Posts Tagged ‘summary’

Vampire squid on Occupy Wall Street, biology of Vampyroteuthis infernalis

// December 14th, 2011 // Comments Off on Vampire squid on Occupy Wall Street, biology of Vampyroteuthis infernalis // The Realm of Bizzare

Occupy Wall Street protesters took up arms – eight of them – in their march on Monday. Carrying craftastic models of vampire squid high above their heads, in homage to Matt Taibbi’s description of the bank as “a great vampire squid wrapped around the face of humanity, relentlessly jamming its blood funnel into anything that smells like money” in Rolling Stones, 2008.

Harsh words, right? I mean, vampire squids are totally awesome!

The vampire squid inhabits the cold, high-pressure environment of the deep sea. Light is absorbed by the water, making it perpetually twilight. A vampire in twilight, that’s not horrifying, that’s dreamy, amiright? Don’t hit your head if you swoon.

We don’t know much about these little dudes because they dwell in that most mysterious of spots, the deep sea. Vampyroteuthis infernalis means vampire squid from hell, but it’s not even technically a squid. Or an octopus. It’s got an order all of it’s own.

They have a consistency similar to a jellyfish, quite gelatinous. Like many jellyfish, it swims by shooting out a jet of water behind it to propel it forward, but it has a couple of fins for manouvering. It has eight arms and two extra arms which hide in its ‘pockets’ and can extend the length of its body when needed.

This National Geographic vid is pure pirate gold for high quality images of the creature.

They hold the title for the largest eyes relative to their body. An individual about six inches long has an eye an inch across, about the same as a full-grown dog. All the better to see you with, my dear. They also have a receptacle behind their eye for spermatangia, the tough sac of sperm ejaculated from the specialised arms of a lover. Just imagine date night

The most brilliant behaviour is their bioluminescence. These guys glow!

When startled, squid may shoot out ink to confuse predators. That’s not much good when you live in twilight, so instead the vampire squid shoots out glowing balls that dazzle and confuse. Over a thousand discrete bright particles within a matrix of mucous. Picture that, you’re out looking for a snack late at night, feeling pretty hungry, you think you smell something good and suddenly there’s some wacko waving glowsticks and snot in your face!

Another defensive ploy is to go into pineapple pose. Turning their bell-shaped tentacles over them, they completely change their shape (going kind of inside out). They light up some spots on their head which animals may take for eyes, which glow and then shrink as if the animal has swum away. Even if you didn’t buy that the animal was gone, looking at the videos, you wouldn’t want to eat that.

Stephen Fry gave respect to these sweet deep sea entities in this clip from QI. Hat tip to Dr M at Deep Sea News.

Oh… and about that quote Occupy Wall Street are marching for. The vampire squid’s diet seems to consist of molluscs, fish and crustaceans. As far as we know, it’s not a blood sucker, and Tree of Life. describes the funnel as absent. That must make it hard to stick said metaphorical blood funnel into anything, whether it smells like money or not.

Recommended links

In the QI link, they say the bioluminescence explosion is like John Barrowman! You might know Barrowman as the immortal Captain Jack Harkness from Dr Who and Torchwood, but blow me down, that captain can dance!

Still got time for more videos? Here’s David Attenborough talking about the deep ocean.

The majority of this info was from Tree of Life.

Notes from the international barcode of life conference #bol4

// December 5th, 2011 // 1 Comment » // Science Communication

Image by .jun, flickr

On Friday I went to day three of the international barcode of life conference, which happened to be in my hometown of Adelaide, actually at the home of my undergrad – The University of Adelaide – how convenient!

DNA barcoding matches a region of DNA to a species, at the moment there’s still plenty of work on building up that barcode database (called BOLD, though GenBank is also used). There are about a million and a half barcodes recorded so far and it’s streaming along.

The database is open access, and people can use it to match a barcode region from an unknown sample to a species.

So far, people have used this to check out the slice of fish in sushi, illegally collected shark fins, and plenty of other stuff.

It’s a powerful technique now in it’s ninth year and with some serious momentum behind it. There were 450-ish delegates at the conference from around the world, and Australia is a fair trek for most of them.

There’s talk that one day DNA sequencing will be so fast and cheap, you could take a sample while walking through the woods and be linked to species information on a handheld device – you would know if it was poisonous, endangered, new to science or what. Still a while away, but sci-fi in its possibilities.

This cool video gives a neat overview. It’s about a project proposal for student/citizen science in barcoding which is unfortunately currently unfunded and basically on ice at the moment. Nonetheless it’s a cute cartoons and great summary.

The region used for barcoding is called CO1 (found in mitochondira) in animals. It’s x base pairs long, and is generally very different between species, but pretty similar within one species. It’s short enough that sequencing is cheap and quick. A different region is used for fungi (called ITS, which was announced as the official fungi barcode at the conference), and plants use two regions, rbcL and matK, (found in chloroplasts).

The session I went to was on education and engagement – how to get people involved in DNA barcoding.

I love open access, power to the people, breaking down barriers stuff, and they’ve got some sweet plans. Already some projects have been successful, like the urban barcode project that gets high school students involved, and one group, who found the ingredients of tea didn’t always match what’s on the label, were even published in a journal (No less than Nature Scientific Reports! Amazing!) One group found a new species of cockroach, which is like my least favourite insect, but still a good effort.

What's in your tea? Image by massdistraction, flickr

BOLD are in the process of adding education and engagement to their online database so students can add to the database and store their results in a quarantined area. So they have a safe space to experiment with barcoding. Plus then they don’t screw it all up, right? Karen James, who moderated the session, actually pointed out that students may be less likely to make mistakes, as they are only working with a small number of samples and there’s less chance of losing track and accidental mislabeling.

Still in development, the BOLD 3.0 interface will look less intimidating than the current version, making it clearer for n00bs like me, and with links for educators at the bottom. They’re beta version is online here. Neat. I played around with BOLD before, taking a look at the barcode regions out of curiousity, and with my amateur skillz found it a bit tricky to navigate. Can’t wait to see the new one up and running so I can play with it.

If you want to read more about DNA barcoding, I recommend the iBOL website. I’ve got some more bits and pieces, but will post them separately once I’ve had a chance to flesh them out properly.






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