By comparing BAR 3877-11 with phorusrhacids known from fairly complete skeletons, we can estimate that it was about 10% bigger than the previously largest known phorusrhacids. But its markedly slender tarsometatarsus indicates that it was gracile, and thus almost certainly not as heavy as the far more robust giant aepyornithids (aka elephant birds, restricted to
This is somewhat misleading however, in that the only reason that some giant phorusrhacids have been thought of as relatively slow-moving is that they belong to that particular robust-limbed subgroup, the Brontornithinae. The biggest brontornithine, Brontornis burmeisteri from the Miocene of Argentina, was also arguably the biggest phorusrhacid prior to the discovery of BAR 3877-11, but its leg bones are immensely wide and stocky for their length, and its tarsometatarsi are between 50 and 60% the length of its tibiotarsi. These features suggest that it was a walking bird, not a runner, and it is on the basis of this that some authors have interpreted brontornithines as scavengers. You’ll know from discussions about tyrannosaurs that a pure scavenging lifestyle is highly unlikely for any flightless tetrapod (for energetic reasons). Sure, they probably did scavenge (you can imagine them trying to scare teratorns, or a group of hyaena-like borhyeanids, away from a carcass), but they probably foraged for live prey of various kinds as well.
Having mentioned teratorns, while they are now known from the Upper Oligocene/Lower Miocene of South America (Olson & Alvarenga 2002), and thus were contemporaneous with brontornithines, the immense teratorn Argentavis is only known from the Late Miocene, and brontornithines are unknown from this time. So, sorry, you shouldn’t imagine Brontornis scrapping with Argentavis. The oldest teratorn, Taubatornis campbelli, is actually from the same unit – the Tremambé Formation – as the brontornithine Physornis brasiliensis. Both lived alongside
Getting back to Chiappe & Bertelli’s claims about phorusrhacid running speed, highly relevant is a recent study specifically devoted to this issue. Based on limb proportions and limb bone strength, Blanco & Jones (2005) estimated the running speed of the mesembriornithine Mesembriornis, the patagornithine Patagornis, and a giant phorusrhacine specimen from the Pliocene or Pleistocene of Uruguay. This latter bird (significant in being the youngest phorusrhacid from
Unsurprisingly, Blanco & Jones (2005) doubted if their predictions were accurate and they wondered if the unusual bone strength of some phorusrhacids – Mesembriornis in particular – might be related to something other than running speed. Could it be something to do with kicking? Based on the forces needed to break bones, they showed that Mesembriornis would be able to produce a force of over 2000
The foot claws of some phorusrhacids also support the idea that they used their feet in maiming or killing as the claws are laterally compressed, curved and sharp-tipped. That’s not necessarily the normal morphology for predatory birds, as many cursorial birds (and non-avian theropods) actually have rather blunt, stout foot claws. Tonni & Tambussi (1988) described the foot morphology of the Miocene psilopterine Psilopterus and showed that its foot claws were nearly identical to those of the living seriema Cariama cristata.
What’s interesting about this is that the second toe claw in Cariama is slightly enlarged relative to those of digits III and IV (as you can see from the very poor accompanying photos). Seriemas reportedly use the claw to aid in tree-climbing, and I’d like to know if they use it in attacking or killing prey. A great many other birds, including raptors and many passerines, have similarly enlarged claws on digit II however. I’ve previously been guilty of comparing this ‘enlarged’ claw with the raised sickle-claw seen in dromaeosaurids and other Cretaceous theropods, but what we have in phorusrhacids and seriemas clearly isn’t as elaborate, so there’s no indication that they used it to slash open the bellies of prey or anything like that (and here I’ll avoid the debate about the function of sickle-claws*). I doubt if even small phorusrhacids climbed trees, so presumably they used the claw in dispatching or manipulating prey.
* A recent study has claimed that sickle-claws could not function as slashing or stabbing weapons, but were perhaps used instead as climbing crampons, enabling dromaeosaurids to climb the bodies of their prey. I feel that there are major flaws in this study and that its conclusions are erroneous (see comments in Naish 2006).
While conventionally regarded as South American birds, there have been occasional reports of phorusrhacids from elsewhere. Two supposed European members of the group, Ameghinornis minor from Eocene-Oligocene France and Aenigmavis sapea from Eocene Germany, were identified in the 1980s (actually, Ameghinornis minor was first described [as Strigogyps minor] in 1839, but its new name and proposed affinity to phorusrhacids weren’t published until 1987). Both were weakly flighted or flightless birds about the size of a partridge.
Given that a few other Eocene European tetrapods have been suggested to be particularly closely related to South American taxa (namely the ratite Palaeotis, the peradectine opossums and the supposed anteater Eurotamandua), Ameghinornis and Aenigmavis were thought to perhaps indicate that phorusrhacids had originated in Europe and later spread (via Africa) to South America (Peters & Storch 1993). However, reanalysis has shown that both names are best regarded as junior synonyms of Strigogyps, and furthermore that Strigogyps differs significantly from phorusrhacids in lacking the derived characters that unite the members of this group (Mayr 2005). We’re not actually sure what Stigogyps is (though its tarsometatarsus is similar in some details to that of a trumpeter), but its re-evaluation strikes phorusrhacids off the list of European fossil taxa. Incidentally, there are unpublished Palaeocene and/or Eocene fragments from
I should point out that the other European Eocene forms previously regarded as being of South American affinity have also been reinterpreted. Palaeotis, a small ratite argued by some to be a stem rhea, has more recently been found to be outside of the clade that includes rheas, ostriches, cassowaries and emus. Peradectine opossums may or may not be of South American origin: however, by the Eocene they occurred in
What is almost certainly a non-American phorusrhacid was reported in 1987… from the Eocene of Antarctica (Case et al. 1987). Known only from the anterior part of the premaxillae, the specimen must have belonged to a reasonably large bird, but not much more than that is known about it. Older phorusrhacids are known from the Palaeocene of South America, so the specimen does not demonstrate that phorusrhacids originated in
An interesting parallel is provided by the fossil record of sloths, as while long regarded as of South American origin, the oldest sloth is a Middle Eocene fossil from
More to come…
Refs - -
Blanco, R. E. & Jones, W. W. 2005. Terror birds on the run: a mechanical model to estimate its maximum running speed. Proceedings of the Royal Society of
Case, J. A., Woodburne, M. O. & Chaney, D. S. 1987. A gigantic phororhacoid(?) [sic] bird from
Chiappe, L. M. & Bertelli, S. 2006. Skull morphology of giant terror birds. Nature 443, 929.
Mayr, G. 2005. “
Naish, D. 2006. The Carnivorous Dinosaurs [review]. The Palaeontology Newsletter 62, 122-126 [free pdf available here].
Olson, S. L. & Alvarenga, H. M. F. 2002. A new genus of small teratorn from the Middle Tertiary of the Taubaté Basin, Brazil (Aves: Teratornithidae). Proceedings of the Biological Society of
Peters, D. S. & Storch, G. 1993. South American relationships of Messel birds and mammals. Kaupia 3, 263-269.
Tonni, E. P. & Tambussi, C. P. 1988. Un nuevo Psilopterinae (Aves: Ralliformes) del Mioceno tardio de la Provincia de
Fascinating. And it's nice to know there's a silver lining to global warming! (also ironic, just in case someone misses it...)
ReplyDeleteMammalocentric views. An avian cheetah? No, it must be a stomper.
ReplyDeleteKnowing the potential prey would help a lot.
"Peradectine opossums"... I don't know if they share anything but plesiomorphies with Didelphidae. Some call them "Peradectidae" and include "Alphadontinae" in them -- means, they are far outside the marsupial crown-group and never reached South America. But, again, I don't know where that interpretation comes from either.
ReplyDeleteOn peradectines, actually, Peradectes has been reported from the Upper Cretaceous and Lower Palaeocene of South America, but I have no idea whether these records are accurate. As I said in the post, assuming that peradectines are a clade, it isn't clear from their fossil record whether they originated in North or South America (there are Upper Cretaceous North American records of Peradectes, from the Fruitland Formation for example), hence my scepticism about using them to link the European and South American Eocene faunas.
ReplyDeleteAs for whether peradectines are really opossums (as in, true members of Didelphidae), you are right that this classification is probably based on plesiomorphies. Most authors continue to regard all Palaeogene 'didelphids' (alphadontids, peradectines and herpetotheriines) as didelphimorphians, and hence as crown-group marsupials, but I'm not aware of any recent phylogenetic studies on the phylogenetic position of these groups (at least, not without checking the literature).
Great stuff, Darren. BTW, when you say "Seriemas reportedly use the claw to aid in tree-climbing", how EXACTLY do they do this? I've read this statement in other sources, but there was no details on how an enlarged inner claw actually helps climbing. Climbing what - trunks, branches, ...?
ReplyDeleteConsidering the large, graviportal brontornithines and their likely impressive kicking abilities, I wondered. Is it possible that these likely slow but extremely strong predators hunted prey that was slow and extremely strong as well? I was thinking about brontornithines hunting glyptodonts by simply walking up to them and kicking through their armour! Or might they even have used those powerful legs to flip glyptodonts over?
ReplyDeleteI'd like to know if you think this idea is worth anything.
Brian: good thinking, and testable. So far as I know there isn't any limb-bone strength data on brontornithines, but it should be possible to obtain it. There is, however, strength data on glyptodont shells. Check out..
ReplyDeleteAlexander, R. M., Fariña, R. A. & Vizcaíno, S. F. 1999. Tail blow energy and carapace fractures in a large glyptodont (Mammalia, Xenarthra). Zoological Journal of the Linnean Society 126, 41-49.
Fariña, R. A. 1995. Limb bone strength and habits in large glyptodonts. Lethaia 28, 189-196.
Do you fancy a research project? (not that I'm offering one, but you get the idea). I might ask Richard Fariña what he thinks.
Well, I'm not a scientist or even scientifically educated person myself and as such, I would probably do the research incorrectly. To be honest, I wouldn't even know where to start such a research, especially when there are no relevant data for brontornithines available.
ReplyDeleteI would however feel honoured if you asked mr. Farina what he thinks about my theory. (if it can be labeled as such)
I will try to find the glyptodont-references you mentioned. Thank you for providing them.
The 'hoatzins of doom'-subject, I guess this refers to that wild theory by Storrs Olson? For the sake of people that are reading this and might not know what I'm talking about, I shall not give away more, as I expect you will provide the information in the post when it's ready and done.
I don't know if you are supportive of his theory, but one should take the recent evidence for Metaves and Coronaves in mind when considering it. I'm sure you will, though.
Looking forward to your next post, as always.
Response to Brian: yes, 'hoatzins of doom' does involve Storrs Olson (note that many people are already fairly familiar with the theory that I'm going to be discussing).
ReplyDeleteAnd, for everyone who keeps asking, DON'T WORRY - the metavian-coronavian division IS relevant, and will be discussed in the post (err, now two posts). Stay tuned.
I have also thought about the lifestyle of Brontornis, and it is really highly unrealsitic that it was a full-time scavenger (for some strange reason many paleontologists seem to have the affinity to label carnivorous animals as scavengers if they have "too strong" or "too weak" jaws, strange teeth or other unusual features, but this is another topic...), but a predator. Slow giant ground sloths with their armored skin could be als prey animals of a giant robust terror-bird.
ReplyDeleteIam doing the phorusrhacos as a school report.
ReplyDeleteLora