In
2009 I wrote about a paper in a Belgian magazine showing models of future animals in the
Brussels Museum of Natural Sciences. The animals later also appeared in Darren Naish'
Tetrapod Zoology blog. For me, discovering the Brussels animals had as an unforeseen effect that I got to know the makers of the models, for whom designing future animals proved to be more than a single occurrence. Marc Boulay and Jean-Sébastien Steyer have been working on a
book on future evolution at least since 1999. The book will be published by Belin in 2014 (in French). There are glimpses of animals as yet unseen by others
on Marc's site, by the way.
Back to the future, or back to Brussels, whatever the case may be. I have now finally visited the museum; it is quite good as Natural History museums go, and specialises in dinosaurs. There is an impressive display of nine mounted specimens of
Iguanodon bernissartensis, and that alone should be worth the visit. Belgium is famous for its rich supply of Iguanodons, found around 1878 in a coal mine.
 |
| Click to enlarge |
As you can see, the Iguanodons are standing upright in the tripod position favoured at the time when the skeletons were mounted in 1883, not with their vertebral columns and tails horizontally as would be the case today. This is not because the museum is not up to date; it is as far as I can tell, so I suppose they are just wary of the cost of remounting various very large dinosaur skeletons. Or perhaps there is a risk of harming the priceless skeletons, or perhaps there is an historical continuity in keeping the Iguanodons mounted according to yesterday's ideas.
The museum has a gallery of evolution, illustrating some major events and their consequences in evolution, such as the developments of eyes, of jaws, of armour and fins. There is a nice video illustrating evolutionary branching, ending for once not with man on top but with many species at the same point in time; if any species is singled out, that is -jokingly- a penguin! At the very end of that gallery there is a small group of models, and those are the animals of the future. That part of the exhibition is rather small and has not got much in the way of explanation. There is a video showing continental drift for the next 50 years, but that is about it. There are no plaques stating what is special about these animals. In fact, I saw a group of children walk by, probably ignorant of the fact that there were fundamental differences between these displays and the multitude of stuffed animals in the museum. There was a sign saying that some items had been removed from the display because of changes being made to the room's climate system; as far as I can tell a snake and a gliding mammal (
Trichopteryx dixoni -surely I do not need to explain
who that animal is named after-) were missing. Perhaps this also explains the lack of explanations. In this post I will add some explanations, obtained in part from the
interview with Jean-Sébastien Steyer in 2009, and to a larger extent directly from his and Marc's comments on a first draft of this post.
 |
| Click to enlarge |
Corticochaeris gouldi
This is a descendant of the capybara, today's largest rodent. It has become larger, with a disproportionate growth in its teeth, head and front quarters. The magazine text states it is a forest dweller, and its colours seem quite appropriate for that, mimicking spots of light falling through a leaf cover.
I had not seen the species' part of the various names before, as these are only mentioned on small plaques in the museum. The species' names reveal something about the designer's taste in biology and illustration, so they deserve mention. The name 'gouldi' is an homage to the late
Stephen Jay Gould. He is considered one of the best writers popularising science of the last century, so I am glad I the designers must have felt similarly.
 |
| Click to enlarge |
Propellonectes russelli
This is a one meter long descendant of the
Northern Giant Petrel,
Macronectes halli. As you can see it has evolved into a large flightless swimming bird, propelling itself with its feet by way of flaps on the toes that no doubt fold back with the feet are pulled forwards and that spread out when the feet move back.
'Russelli' denotes
Dale Russell, the Canadian palaeontologist who proposed that dinosaurs might have evolved into an intelligent dinosauroid.
 |
| Click to enlarge |
Neopygoscelis dentatus
This is a toothed descendant of the penguin species
Pygoscelis papua, so its formal name means 'toothed new brush-tailed penguin'. The teeth are apparently not just serrations of the edge of the beak, but proper teeth: the magazine interview states that birds still have the genes for teeth, and that it is not impossible for these genes to regain their expression.
Neopygoscelis is an impressive four meters long. Its feet have evolved into large paddles and its wings/flippers have decreased in size, it would seem. That is odd: current penguins have very efficient flippers, so I wonder whether their continued evolution would promote feet at the cost of flippers. The animal appears not to need to climb ashore any more, which would certainly free the feet from their current restrictions as walking appendages. That would make them susceptible to evolution in another direction, but a drive towards them serving as propulsion aids has to start with a propulsion advantage right now, not a future advantage its descendants may gain from enlarged feet. Because of that, I would expect the flippers to stay in place as near-perfect propulsion limbs, and the feet would, well, what would the feet do? Turn into rudders? Disappear altogether? Turn into sexual aids? (In zoology that can always happen...)
 |
| Click to enlarge |
In the magazine,
Neopygoscelis was shown in a penguin-like black-and-white coat (top), but in the museum it is an overall grey colour (bottom). With the magazine in the one hand and my photographs of the museum version in the other, it became clear that the two do not represent the same model at all! Jean-Sebastièn and Marc explained that the process of having the digital designs converted into an actual model had to be done in a hurry to get the models ready for the opening of the exhibition. The result of this was that there was unfortunately not enough opportunity for interaction with the model maker, so the museum models ended up rather different from the original designs. I suppose that that explains the 'feet vs. flipper' exchange in size, which probably reflects a choice of the local model maker.
 |
| Click to enlarge |
Helicopodus buriani
For this species and the next, there is nothing in the paper and no explanation in the museum. The model confused me a lot: I could see that it has a segmented body and jointed exoskeletal legs, so it can only be an arthropod. Still, its head looked very unfamiliar, and its eyes certainly look like camera eyes, although it is hard to be certain. Again, it appears that the design suffered from a lack of time for cooperation between the designers and the sculptor. Luckily, I had help from the creators of this odd animal: what we have here is a centipede with a flattened body allowing it to glide through the air. Now that is a neat invention; of course, animals from very diverse groups developed
gliding forms, including mammals, lizards, squid and insects, so why not centipedes?
It really is a pity that the museum provides so little information, not even stating that the animal is a glider! (This is a pet peeve of mine: why do museums usually only provide meagre information at infant level? With modern media it should be possible to provide information on many levels, so visitors should be able to choose the level and extent of information they want!)
'Buriani' refers to
Zdenek Burian, whom I consider to be one of the world's best painters ever of prehistoric life forms (and I am not alone in this).
 |
| Click to enlarge |
Rhombosepia gregaris
The shape and name help here: the 'communal rhomboid-shaped squid'. These are apparently descendants of cuttlefish swimming head first instead of backwards. Drawing attention to 'swimming head first' may seem strange as it seems the normal direction; true, but squid generally swim with their tentacles trailing them, meaning that anatomically they swim backwards. In fact, many can swim either way. Swimming with the tentacles pointing the way means the tentacles have to be pressed together to form a smooth surface so as not to impede movement. As far as I remember, the thing about Rhombosepia was that its tentacles had fused. I did not check that with its inventors, but relearned that from people commenting on my own blog, who had followed links towards more information on this variant of future evolution. When I checked now, many of those links did not work any more. Those posts were only a few years old, and yet the information has been
lost already. With such a quick loss of information in mind, perhaps the
guardians of the Brussels museum did well in keeping their Iguanodons
in their old-fashioned tripod stance. Concepts of Iguanodon stance are
no older than about 125 years, but the skeletons have been underground
for more than 500,000 times that length of time.
Having said that, I still find it very difficult to wait for about ONE more year for the book showing us these future animals...
