Wednesday, August 07, 2024

Extinction and Escalation c 69 Ma

Previous posts mentioned the demise of centrosaurines and survival of chasmosaurines. This post examines the actual transition, around middle Maastrichtian time, and the specific taxa involved. It is interesting that well-armed chasmosaurines--forerunners of Triceratops--appeared concurrently, more or less, with the disappearance of the last centrosaurine. And both coincided with the advent of the archpredator.

Known from a high latitude paleoenvironment (in Alaska) Pachyrhinosaurus perotorum was the last species of its genus, and the last of the centrosaurines. P. perotorum vanished around 69 m.y.a. It's noteworthy that Tyrannosaurus first appeared around this time. Tyrannosaurus replaced Albertosaurus, which apparently disappeared c 69 m.y.a. Clearly, this represented predator escalation; a quantum leap in the threat level facing herbivores. Chasmosaurine escalation was in response to it. Apparently unable to adapt in time, P. perotorum succumbed.

At least four chasmosaurine taxa lived right after P. perotorum. Presumably the four evolved as P. perotorum vanished, and outlasted it. Discovered in the uppermost Horseshoe Canyon, Eotriceratops clearly anticipated Triceratops. So did the roughly coeval SW taxa Ojoceratatops and Torosaurus utahensis. Another close relation, Regaliceratops, differed from the other three in that it resurrected the prominent nasal horn of Styracosaurus. In other words Regaliceratops converged with centrosaurines--not the deescalated later ones but the well-armed taxa preceding them. Although atypical for a chasmosaurine, a prominent nasal horn was a good antipredator weapon. No doubt, Regaliceratops was better able to withstand the archpredator than the virtually hornless P. perotorum. It does not, however, appear widespread or numerous, hence not as successful as the lineage with large orbital horns, culminating in Triceratops.

This intepretation has a potential problem: Apparently known only from the SW or Alamosaurus bearing units at first, Tyrannosaurus may not have impacted mid Maastrichtian taxa in northern areas. At least two of the chasmosaurines, however, Ojoceratops and Torosaurus, existed in the SW. The similarity of Eotriceratops to these genera suggests interaction with the more southerly faunas (which as the North Horn indicates, extended northward, perhaps even farther than Utah). Like Torosaurus, Eotriceratops may have ranged into both northern and southern biomes. Ceratopsians probably migrated regularly in search of food, hence were exposed to the archpredator in some areas even if they weren't affected in all of them, initially. As for P. perotorum, its far northern location didn't ensure safety from Tyrannosaurus. Like other ceratopsians, P. perotorum probably migrated southward. In addition, the archpredator is thought to have entered Laramidia via the Bering area, in which case the Alaskan habitat of P. perotorum may have been the first to be affected.

Eotriceratops. A forerunner of Triceratops, Eotriceratops lived around 68.8 m.y.a.--essentially at the same time, or right after, the last centrosaurine disappeared (c 69 m.y.a.). As was noted in previous posts, the centrosaurines were at a disadavantage because they had evolved a nasal boss, from which it was apparently impossible to re evolve a nasal horn. In contrast chasmosaurines, retaining horns since the Campanian, simply improved upon their defense.
Ojoceratops a taxon of about 68 m.y.a.
Holotype skull of Regaliceratops, showing the prominent nasal horn. It may have lived 68.5 m.y.a. or soon after the faunal turnover spurred by Tyrannosaurus.

15 Comments:

Anonymous Neal Eugene Robbins said...

Pachyrhinosaurus was obviously not a match for large theropods such as Tyrannosaurus. The development of adequate defenses was essential for survival, and it did not occur quickly enough for Pachyrhinosaurus. Substantially sized ceratopsians, for example, Triceratops, had a better arsenal, i.e. strong horns. Of course, traveling in groups was also beneficial, but if more than one Tyrannosaurus showed up, things got more difficult for the ceratopsians. Even a large ceratopsian was vulnerable if weakened by an injury.

9:00 AM  
Blogger starman said...


Hi Neal,

Defense may have been one reason for gregarious or herding behavior, and it may be confirmed by ceratopsian bonebeds. I tend to focus more on individual prowess--or lack thereof--though.



August 7, 2024

10:27 AM  
Anonymous Neal Eugene Robbins said...

I agree that individual prowess was important. An individual could get into a situation where it was alone, for example, if other members of a herd were killed in a catastrophe, for example, drowned in a flood. Some individuals may have simply decided to leave a herd, either permanently or temporarily. When alone, a ceratopsian had to be able to defend itself against large predatory theropods.

10:48 AM  
Blogger starman said...

I'm not sure other members of a herd would do anything if an individual came under attack.
Btw how do you like the new look of this place?

August 8, 2024


12:39 AM  
Anonymous Neal Eugene Robbins said...

I like the look of it. This site has a sharp appearance.

4:27 AM  
Blogger starman said...

I like the new look of the comments section.
Getting back to Dinos: herding may have achieved little if the members had inadequate defenses, and the archpredator hunted in packs.

August 8, 2024

4:40 AM  
Anonymous Neal Eugene Robbins said...

I think that a small pack would have been especially inadequate. If multiple predators were involved in an attack, even a large group would not have been sufficient. I think that predatory theropods were the main threat. I doubt that crocodylians would have gone after ceratopsians to any substantial extent.

4:53 AM  
Blogger starman said...


Deinosuchus may have attacked and eaten ceratopsians but not as often as tyrannosaurs as it was an ectotherm.

August 9, 2024

1:03 AM  
Anonymous Neal Eugene Robbins said...

I agree, if Deinosuchus and other crocodylians ever attacked ceratopsians, it would have been not so frequently. Some small carnivorous theropods may have gone after an individual ceratopsian, especially if it was disabled or a juvenile. I think that would have been especially likely if the small theropods were in a group.

5:52 PM  
Blogger starman said...


Deinosuchus might have preferred hadrosaur prey, or dinosaur juveniles of all kinds. But I have no doubt it was opportunistic and attacked ceratopsians which came to the water's edge for a drink. Crocs occasionally attack rhinos, even elephants, under those circumstances. It's likely small theropods, possibly dromies, raided ceratopsian nests.


August 12, 2024

1:23 AM  
Blogger starman said...

Oh btw Neal, did you see Jupiter and Mars getting closer in the predawn dark? Mars is catching up to Jupiter and will soon pass it. The scene looked beautiful this morning.
As you may have noticed, I revised the post as I almost invariably due after writing a post.

August 12, 2024

1:26 AM  
Anonymous Neal Eugene Robbins said...

I wasn't able to see it here, since it has been raining. I'm sure that the imagery of Mars and Jupiter nearing each other is spectacular. When it gets clear, I will get out my telescope and do some observations. I hope that it will be clear here tonight.

5:04 AM  
Anonymous Neal Eugene Robbins said...

I agree, coming to the water to drink must have been hazardous for ceratopsians if crocs were present at that particular river, lake, or pond.

5:11 AM  
Blogger starman said...

OK best of luck when skies clear. The conjunction is a pretty cool sight.

August 12, 2024

5:59 AM  
Blogger starman said...

Most mesozoic crocs were too small to seriously threaten dinosaurs, except the smaller ones. Deinosuchus was an exception. In South America, terrestrial crocs--Baurasuchids--almost certainly attacked dinosaurs. They may have been the dominant terrestrial predators of Santonian time. Theropods, specifically abelisaurs, regained the top predator niche by about early Campanian IIRC .


August 12, 2024

6:06 AM  

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