There have been a lot of tweets, blog words, column inches and TV time devoted in the last few days to the notion that Discovery’s Shark Week may have, ahem, jumped the shark. Good, I’m glad we’re having that conversation because it needs to be had. That said, the mockumentary Megalodon: the Monster Shark Lives was the single highest rated Shark Week special ever, like ever in 26 years. If you were an exec at Discovery, would you overlook that stellar result just because some people whined about it on Twitter? Er, I think not. I doubt we will see a reversal of the direction Shark Week is headed, because it’s a pattern echoed across the cable networks. Before HLN became the home of <insert this weeks salacious courtroom drama here>, it used to be CNN Headline News, where they played, y’know, headline news, in a helpful repeating loop. Before Honey Boo Boo moved in, TLC was The freakin’ LEARNING Channel. The only thing I’ve learned TLC lately is how to find the off switch. And as for H2, don’t get me started on Ancient Aliens and Countdown to Apocalypse… Perhaps the cable networks ought to just stop abbreviating these channel names, because in doing so they seem to forget, quite literally, what they stand for.
Given that things are not likely to change anytime soon, I propose we all do our bit to make Shark Week a bit more like it used to be, like we want it to be. It may have started as a Discovery marketing initiative, but like all good cultural phenomena it has long since grown beyond its origins and I think it’s fair to say Shark Week now lives in the minds and hearts of a curious and passionate public with a burning desire to know about and connect with one of the planets most incredible groups of animals. To that end, here’s 5 cool things about sharks I doubt you’ll see on TV this week.
1. They can ungrow
Wait, what? Ungrow? Like, shrink? Yes, exactly, a shark can be shorter next year than it is this year; this has been documented for several different species in wild and captive settings. How is this possible and under what possible conditions could it be helpful? Well, the answers to those two questions aren’t known for sure but we can wax hypothetical about how and why. The key to the how lies in the cartilage skeleton that is common to all sharks and rays. Much moreso than bone, cartilage is a dynamic tissue. Cells called chondroblasts and chondroclasts are scattered throughout the cartilage and they make and destroy it in a process of continuous regeneration and remodeling. This is much harder to do in bone, which does have analogous cells (osteoblasts and osteoclasts) but they have to deal with a rigid crystalline calcium phosphate matrix, which is harder to remodel than soft squidgy cartilage. Combined with some atrophy of muscle and organ cells, you can see how it might be possible for sharks to become smaller if conditions demanded it, such as food shortage or environmental changes. Very handy indeed.
2. The teeth of a great white are probably the most boring shark teeth there are
Before you do a Lumberg on me, check out these bad motor scooters:
Among the 400 or so species of sharks that currently swim the ocean, there exists a bewildering array of such tooth structures. In fact, it’s probably been one of their keys to success, because it has allowed them to feed on a huge diversity of prey items, everything from microscopic plankton to the toughest bottom dwelling invertebrates, all the way to the fatty and juicy mammals that take up a disproportionate amount of the Shark Week air time.
3. Their teeth are the least interesting part of their gastrointestinal system anyway.
There are three species of filter feeding sharks, the whale shark, basking shark and megamouth. The first two of these are also the biggest and second biggest of all sharks, by a LOT. Whale sharks get as big as Cacharocles megalodon ever did. Chew on that for a bit (well, gum it really; they have tiny, ineffectual teeth). The fact that, among a class of predatory fishes, filter feeding habits arose not once but THREE times during evolution, with different mechanisms each time, blows my mind regularly.
The filter pads of whale sharks deserve special attention in this regard because they are really something else. Derived from the leading edges of the gill rakers inside the mouth, they have become so highly branched and interwoven that the gills cannot be separated to allow bulk water to flow out through them (this is not the case for basking sharks, megamouths, or manta rays for that matter). The average pore size in the whale shark filter pad is 1.9mm, and yet they can filter out food items that are much smaller through a near-magical process called cross flow filtration. It’s one of the true marvels of evolution.
The gut of many sharks is a completely unique design called a spiral valve intestine. It’s basically a spiral waterslide for your lunch. Winding but regular, long yet compact, it’s a terrific design that natural selection has hit upon, and not found in any other group except in some holocephalan fishes, which are closely related to sharks. If you ever did find yourself in a stomach of a shark, at least you know your last act on this earth would be a wicked fun trip down a spiral slide to bum town. Wheeeee!
4. Males? Who needs ‘em?
Bonnet head sharks, a smaller cousin of the hammerheads have been proven to reproduce at times by parthenogenesis, that is, without sex between males and females. In these cases, all of which have taken place in public aquariums, all female groups added to the collection as pups have grown up and spontaneously produced pups of their own, without ever having been kept with a male. Through a clever process of restoring the full complement of chromosomes after producing eggs (which normally have half), females are able to produce offspring under certain conditions without the need for a male to donate the half of genetic material usually supplied by sperm. Why they do this is not clear, but it may be an adaptation for tough times when males are scarce or populations are small, the former being likely with the latter too.
5. Zebra sharks aren’t, really.
Zebras that is. Not when they’re adults anyway. Fully grown Stegostoma fasciatum are a creamy colour with brown spots. In that regard, their scientific name (Stegostoma = covered mouth, fasciatum = striped) isn’t particularly accurate.
But when you see the babies, it makes a whole lot more sense:
What an utterly gorgeous animal! Completely harmless, like 99% of shark species (really), aesthetically pleasing and with a curious and fascinating secret of changing from stripes to spots as they grow. The class of fishes we call “sharks” are full of such amazing gems, if only the makers of pseudo-nature TV would stop obsessing over the 4 species that, on vanishingly rare occasions, have hurt people, maybe we could teach people about the rest of these spectacular natural treasures before they all disappear because we were too busy watching the wrong ones.