May 282015
 

Check out this video that Matthew Cobb of Why Evolution is True just found and posted. While it’s primarily showing a pair of swifts (Apus apus) being reunited after a 9 month hiatus in Africa, check out who crashes the party (most easily seen around the 1:10 mark).

That little scuttling thing playing peekaboo from the neck feathers of the male is actually an adult fly in the family Hippoboscidae, and most likely a male Crataerina pallida, the swift louse fly. These flies are ectoparasites of birds, where they bite and feed off the blood of both nestlings and adults.

Hippoboscids, like bat flies in the family Nycteribiidae (sometimes considered a subfamily of the Hippoboscidae) that Piotr Naskrecki has been showing off this week, give birth to live, late-stage maggots that the female has reared and nourished one at a time in her abdomen. The maggots are deposited into the swift’s nest, where they pupate and then scuttle onto their nestling host. According to Hutson (1981), fly populations peak in mid June when the swift nestlings are just beginning to hatch, and steadily fall off from there until most flies are dead by mid to late August, and he stated the flies do not make the migration with the birds.

But, since these flies don’t lay eggs, they must be spending the winters in the nest boxes as pupae, awaiting the return of their hosts year after year. Hutson found that males are more prevalent early in the spring, with females to follow. This leads us to an interesting question of how this louse fly got onto this bird! The fly was already aboard the bird when it entered the box (if you watch closely you can see a white blob that moves around neck is first visible at 0:06, immediately after the male bird approaches the sitting female). This means that one of two things happened: either the male bird has in fact carried its little parasite friend down to Africa and back (something that neither Hutson nor Walker & Rotherham (2010) believe to be the case) (and assuming this was the first nestbox that the bird stopped in, which I take to be the presumption of the ornithologists who posted the video and stated it shows a male reuniting with its mate from last year in last year’s nestbox), or alternatively, the male bird did stop for a time in another nestbox where it picked up its little hitchhiker, and then proceeded on to its longterm mate. This of course raises questions about how committed these birds really are to their mates, and whether they may be getting a little action on the side (or at least exploring their other options) before settling down for the season. Since I know pretty well nothing about bird biology, if someone knows more about swift mating, bonding, and extra-pair copulation, let me know in the comments if I’m way off.

Either way, catching a glimpse of a louse fly playing peekaboo on the neck of its host may raise more questions than the initial emotional response of “WHAT IS THAT THING?!?”, and that’s pretty darn cool.

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May 172012
 

Yesterday, UK photographer Paul Bunyard (@wildaboutimages) ran into a massive mating swarm of chironomid midges (family Chironomidae) while travelling through the Norfolk countryside, and shared some amazing images on Twitter (reproduced here with his permission).

I'm at a location where flys have just hatched they are ... on Twitpic

Photo copyright Paul Bunyard & reproduced with his permission

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Aug 272010
 

One of the talks that drew the largest crowds at the 7th International Congress of Dipterology a few weeks ago was on the functional morphology and sexual selection in mating tsetse flies, Glossina pallidipes & Glossina swynnertonni (Glossinidae)*. Why was a talk on fly porn so popular you may ask? Well  Dipterists in general are always on the lookout for mating opportunities (of their research subjects – get your mind out of the gutter) and with the promise of videos and a new technique, it was like a moth to a flame (so to speak). The videos were amazing, and as of last night were made available via YouTube for the world to see! (Explanation after the videos)

Full speed video of G. pallidipes:

Slow Motion video of G. pallidipes:

Slow motion video of G. swynnertonni:

So what’s going on here? These are x-ray videos of copulation made by the research team using a synchrotron facility in Europe. The female (the abdomen on the right) has been glued to a stage and the tip of her abdomen placed in the path of the beam of x-rays. Barry White is piped into the chamber, candles are lit, the lights are turned down low, and the male is released into the chamber to do his thing (his abdomen is on the left). When coupling begins the x-ray beam is turned on and we get a very intimate idea of mating in tsetse flies! What we see happening is the phallus of the fly is the part that is thrust in and out within the vagina of the female (easiest to see on the first slo-mo video), and is apparently stimulating the female with ornate, inflatable projections. Possibly he is attempting to make her receptive to his sperm. Meanwhile on the outside, the hook pressing the outside of the female’s abdomen is also involved in stimulation. In this case, experiments have shown that these stimuli induce the female to receive and transport sperm, to ovulate, and to reject future mating attempts by other males. These routines are hypothesized to be an evolutionary race between the males to be especially effective stimulators, with the female requiring just the right touch to accept the males sperm and use it to fertilize her eggs. Ejaculation occurs only after many minutes of rhythmic thrusting and squeezing (in G. pallidipes, in the last minute or two of an approximately  45 minute copulation).

To the best of my knowledge this is the first time that anyone has seen what’s happening inside, in real-time, during copulation in flies. A really amazing insight into the mojo of flies, and hopefully a technique that can be used more in the future to untangle the complicated world of fly genitalia!

Thanks to the research team for making this video available:

R. Daniel Briceño, William Eberhard, Ernesto Chinea-Cano, Dariusz Wegrzynek, and Tommy dos Santos Rolo

ICD7 Talk:

Species-specific behavioral differences in male tsetse fly genitalia revealed by x-ray videos – R.D. Briceño, W.G. Eberhard, E. Chinea-Cano, D. Wegrzynek, T. dos Santos Rolo. Presented to the ICD7 Aug. 11 2010, San Jose, Costa Rica.

* – Tsetse flies are the group of flies responsible for commuting the trypanosomes that cause sleeping sickness in Africa, making them one of the most important human disease vectors on Earth.
UPDATED Aug-10-2010 4:00PM : In order to make sure the details of the research were correct I contacted Dr. Briceño, who kindly provided the information highlighted in BOLD. I’ve removed erroneous information from my initial post.
UPDATED MAR-9-2011: Here’s the reference to the published paper:
Briceño, R. D., D. Wegrzynek, E. Chinea-Cano, W. G. Eberhard and T. dos Santos Rolo “Movements and morphology under sexual selection: tsetse fly genitalia.” Ethology Ecology & Evolution 22(4): 385 – 391.