Let's see if I can squeeze a post out before England comes home in a few hours. It'll be a short post, kind of a pre-post to the upcoming finale.
Recap
Last time I discussed one thing that makes us Great Apes unique among the rest of the animal kingdom, particularly among other mammals: Colour vision, particularly in the form of Trichromacy. We originated with tetrachromacy and dropped two sets of colour genes to end up with dichromacy but only apes managed to re-evolve a third pigment gene to give us the vision we enjoy today.
But one other thing I pointed was how much trouble taxonomists were having putting animals into separate groups. What makes one group of animals unique to the rest enough that they can get their own special category? For Apes it's kind of difficult because although most apes have obvious distinguishing features, almost all of them can be seen in at least one other non-similar mammal, and, well, it just gets complicated.
So how are apes categorised?
The Road to Humanity
About 70 million years ago, animals like treeshrews and lemurs broke off and left us in what we call the 'Primate' group. From here, Tarsiers broke away about 60 million years ago, and 40 million years ago saw the departure of New World Monkeys.
The blink of an eye, that.
Catarrhini
More recently about 25 Mya, we ironically grouped things into 'Old World Monkeys', within the Catarrhini clade, which translates literally to 'down nose', referring to our downward facing nostrils rather than our obnoxious outlook on the rest of nature. Apes are a sister group with Old World Monkeys within this clade. Our collective flat noses turned out to be the defining feature that separated us from the New World Monkeys, who were described as 'flat nose' or platyrrhines.
But Catarhhines also lack prehensile tails - no exception, surprisingly. We also have fewer teeth with only 8 molars instead of 12, flat fingernails, substantial sexual dimorphism and a few other features as such.
At this point in the evolutionary tree, you can turn right and follow evolution to things like baboons and macaques, but turning left will bring you to the Ape category itself around 18 Mya.
Hominoidea
All apes, be it lesser or great, are native to Arica and Southeast Asia. As you may understand, apes are not actually an old world monkey, but a sister to them. Apes evolved a new form of transport some 18 million years ago called Brachiation - Arm swinging. You see this most famously among the gibbons which you can enjoy here:
Oh wait, maybe that was a human... well google Gibbons yourself, they're amazing and spend 80% of their entire lives in this state of brachiation.
Gibbons are the only extant species remaining that are true brachiators and apes only function as 'modified' brachiators (see above). This is because, though we're not very much designed for it, evidence does make it somewhat clear that our ancestors enjoyed this superior method of locomotion, such as our ball & socket shoulder joints and grabby hands.
I guess we just found it easier to lumber around on our hind feet at frustratingly slow speeds.
Hominidae
Here we have our next and penultimate step to humans. 14 million years ago, this family evolved and today only 8 species still exist, which you can probably name from memory. Have a go before checking below:
- Humans
- Sumatran Orangutans
- Bornean Orangutans
- Tapanuli Orangutans
- Eastern Gorillas
- Western Gorillas
- Chimpanzees
- Bonobos
Good job!
Gorillas split first around 1.78 million years ago, followed by chimps about 1.6 along with the bonobo thanks to a river divide causing speciation between them. Orangutans, although only 1.3 million years in the making, spit from an earlier ancestor that split from us over 16 million years ago. This means that the three Orangutan species are the only great apes that do not fit into the final category: Homininae
And here we are. End of the Line.
From here there are no more groups, just You, Me, the Chimp and Bonobo. This is an unsatisfying end to this series since we still haven't managed to define humans specifically apart from chimps and bonobos, and to a lesser extent, gorillas. So this is something I'll finish the series off with next time.
I want to end today with a sobering sight on the reference website I use to follow the tree down to the end:
Extinction
Somewhere along the line towards the end, everything started looking pretty endangered, so I browsed around the area and this is what I found according to their conservation status:
- Humans - Least Concern
- Sumatran Orangutans - Critically Endangered
- Bornean Orangutans - Critically Endangered
- Tapanuli Orangutans - Critically Endangered
- Eastern Gorillas - Critically Endangered
- Western Gorillas - Critically Endangered
- Chimpanzees - Endangered
- Bonobos - Endangered
- 13/17 Gibbon species - Endangered
- 4/17 Gibbon species - Critically Endangered
The list goes on as shown by the red leaves below:
Zoos are gonna be pretty boring for our grandkids, that's for sure.
References:
Catarrhini | The lorisiform wrist joint and the evolution of “brachiating” adaptations in the hominoidea | Hominidae | Onezoom interactive tree