar to Brachiosaurus. It's also portrayed with a Brachiosaurus-like skull, but the few titanosaur skulls which have subsequently been found indicate Argentinosaurus probably had a more diplodocid-like skull (a longer snout, squared-off jaw, and no domed nares).
When Nigel initially sees a young Argentinosaurus, he says that it's unmistakable what species it is. This statement is probably because Argentinosaurus was, at the time, the only sauropod species conclusively identified from the Huincul Formation. Four other sauropod species have since been described, making the statement that it can't be mistaken for anything else shakier. He says the same thing for Giganotosaurus, but two large carcharodontosaurids have been identified from the Huincul Formation; Giganotosaurus itself is ironically not one of them.
The distinct head of the Giganotosaurus is based on older reconstructions of its skull◊ (which is incompletely known and some elements aren't properly described), which made it very elongated with a tapering snout and with a very large temporal fenestra and long jaw hinge, leading workers to deem it the longest skull of any theropod, but the subsequent discovery of closely related giganotosaurines with better skull material, especially Meraxes, shows that Giganotosaurus likely had a much boxier skull shape◊.
Giganotosaurus is portrayed as briefly being able to chase a speeding car and suggested in supplementary material as being able to reach speeds of over thirty miles per hour. Later bio-mechanical studies on the running speeds of the largest theropods found it would probably have been impossible for them to run at particularly high speeds, or possibly even run at all (that is, having a stride where both feet are off the ground at the same time for most of the stride) because they were so heavy their footfalls would have shattered their legs, even if they had enough muscle mass to propel their massive bodies so quickly. And considering what animals they hunted, it's unlikely they would have needed to move very fast in most situations.
Like any 2000s-2010s portrayal of Sarcosuchus, it’s depicted as a 12-meter giant. Those often-cited estimates were originally obtained by Paul Sereno in 2001 based on the head-to-body ratio found in extant crocodilians (ranging from saltwater crocs to the gharial). But since Sarcosuchus is not a member of Crocodilia and represents a far more basal crocodylomorph, the notion that “Super Croc” had the exact same proportions as its closest living relatives has faced more and more scrutiny. Subsequent studies, using the length of the femur, have yielded a smaller size of 9-9.5 meters, and different studies, based on the width of the skull, have produced the same results. Thus it would seem that Sarcosuchus was marginally smaller than Deinosuchus (which is thought to have reached at least 10.5 meters at its largest).
A biomechanical study cast doubt on the ability of Sarcosuchus to roll over like modern crocodiles. Though the authors are cautious in this regard, the implication is that Sarcosuchus was a strict fish eater and did not attack drinking animals on the shore, like modern gharials (similarly long snouted). Deinosuchus, seen in WWD and Prehistoric Park, did not have such problems.
The South American Iguanodon is now named Macrogryphosaurus, which, similar to Giganotosaurus, did not live at the same time as Argentinosaurus, although unidentified iguanodont fossils are known from the Candeleros and Huincul Formation.
Later studies suggest that Pteranodon caught fish by diving into the water and swimming for their prey rather than snatching it up on the fly.
Pteranodon fossils are known exclusively from the Niobrara Chalk and Pierre Shale of Late Cretaceous North America (88-80 mya) but historically, some fragmentary pterosaurs from the Mid Cretaceous (110-100 mya), such as the American Bennettazhia and British Ornithostoma, along with the Late Cretaceous Russian Bogolubovia were also attributed to Pteranodon. The latter two would have also suggested that the genus was more widely distributed, along with some more fragmentary material from the Late Cretaceous of Japan and Norway. However, the geologically older Bennettazhia and Ornithostoma were already seen as separate taxa by the Turn of the Millennium, and no pterosaur material attributed to Pteranodon was ever found in South America.

The Giant Claw

The cast of the episode wouldn't have all been contemporaries in real life. Therizinosaurus, Tarbosaurus, Mononykus, and Saurolophus all come from the mid Maastrichtian Nemegt Formation (which gets namedropped by Nigel, meaning it's the episode's setting), which overlies the early Maastrichtian Barun Goyot Formation, and it, in turn, overlies the late Campanian Djadochta Formation (which houses Velociraptor and Protoceratops). To complicate matters, velociraptorine and protoceratopsid fossils from the intermediary Barun Goyot Formation have subsequently been reassigned to separate genera (Kuru and Shri, and Bagaceratops respectively), which widened the age gap. Nemegt did house a medium-sized dromaeosaur (and possible velociraptorine) called Adasaurus, but no protoceratopsid fossils are known from the site. Furthermore, Nemegt and Djadochta turned out to be quite different biomes, with the former being an alluvial plain and thriving with large dinosaurs, while the latter was more arid and desert-like (complete with sand dunes), and mainly housed small dinosaurs.
Feather issues aside, Velociraptor was likely nocturnal, though it's not unusual for extant nocturnal hunters like leopards or foxes to also hunt during the daytime.
Velociraptor is portrayed as killing its prey by slashing with its toe claws and hunting in packs, which was a very common depiction of the genus back then, but both attributes are now considered dubious. The former because there's no cutting edge on the claw which it could use to slash with, and, like modern birds-of-prey, they were more likely used to cling to the top of its prey, the latter because evidence of coordinated pack-hunting is lacking; while some dromaeosaurs may have hunted in packs, it's pretty unlikely for Velociraptor due to the resource-poor desert environment in which it lived (there was never any evidence of Velociraptor pack behaviour, it was only ever extrapolated from other dromaeosaur species that lived in wetter environments).
Mononykus being the only non-avian theropod with feathers (not just quills) in the franchise reflects a theory at the time that alvarezsaurs were either very close relatives of birds or flightless, basal avians themselves, based on several anatomical similarities (the 2005 tie-in book mentions the same thing) but the discovery of more basal alvarezsaurs like Haplocheirus has shown that this is more likely a case of convergent evolution and thus alvarezsaurs have subsequently been classed as basal maniraptorans, being more distant from birds than therizinosaurs. On the other hand, deinonychosaurians ^note like Velociraptor (who is here shown as entirely scaly) are considered the true sister group to avians (forming the Paraves).
No trace of Therizinosaurus skin has been found, but the fact that its human-sized relative Beipiaosaurus had a complex feather cover makes it likely that Therizinosaurus had one too. The result looks like a cross between a goose and a ground sloth, much different from the show's naked model. Then again, given that Therizinosaurus was much larger and far more derived than Beipiaosaurus, it’s possible that it, as well as the similar-sized and sympatric Deinocheirus had very little to no feathering, due to inhabiting warmer climes and their smaller surface-to-weight ratio. This would mirror the situation between the basal, feathered tyrannosaurs (Dilong and Yutyrannus) and their larger and more derived relative Tyrannosaurus rex, who has evidence that it was mostly, if not entirely scaly.
The pterosaurs in this episode are identified in supplementary material as Azhdarcho, but the genus hails from the Turonian-aged Bissekty Formation (92-90 mya), and actually coexisted with much smaller forerunners of the giant dinosaurs found at Nemegt (basal tyrannosaurs, hadrosaurs, ankylosaurs, etc.). Its inclusion in the episode can, once more, be chalked up to wastebasket taxonomy, since workers once assigned many small-sized azhdarchid fossils from the Upper Cretaceous to Azhdarcho.

Sea Monsters:

Dangerous Seas

Cameroceras (the 'giant orthocone' in the Ordovician segment) is depicted as being a 10 metre long behemoth. However, the largest specimens known are considered about 6 metres in length and are now thought to belong to the genus Endoceras, while the supposed +9 metre long specimen is considered highly dubious due to being purely anecdotal (the specimen was destroyed before it could be collected, photographed, or even illustrated).
The enormously long-necked Tanystropheus was portrayed as capable of losing and regenerating its tail like a lizard. In the past it was indeed suggested by palaeontologist Rupert Wild^note that this creature was capable of autotomy, but other scientists who studied its fossils didn't find evidence for that. It has also been portrayed as an accomplished swimmer, but we don't know for sure if it really was such - its body-shape was all but hydrodynamic, and some think Tanystropheus was a shore animal who used its neck as a fishing rod, catching small prey a bit like a heron; the show’s portrayal still has adherents, however. Interestingly, the very similar Dinocephalosaurus, which was unambiguously a true swimmer, was discovered the same year the special premiered.
In the accompanying book there is a Deleted Scene where female nothosaurs (primitive Triassic sea reptiles related to the more famous plesiosaurs) leave their eggs on the beach at night. However it turns out that nothosaurs might have been viviparous.
The accompanying book identifies the unnamed theropod as being a coelurosaur. However, coelurosaurs did not evolve until the Jurassic Period. This can be chalked up to the fact "coelurosaur" was once a more generic term that lumped together all small theropods, regardless of actual relation; it wasn't until the 1980s that coelurosaurs were properly delineated as a true clade, with the addition of tyrannosaurids (formerly carnosaurs) and therizinosaurs (formerly sauropodomorphs) in the 1990s.
Cymbospondylus is portrayed in the episode as being about 10 metres in length, which was reasonable at the time of the episode, but in 2021 a much larger species of Cymbospondylus was discovered known as C. youngorum, which may have been over 17 metres in length.
Dunkleosteus' tooth-like extensions of its armor were later discovered to have more likely been actual teeth that merged together.
Arsinoitherium, a relative of elephants that convergently resembled a rhinoceros, was probably more terrestrial than shown. It was discovered later that it also lived in inland rainforests in Ethiopia and actually survived there for longer than in Egypt; Arsinoitherium lived in mangroves, but it wasn't a mangrove exclusive as implied by the show.
A study presented at the 2022 SVP and published in early 2023 suggests that the traditional size estimates of Dunkleosteus and other large placoderms are inaccurate and greatly embellished. It found Dunkleosteus was probably much shorter and more compact than previously thought, only about four metres long and less than two tonnes in weight (making it about the size of an average great white, but much heavier) instead of the ten-metre long, five-ton monster presented in the episode.

Into the Jaws of Death

The show was made in 2003, and as a result missed out on the discovery of Livyatan melvillei. Its fossil was discovered in the same area as the C. megalodon episode, and had they set it just a bit earlier, both of these "monsters" would have appeared. Also of note is the fact that we now know the period had even more large marine carnivores than the Cretaceous.
This portrayal of megalodon goes with the old notion that it's a close relative of the great white shark, with the tie-in books even calling it Carcharodon megalodon, but later studies have agreed that any similarities in tooth morphology between megalodon and the great white are largely a case on convergent evolution, and there are notable differences, such as megalodon's teeth being proportionally thicker. As such, megalodon is now seen as a member of the extinct otodontid sharks, being the largest and last representative of this ancient lineage.
Interestingly, the megalodon shown here might be undersized. While 15-16 meters and 50 tons is reasonable for an average-sized adult megalodon, several studies suggest that (based on the largest known teeth) very large individuals could have grown up to 20 meters and 100 tons, which would make megalodon a good contender for the title of largest known raptorial predator in Earth's history.

To Hell..... and Back?

Leedsichthys would have had a smoother head than its bone-plated portrayal in the show. As this fish is only known from numerous but very incomplete remains, there has been much confusion about its size, with early estimates suggesting it grew no larger than 9 meters, but in the 1980s, David Martill (a major consultant for WWD) calculated, based on the largest known gill baskets and using the more complete pachycormid Asthenocormus as a reference, that Leedsichthys could have possibly grown up to 27.6 meters in length. However, in 2007, the description of "Ariston" (the most complete specimen of Leedsichthys known) gave us a more accurate idea of its appearance and proportions, leading to its length being downgraded to 16.5 meters for the largest known specimens. This would make megalodon the largest known fish of all time, although Leedsichthys is still the largest known ray-finned fish ever.
The Metriorhynchus species that coexisted with Leedsichthys and Liopleurodon was reclassified in 2020 as a new genus, Thalattosuchus.
Liopleurodon is identified as the largest carnivorous reptile to have ever lived. Aside from the aforementioned revisions about pliosaur size, just one year after the series premiered a gigantic Triassic ichthyosaur was described known as Shonisaurus sikanniensis (although it's sometimes considered a species of Shastasaurus) which, at 21 metres in length, was far larger than any pliosaur or mosasaur. Fragmentary fossils of related animals suggest even larger sizes, possibly up to 26 metres in length, about the same size as the Liopleurodon is as depicted in the series. Although, since it was toothless, dolphin-like in shape, with a proportionately small skull, it wouldn't have been quite as fearsome-looking as a pliosaur or mosasaur.
A number of mosasaur fossils have been found with shark-like tail impressions (one long fin, one short fin). These fossils, and various other arguments, suggest that most or all mosasaurs would have looked more fishlike than the ones shown on the show. This, combined with the fact that it was warm-blooded, would have made it an even faster, more active hunter and give it access to polar regions.
The largest mosasaurs probably didn't get as large in reality as they were portrayed because of this, as they would have had a more compact body shape. Lengths of between forty and fifty feet are considered more likely for the largest mosasaurs such as Mosasaurus or Tylosaurus instead of over sixty feet.
The supplementary book identifies the largest mosasaur as being Hainosaurus. A number of studies since have considered Hainosaurus as being a probable synonym of Tylosaurus (on top of Hainosaurus being downsized from 17 metres to 12 metres in length, making it marginally smaller than the 13 metre long Mosasaurus hoffmannii).
The Elasmosaurus model has aged rather poorly, suffering from severe shrinkwrapping (quite odd, since Cryptoclidus did not suffer the same issue), which gives it a very bulbous head and skinny neck, along with an overly rotund body, while later reconstructions show it as a much more streamlined and hydrodynamic animal. It's also given a length of 50 feet, but that is likely an overestimate, as the largest known elasmosaurids likely didn't grow longer than 40 feet and taxonomic shuffling later placed the largest Niobrara specimens in the genus Styxosaurus (previously treated as a synonym of Elasmosaurus by some), leaving Elasmosaurus at a more modest 35 feet (its incomplete holotype is the only specimen that can confidently be assigned to Elasmosaurus).

The Complete Guide to Prehistoric Life:

The Pterygotus entry states that sea scorpions' closest living relatives are horseshoe crabs, which was the traditionally held view, but a 2013 study found they were actually a sister taxon to arachnids.
The Plateosaurus entry states that prosauropods did not evolve into sauropods, but later studies have found that the traditional idea was correct that prosauropods really were the direct ancestors of sauropods and the group is paraphyletic.
The Placerias entry suggests that competition with herbivorous dinosaurs may have led to the decline of dicynodonts through competition. However, a large dicynodont was described in 2018, dubbed Pentasaurus, that coexisted with numerous species of large prosauropods, seemingly refuting this idea.
Ammonites are stated to last been known from just before the K-Pg boundary, but a small number of ammonite fossils have since been identified dating from the early Danian, just after the Mesozoic Era, making it likely a few survived the mass extinction at the end of the Cretaceous, but were a "dead clade walking" and perished very soon after.
Ophthalmosaurus is stated to have been found in South America as well as Europe. This is probably because the South American ophthalmosaurid Mollesaurus was, at the time, sunk into Ophthalmosaurus.
The books state that both Brachiosaurus and Allosaurus lived in Africa, but since 2009, the Tanzanian Brachiosaurus brancai has been classified as Giraffatitan brancai by most workers, with later phylogenetic studies even suggesting that it’s not particularly closely related to B. altithorax (though still a brachiosaurid), while the sympatric "Allosaurus tendagurensis” (known only from a large tibia) has been deemed a nomen dubium due to its fragmentary nature, with the same applying to other alleged Allosaurus fossils from Tanzania.
Rhamphorhynchus's specified range includes Tanzania, but these so-called remains, once dubbed "Rhamphorhynchus tendagurensis", has since been reevaluated as being too scrappy to concretely belong to the genus. On that note, it's also given a rather broad fossil range of 170-145 mya, because in the past, many fragmentary rhamphorhynchoid fossils have been attributed to it (including finds from Oxford Clay like the likewise dubious "Rhamphorhynchus jessoni"), but later research clarified that the only conclusive Rhamphorhynchus fossils material all comes from the Tithonian of Europe (150-145 mya).
Metriorhynchus' range is stated to include South America; fragmentary fossils from the continent were identified as belonging to the genus in 2000, but numerous subsequent studies have failed to find them as being conclusively Metriorhynchus.
Othnielia and Leaellynasaura do not appear to be ornithopods, but more primitive ornithischians. Both are also identified as "hypsilophodontids", a group now considered to be a wastebasket taxon of various small ornithischians.
Iguanodon is said to have inhabited Eurasia and North America 140-112 mya (Valanginian-early Albian), which was actually a more conservative description of its alleged temporal/geographic range compared to what some other sources claimed at the time.^note Still, besides the aforementioned American Dakotadon, fossils from the Aptian-Albian of Central Asia previously attributed to Iguanodon have either been deemed nomen dubia or reassigned to Altirhinus, while in Western Europe, the Valanginian species have been reclassified as Barilium and Hypselospinus, leaving Iguanodon restricted to the Barremian-earliest Aptian.
It's mentioned in the Tapejara entry that it is known from the Santana Formation, but this has since been split into the Romualdo, Ipubi and Crato Formations. The species of Tapejara/Tupandactylus depicted therefore did not actually coexist with Ornithocheirus/Tropeognathus, as it is known from the Crato Formation, while the latter is known from the Romualdo Formation, which dates a few million years later (it's a moot point in the episode, as both lived several million years before the Barremian).
Ornithocheirus is said to have lasted the entirety of the Cretaceous (140-70 mya) and that it had an almost cosmopolitan distribution, both of which reflect its former status as a wastebasket taxon, with the type species, O. simus, now being restricted to the Albian of Britain, while many other Mid Cretaceous species have been reassigned to various different genera. The very Early Cretaceous ones have been reclassified as Serrodraco and Targaryendraco respectively, and the claim that it lasted until the Late Cretaceous is based on the Campanian “Ornithocheirus buenzeli”, known only from a humerus and jaw fragment now thought to represent an azhdarchid. Oddly enough, it also lists Australia as part of its geographic range, most likely referring to fragmentary pterosaur fossils from the Toolebuc Formation found in 1980 and 1991 respectively, which have since been described as Aussiedraco and Mythunga.
Tapejara (now known as Tupandactylus) is described as being a carnivorous fish eater. Tapejara is now speculated to have been a hornbill or toucan-like fruit-eater or omnivore (so there's really no reason it should have been near the coast in "Giant of the Skies"), while Tupandactylus is thought to have been a ground-dwelling raptorial predator.
The Argentinosaurus entry notes that titanosaurs are known from every continent except Antarctica; however, a titanosaur vertebra was described from the continent (or at least, the outlying James Ross Island) in 2012.
Velociraptor is stated to have killed its prey by slashing at it with its retractable foot claws. Subsequent studies have indicated it probably couldn't slash with said claws and they were more likely used for clinging to and pinning prey like modern hawks or falcons do.
Page 122 claims that therizinosaurs are known from "a lone species" from North America, probably referring to Nothronychus. Enter the ancestral therizinosaur Falcarius in 2005...
To quote page 125, "Scientists cannot agree on whether Mononykus was a bird or a [non-bird] dinosaur." The 2010 discovery of the ancestral alvarezsaur Haplocheirus confirms that Mononykus and other alvarezsaurs were not birds.
The Protoceratops entry states that the origin of "ceratopsids" (probably meaning the broader group, ceratopsians) are mysterious, and they may have evolved from heterodontosaurids. Fossils of Jurassic ceratopsians are now known, making their early evolution much more well-known. Interestingly, their sister group, the pachycephalosaurs, which still have mysterious origins, have been suggested to have evolved from heterodontosaurids since then.
The discovery of a four-chambered Thescelosaurus (strangely, referred to as a hadrosaur) heart is referenced for evidence of dinosaurs being endothermic. Subsequent studies showed this supposed heart was just a build-up of minerals during fossilization and had nothing to do with a heart. In any case, the argument that dinosaurs had four-chambered hearts is moot with or without it since modern birds and crocodilians both have one, so it's almost certain non-avian dinosaurs did too.
The book repeatedly refers to dinosaurs as cold-blooded, such as in the Leaellynasaura and Argentinosaurus, and thinking of the idea of dinosaur endothermy as controversial.
A few entries, such as the Diplodocus and Stegosaurus, discuss the idea that certain dinosaurs had a ganglia in their hip to make up for their tiny brains and help with motor functions, but this hypothesis is discredited nowadays, because modern birds have a similar cavity in their hips as that of extinct dinosaurs, which was used to justify the idea of the ganglia, but it just contains fatty tissue.
The entries for Velociraptor and Therizinosaurus poo-poo the idea of feathers for them (saying there's no actual proof) in a futile attempt to defend its scaly portrayals of the species. This would be a much, much tougher position to defend by the 2010s due to how much direct evidence of feathered coelurosaurs, of even large species, there is now. There is some debate as to just how extensively feathered Therizinosaurus and other giant coelurosaurs would've been, but a total absence of feathers in even the largest genera is now considered very unlikely.
The Giganotosaurus entry expresses uncertainty about whether carcharodontosaurids are allosaurs or not. Right around this time, following the description of the closely related Tyrannotitan and Mapusaurus (both being fellow giganotosaurines), it became generally accepted among workers that carcharodontosaurs are derived allosauroids, something future discoveries only continued to support.
Elasmosaurus is given a lengthy fossil range of 85-65 mya, and stated to have inhabited Russia and Japan, along with the United States. However, subsequent research has deemed it a wastebasket taxon, with the only confirmed species (Elasmosaurus platyurus) being only known from a single partial skeleton from early Campanian rocks at Pierre Shale, while other specimens from the Western Interior Seaway are attributed to related but different elasmosaurids, mainly the larger and slightly older Styxosaurus (who has been a major influence on our general image of Elasmosaurus), along with the Maastrichtian Hydrotherosaurus. The alleged fossils from Russia and Japan, meanwhile, have been deemed indeterminate fragmentary elasmosaurids and placed in Futabasaurus respectively.
There actually isn't any evidence that terror birds like the Phorusrhacos in the program had meathook claws on their wings. That idea came from an observation that one species, Titanis, had a very rigid wrist, suggesting the presence of some kind of digit. In 2005 it was pointed out that the birds' closest living relatives, seriemas, have the very same wrist, but no claws of any kind. However, seriemas do have a dromaeosaur-like "sickle claw◊" on their second toe, suggesting that terror birds may have had that instead. It should also be noted that most birds do have some kind of claw or spur hidden under their wing feathers, but nothing like the flexing, slashing finger shown in the book's restoration.
- Likewise, the book treats the Pliocene to Early Pleistocene-aged, North American Titanis as a synonym of the Mid Miocene, Argentinian Phorusrhacos (even calling the former a “redundant name”). Nowadays, Titanis is very much universally regarded as a separate genus from Phorusrhacos, not just due to the massive temporal and geographic gap between them, but also because Titanis walleri is now known to have been shorter and stockier in build than Phorusrhacos longissimus. This tidbit also explains the gratuitous Anachronism Stew in “Sabretooth”.
- The book states that terror birds may have died out as recently as 15,000 years ago, referring a 1995 study which suggested this from circumstantial evidence. This was refuted in subsequent studies that indicated the large terror birds died out close to two million years ago, and there's no evidence otherwise.
Entelodon was not as closely related to pigs as was believed. It is now thought to be closer to whales and hippos, though as pigs were artiodactyls as well, it makes them a bit close, but still distant.
Cynodictis is said to have lived in Asia and North America, but as explained before, evidence of Cynodictis in Asia is fragmentary and of dubious affinity, while its alleged existence in North America refers to the famous dawn canid Hesperocyon, which some workers treated as a synonym of Cynodictis (which they consider a basal canid instead of an amphicyonid), but later research has generally identified Cynodictis as a bear-dog while Hesperocyon is seen as a valid canid. Likewise, a jaw fragment from America has been used to erect the species "Cynodictis angustidens" but it's considered a nomen dubium for obvious reasons. Strangely, the entry omits Europe, despite the majority of Cynodictis fossils coming from Europe, especially France.
Megalodon is identified as a species of Carcharodon (the same genus that the modern great white belongs), but subsequent studies have agreed that it's actually an otodontid (an entirely extinct lineage of sharks), placing it within either the genus Carcharocles or in Otodus itself (in which case Carcharocles is treated as a synonym of the latter). Its extinction date is also listed as 1.6 mya (the Early Pleistocene) but later studies bumped it down to about 3.5 mya (the Mid Pliocene).
Macrauchenia is said to have first emerged during the Late Miocene (7 mya). However, the only definitive Macrauchenia species currently recognized are the large, Upper Pleistocene M. patachonica (the type species) and the more basal, Upper Pliocene-Lower Pleistocene M. ullomensis, while other purported species have either been deemed nomen dubia or transferred to their own genera (like Promacrauchenia and Huayqueriana), thus making Macrauchenia not much more ancient than Smilodon.
In the summary, Smilodon and Doedicurus are ranked among the Pliocene animals, while the start of the following Pleistocene epoch is listed as 1.8 mya. But later studies have put the start of the Pleistocene at 2.5 mya, thus making Smilodon (2.5 million to 10,000 ya) and Doedicurus (2 million to 10,000 ya) strictly Pleistocene genera, or in the case of Doedicurus, it might have even lasted into the early Holocene (with some fossils possibly being 8,000 to 7,000 years old).
The book states that the latest research rules out the possibility the Neanderthals and modern-type humans interbred, but virtually all subsequent research from 2010 on from sequencing modern human and Neanderthal DNA has indicated the exact opposite, that they interbred extensively and nearly all living humans have Neanderthal DNA.
The last entry in the book is the then-recently discovered Homo floresiensis, which was initially found to have survived very recently, said to be died out only 13,000 years ago. Closer examination of its fossils pushes back the last known H. floresiensis fossils to a considerably older age of 190,000 to 50,000 years ago.
The Tree of Life at the end has numerous errors aside from those already stated regarding the classification of various groups:
- Basal archosaurs are noted in brackets as "thecodonts", a group now known to be a wastebasket taxon and since discarded from common use due to being unhelpful and misleading.
- Anomalocarids are stated to have died out in the Cambrian, but fossils of anomalocarid species have since been found in subsequent time periods, and they survived up until at least the Early Devonian.
- Placoderms are shown dying out at the end of the Devonian, but we now know that modern jawed fish descend from them, so they never really died out.
- Non-mammalian cynodonts are shown to have died out in the Early Jurassic, but they are now known to have survived until at least the Early Cretaceous, possibly up until the K-Pg boundary, or even into the Eocene if gondwanatherians are actually non-mammalian.
- The mammal chart is utterly nonsensical by modern standards, as it just shows various placental groups erupting willy nilly from an enigmatic common ancestor rather than accurately depicting the relationships between the groups.
- The group includes "insectivores", "creodonts", and "leptictids", groups with have since been found to be wastebasket taxa, the latter two being probably paraphyletic. Leptictids are also shown as placental mammals, but some studies find them as non-placental eutherians.

Walking with Dinosaurs: The Evidence

When discussing Peteinosaurus in "New Blood", it's mentioned how many other Triassic reptiles evolved to be gliders but pterosaurs were the only ones to achieve powered flight. One of the alleged gliders is a reptile who glided with the aid of "long scales" that grew out of its back◊, clearly referring to Longisquama. While still an enigma, the idea that Longisquama was a glider is now considered quite fanciful and unlikely, and the strange appendages growing out of its back were most likely a display feature akin to a peacock's tail◊ (some even suggested that they weren't part of the animal but rather impressions of plants, though that has been disputed).
The closing page for the "New Blood" section states that non-mammalian cynodonts became extinct in the Early Jurassic, although it does cite the dubious fossil Chronoperates, from the Late Palaeocene, as a possible late-surviving cynodont. Both interpretations are now thought to be incorrect; non-mammalian cynodonts are now known to have persisted until at least the Early Cretaceous with Fossiomanus, and possibly the haramiyids (and if gondwanatherians are haramiyids, this would suggest their survival until at least the end of the Mesozoic), while Chronoperates is now thought to possibly be a late-surviving symmetrodont mammal.
The entry on sauropod size mentions the obscure taxon Amphicoelias fragillimus, known only from a lost partial vertebrae, as possibly being the largest ever animal. This species was renamed Maraapunisaurus in 2018, classifying it as a potential rebbachisaurid instead, which have comparably very tall vertebrae. Its possible measurements of 60 metres and 150 tonnes have been reduced to 35 metres and 70-80 tonnes from this classification; still gigantic for any land animal, but within the upper limits known from other sauropod taxa.
The book states that evidence of aggressive interactions between Allosaurus and Stegosaurus are lacking, but a 2005 study found evidence indicating gouges in bones of both species from attacks. A Stegosaurus plate with a chunk taken out of that fits the jaw of Allosaurus, and a Allosaurus vertebrae with a puncture hole in it that perfectly fits a Stegosaurus tail spike (with an ensuing bone infection around the hole indicating the damage occurred when the animal was alive).
The depiction of Torosaurus using their horns in intraspecific combat was partly based on a 1990 study by Thomas Lehman suggesting there was sexual dimorphism amongst Triceratops. However this "sexual dimorphism" was largely discredited in a 2009 study which showed that the two different forms were in fact different species (T. horridus and T. prosus) that are chronologically separated in the fossil record (they did not coexist, one likely evolved into the other). That said, horns being used for fighting amongst themselves is still plausible, even if there's no conclusive evidence of sexual dimorphism in any ceratopsian.
The section on the depictions of Australian pterosaurs in the episode "Spirits of the Ice Forest", it mentions an unnamed Brazilian pterosaur with Ornithocheirus-like teeth and a Pteranodon-like crest. This has since been named Ludodactylus ("toy finger", after the fact it strongly resembles the made-up pterosaur chimera of Pteranodon with teeth in pop culture) in 2003.
The book mentions the existence of Ornithocheiridae, but the validity of this grouping is controversial and many species formerly assigned to it have since been moved to new groupings. Even the species featured in the show, Tropeognathus mesembrinus, has been reclassified as part of Anhangueridae.
The entry on Deinosuchus brings up how the giant croc might have hunted tyrannosaurs, citing a specimen of Albertosaurus that bears tooth marks attributed to a Deinosuchus. This is referencing a tyrannosaur specimen from the Demopolis Chalk Formation in the Eastern United States first found in 1982, which was tentatively attributed to Albertosaurus due to having a similar gracile build, but in 2005, it was properly described as a distinct taxon, Appalachiosaurus montgomeriensis (and a juvenile one at that), and later cladistic analyses found it to not even be a proper tyrannosaurid and that it might represent a different lineage of tyrannosaurs unique to Appalachia (which was cut off from Laramidia for tens of millions of years due to the Western Interior Seaway).
The Didelphodon appearance and behaviour in the episode is heavily based on the Tasmanian devil, because, as a similar-sized carnivorous metatherian with powerful jaws, it was considered the closest living ecological equivalent. This includes Didelphodon being depicted as strictly solitary and violently territorial. Aside from the aforementioned fact a much more complete Didelphodon fossil has found it was not as robustly-built as previously believed, a 2009 study indicated that Tasmanian devils are far more social than previously believed, not defending territories, forming communities of unrelated adult individuals, and feeding communally. This doesn't necessarily preclude Didelphodon being solitary, but of course the fact it wasn't like a Tasmanian devil anatomically either makes it inaccurate either way.
In the entry about Utahraptor, it's mentioned that giant dromaeosaurids are also known from Mongolia and Japan, the latter referring to Fukuiraptor, which was named the same year the book was published (2000), but upon its description, the initial notion that it was a large dromaeosaurid was dismissed and it was identified as an allosauroid instead, before eventually being recognized as a megaraptoran in 2009. Actual dromaeosaurid material was mixed up with Fukuiraptor before the latter was named but remains to be properly described.
When talking about predation on Iguanodon, they mention one specimen of Iguanodon that was found in association with a Neovenator on the Isle of Wight. That particular specimen (MIWG 6344) would later be classified as a specimen of Mantellisaurus (one of many taxa that were split from Iguanodon in the late 2000s) before being named as the holotype of its own genus in 2021, Brighstoneus.
Muttaburrasaurus is said to have been found in both Queensland and New South Wales, which is cited as possible evidence of migratory behavior. However, the fossils from the Griman Creek Formation of New South Wales only consist of isolated teeth and a scapula (a shoulder blade), which have been deemed to be an indeterminate ornithopod due to their fragmentary nature, thus Muttaburrasaurus is only conclusively known from Queensland (the Allaru and Mackunda Formation).
The prologue for "Death of a Dynasty" briefly mentions how tyrannosaurs never ventured into the southern landmasses and suggests that this might have been because the local abelisaurs were just as big and fearsome. This seems to be referencing a controversial idea from the '90s which proposed that southern carcharodontosaurs such as Giganotosaurus were part of the abelisaurs (later finds confirmed that they were derived allosaurs and had relatives in the north). ^note Several fossils formerly identified as carcharodontosaurs, however, would eventually be reclassified as megaraptorids, and it turns out that the last of those were just as big as tyrannosaurs, resulting in a possible case of Accidentally-Correct Writing.
The Torosaurus entry states that the only land animals known with bigger skulls are some other horned dinosaur species. This probably refers to a Pentaceratops skull that was reported by Thomas Lehman to have a 2.9 metre long skull in 1998 (it was later renamed Titanoceratops, but this reclassification is controversial), but this was downsized in 2011 to being "merely" 2.65 metres long, while even larger Torosaurus skulls have been found since, including one 3 metres long, making it still the land animal with the largest known skull.

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The Pachyrhinosaurus species which inhabited the Prince Creek formation are classified as Pachyrhinosaurus perotorum. However, the Pachyrhinosaurs in the film more closely resemble Pachyrhinosaurus lakustai, which lived further south in Alberta.
In 2014 a year after the movie came out the Alaskan Gorgosaurus was reclassified as a new tyrannosaur species Nanuqsaurus. The latter also turned out to be a tyrannosaurine (robust tyrannosaurids) instead of an albertosaurine (gracile tyrannosaurids), more similar to Daspletosaurus or a smallish T. rex than Gorgosaurus.
Chirostenotes is another anachronism in this setting, as it's only known from the upper Campanian. But for the longest time, several specimens from the Maastrichtian were referred to this genus, before getting reclassified as Epichirostenotes (2011) and Anzu (2014) respectively.
Mere days before the movie premiered, it was discovered that Edmontosaurus had a small fleshy crest on its head. Or at least one species, E. regalis, did (this is the species most likely depicted in the film, as the other Edmontosaurus species, E. annectens, is only known from fossil formations much younger than the other dinosaur species in the movie).
A 2016 study suggested that the Alaskan Edmontosaurus may be its own genus, Ugrunaaluk; although a subsequent study in 2017 disputed this.
A study in 2017 has established Troodon to be a dubious taxon due to being only known from a tooth, a similar case with such dubious taxa as Trachodon or Monoclonius. The same study also re-established Stenonychosaurus as a valid genus again, due to being known from better remains (which were formerly assigned to Troodon). The Troodon in the film would have been better termed as Stenonychosaurus instead.
Later studies have indicated that the Alaskan dinosaurs (including Pachyrhinosaurus and Edmontosaurus/Ugrunaaluk) were probably present in the region year-round and did not migrate.

Science Marches On / Walking with…
aka: Sea Monsters

Walking With Dinosaurs

Walking With Beasts:

Walking With Cavemen:

Walking With Monsters:

The Ballad of Big Al

Chased by Dinosaurs:

Sea Monsters:

The Complete Guide to Prehistoric Life:

Walking with Dinosaurs: The Evidence

Walking with Dinosaurs 3D

Alternative Title(s): Walking With Beasts, Walking With Monsters, Walking With Cavemen, Chased By Dinosaurs, Sea Monsters, Walking With Dinosaurs

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Science Marches On / Walking with… aka: Sea Monsters

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Walking With Dinosaurs

Walking With Beasts:

Walking With Cavemen:

Walking With Monsters:

The Ballad of Big Al

Chased by Dinosaurs:

Sea Monsters:

The Complete Guide to Prehistoric Life:

Walking with Dinosaurs: The Evidence

Walking with Dinosaurs 3D

Alternative Title(s): Walking With Beasts, Walking With Monsters, Walking With Cavemen, Chased By Dinosaurs, Sea Monsters, Walking With Dinosaurs

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Index

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Science Marches On / Walking with…
aka: Sea Monsters