Feb 012014
 

A while ago I started a weekly link round up series, but unlike Ed, Chris and Malcolm, I quickly became inundated with too much good stuff and it was taking me way longer to put together each week than I felt comfortable doing, and eventually allowed it to drop.

But, there is some truly awesome work being done across the internet bringing attention to entomology and science in general, so I figure I’ll try and do a monthly recap of some of the stuff I come across and that I think should be read/watched/listened to by more people! Here’s this month’s crop of awesomeness (in chronological order). Continue reading »

Jan 232014
 

Seeing how Canadian Prime Minister Stephen Harper has suddenly become a bastion for conservation biology, ornithology and science outreach with the announcement that a bird sanctuary has been named in his honour in Israel, I put together a little memento for him to hang in his office. Hopefully it will serve to remind him just how awesome birds and nature are, as long as they aren’t getting in the way of his Albertan oil field development plans, of course.

Stephen Harper's The Birds Sanctuary Poster

All kidding aside, the fact that another country thought that it was appropriate to bestow an honorary doctorate on and name a scientific research facility after a man who has been on a not-so-subtle campaign against scientific research & evidence-based policy making in Canada for the past 8 years is an absolute farce.

I guess in the end the joke is on me though. I’m the one spending the prime of my life fighting against the anti-science rhetoric being spewed by my elected officials to earn a PhD the old-fashioned way instead of just dismantling research divisions, field stations and libraries that don’t support my political platform!

Yep, he sure showed me…

Jan 072014
 

The extreme cold snap encompassing a large portion of continental North America (termed a Polar Vortex, which you can learn more about via NPR and Quartz) has made it dangerous to remain outside for long, even when bundled up in more layers than a Thanksgiving turducken. While we can rely on our technological ingenuity to find solutions to this chilling problem, what about our insect neighbours who have been left out in the cold?

Eurosta solidaginis has a warning for you.

Eurosta solidaginis has a warning for you.

Most insects seek shelter in the fall before temperatures begin to dip, either laying their eggs in sheltered locations, or hiding out as larvae, pupae or adults in the comparative warmths of the leaf litter, deep within trees, or even taking advantage of our warm hospitality and rooming with us in the nooks & crannies of our homes. But what about species like the Goldenrod Gall Fly (Eurosta solidaginis) which are literally left hanging out in the middle of nowhere and completely at the mercy of Jack Frost?

Polar Vortex vs. Goldenrod Gall Fly. Polar Vortex map courtesy of RightWeather.com, Eurosta solidaginis range map from Foote et al. 1993

Polar Vortex vs. Goldenrod Gall Fly. Polar Vortex map courtesy of RightWeather.com, Eurosta solidaginis range map from Foote et al. 1993

If you live in eastern North America, you’re probably familiar with the Goldenrod Gall Fly, even if you don’t realize it. This fruit fly — the ripe fruit kind (family Tephritidae), not the rotting banana kind (family Drosophilidae) — is one of the more ubiquitous insects, and is found pretty well anywhere goldenrod grows, including in urban environments like parks & abandoned lots. Adults are weak fliers and aren’t often seen unless you’re actively looking for them, but in this case, it’s the larvae that you’ve likely seen a hundred times — rather, you’ve likely seen their makeshift homes a hundred times. The larvae of this species live within the stem of goldenrod plants (Solidago spp.), and trick the plant into growing a big spherical nursery for the fly maggot to live & feed in (technically called a ‘gall’), and which stands out like the New Year’s Eve ball in Times Square, albeit without the mirrors and spotlights of course.

Goldenrod Gall Fly galls in Guelph, Ontario

Goldenrod Gall Fly galls in Guelph, Ontario

While these galls provide a modicum of protection from predators and parasitoids (although some still find a way), they don’t provide much, if any, insulation from the elements, meaning that the larvae must be able to survive the same air and windchill temperatures that we do. To do so, Goldenrod Gall Fly larvae are not only able to safely freeze without their cells being torn apart by tiny ice daggers by partially drying themselves out, but they also change the temperature their tissues freeze at by manufacturing anti-freeze-like chemicals. Together, these cold-tolerance strategies allow the maggots to survive temperatures as low as -50°C (-58°F)! Just take a moment to consider what it would feel like to stand outside almost anywhere in central North America on a day like today wrapped in only a few layers of tissue paper; BRRRRRRR!

All that stands between a Goldenrod Gall Fly maggot & the extreme cold is a few centimeters of dried plant tissue.

All that stands between a Goldenrod Gall Fly maggot & the extreme cold is a few centimeters of dried plant tissue. (The maggot is the little ball of goo in the bottom half of the gall)

For us, the multiple warm layers of clothing we bundle up in on days like today allow us to survive and eventually have children, thus passing our genes along, despite living in a habitat that is occasionally unfit for human life. It would stand to reason then that other organisms would also enjoy the same benefits and evolutionary advantage from thermal insulation, but, for the Goldenrod Gall Fly at least, the complete opposite is true! Goldenrod isn’t exactly the most robust structure, and it doesn’t take much effort from the wind, passing animals like people or dogs, or other not-so-freak phenomena to knock goldenrod stems over, allowing galls to be buried in snow and protected from the harshest temperatures (snow is an excellent insulator, and temperatures in the snowbank generally hover around 0°C (32°F)). This would intuitively seem like a good place to be if you were fly maggot, out of the daily temperature fluctuations and extreme cold and in a more stable environment. However it turns out that individuals that mature in galls on the ground and covered with snow are at a significant disadvantage evolutionarily speaking, with grounded females producing 18% fewer eggs than females who grew up fully exposed to the elements (Irwin & Lee, 2003)!

This Goldenrod Gall Fly, while warm(er), will likely produce fewer offspring when it emerges (assuming it's a female).

This Goldenrod Gall Fly, while warm(er), will likely produce fewer offspring when it emerges (assuming it’s a female).

Why might that be? Well, let’s think about it for a moment. If you’re a fly maggot hanging out above the snow when it’s -20°C, you’re likely going to be frozen solid and in a cold-induced stasis, not doing much of anything, even at the cellular level. But, if you’re as snug as a ‘bug’ under the snow at ~0°C, your body won’t be frozen, and thus you’ll be forced to carry on with day-to-day maintenance & cellular functions like breathing, waste removal, etc, even if only minimally. When you live in a closed system like a hollowed-out stem gall on a dead plant without any food, any energy you spend on daily functions as a “teenager” putting in time under the snow all winter long means you’ll have less energy you can put towards making eggs as an adult. If you’re a Goldenrod Gall Fly maggot, it pays to be left out in the cold!

Foote, R.H, Blanc, F.L., Norrbom, A.L. (1993). Handbook of the Fruit Flies (Diptera: Tephritidae) of America North of Mexico. Comstock Publishing Associates, Ithaca NY. 571pp.

Irwin J.T. & Lee, Jr R.E. (2003). Cold winter microenvironments conserve energy and improve overwintering survival and potential fecundity of the goldenrod gall fly, Eurosta solidaginis, Oikos, 100 (1) 71-78. DOI:


Some additional thoughts: You’d think that a nearly 20% difference in egg production would create significant evolutionary pressure for Goldenrod Gall Fly females to select the strongest, least-likely-to-break-and-fall-over goldenrod stems. It’s possible that the randomness of goldenrod stem breakage negates any evolution of host plant selection, but I would tend to doubt it. I did a quick Google Scholar search to check whether anyone had examined this in greater detail, but I didn’t see anything. Perhaps an avenue of future study for an evolutionary biology lab out there?

Nov 292013
 

On the island of Raivavae, one of the Austral Islands in the middle of the Pacific Ocean, buried deep beneath the surface of a swamp in mud accumulated at the foot of a stream for thousands of years, scientists have found all that remains of a unique new species of Black Fly (Simuliidae): larval head cases left behind when the flies molted into pupae. These subfossils, not yet hard and mineralized like conventional fossils yet still preserved in near-perfect condition by the mud, not only raise the question of how a tiny little fly found its way to an island in the middle of nowhere, but also provide the only evidence of a murder mystery 2 million years in the making.

The missing species on Raivavae is Simulium Inseliellum raivavaense, recently described by Douglas Craig of the University of Alberta and Nick Porch of Deakin University in Australia, from material collected in 2010. Despite the subfossil larval head capsules being the only “specimens”, Craig & Porch were able to determine S. I. raivavaense was a new species based on the shape, position, and number of teeth on the hypostoma, essentially the lower lip of a black fly larva’s mouth.

Cook-Islands-Simulium-Hypostoma Continue reading »

Nov 222013
 

In the jungles of southern Mexico there are treasures that glitter and sparkle more than even the most luxurious displays at Tiffany’s, so rare we’ve only ever caught a glimpse of them once. These jewels are made not of stone, crystal or precious metal, but rather segments, cuticle and a punctate mesonotum. Yes, like usual, I’m talking about a fly.

And what a beautiful new Soldier Fly (Stratiomyidae) it is! Meet Paraberismyia chiapas Woodley, which has only just been described, despite having been a prized possession for nearly 20 years.

Paraberismyia chiapas Woodley - Female holotype (Figures 1 & 2 from Woodley, 2013)

Holotype Female of Paraberismyia chiapas Woodley by Norm Woodley CC-BY (Figures 1 & 2 from Woodley, 2013)

A member of the Beridinae, a subfamily of soldier flies known for their colourful & metallic appearance, Paraberismyia chiapas had been recognized as an undescribed species by Norm Woodley in 1995 when he described the genus Paraberismyia, but because he only knew of a single female specimen at the time, he decided to hold off on formally describing the species until he could locate additional specimens. Fast forward nearly 20 years, and a second specimen of Paraberismyia chiapas has yet to be collected, so Norm decided to not wait any longer and published this and 2 other new species in the journal ZooKeys earlier this week.

Having only a single specimen collected in 1985 by Amnon Friedberg (who happens to be the same guy who studied and described several of the “ant-winged” fruit flies that went viral earlier this month — the dipterological community is an incestuous little group…), we don’t know much about this species, other than it lives in the Chiapas region of Mexico (hence it’s species name) at an elevation of 2,000 metres.

Despite there being a large entomological survey project going on in the region for the past 5 years (the LLAMA project, which, while focused on leaf-litter arthropods, you could imagine would have collected a bright green & gold fly that likely breeds and develops in leaf-litter like other members of the Beridinae), Paraberismyia chiapas has yet to make a second appearance, leaving many questions about it’s apparent rarity unanswered: is this species only found on a single mountain top, or is it restricted to a small expanse of high elevation habitats in the southern Sierra Madre de Chiapas mountain range? Is the window when adults are actively flying so short that other expeditions have just missed it? Or more concerning, has Paraberismyia chiapas disappeared completely, stolen from us before we had even given it a name? Obviously we can’t answer any of these questions, or the hundreds more regarding it’s biology and natural history (including why it’s so stunningly coloured), until someone hits pay dirt and rediscovers this little gem.

The other 3 species in the genus Paraberismyia are equally stunning, and I highly recommend taking a look at them (the paper is open access).
Woodley N. (2013). A revision of the Neotropical genus Paraberismyia Woodley (Diptera, Stratiomyidae, Beridinae) with three new species, ZooKeys, 353 25-45. DOI:  (OPEN ACCESS)

Nov 062013
 

There’s a pretty remarkable fly photograph making the rounds of social media today, and while it originally had me going “Oooooh!”, the more I think about it, the more I feel like we’re staring at clouds.

It started when Ziya Tong tweeted a photo of a Goniurellia tridens (a fruit fly in the family Tephritidae) displaying its wings:

Continue reading »

Oct 312013
 

As has become tradition in the University of Guelph Insect Systematics Lab, when Halloween rolls around, we pull out the knives & hand tools and make a trip to the produce aisle to get ready for a new Ent-O-Lantern. This year our lab is considerably smaller than in the past (4 grad students, an enthusiastic undergrad, and a significant other), but what we lacked in sculptors, we made up for with dedication!

So what was this year’s creation? Behold, a nightmare for social wasps everywhere, the Spooky Strepsiptera!

Spooky Strepsiptera for Ent-O-Lantern 2013

Spooky Strepsiptera looking for love in all the right places — Ent-O-Lantern 2013

That pumpkin wasp doesn't stand a chance with a Strepsiptera salad hanging around -- Ent-O-Lantern 2013

That pumpkin wasp doesn’t stand a chance with a strepsipteran salad hanging around — Ent-O-Lantern 2013

The big male twisted-wing parasite riding atop a poor wasp’s abdomen is in search of females, who spend their lives wedged beneath the tergites of a social wasp’s abdomen, only to be consumed from the inside out by their own progeny! Yes, everything about the Strepsiptera is nightmare fodder.

Strepsiptera are also renowned for their odd wing morphology; males have a single pair of functional wings while their second pair of wings have evolved into haltere-like knobs, similar to true flies in the order Diptera. Unlike flies however, the functional wings of Strepsiptera are the hind wings, while the fore wings form the haltere-like knobs!

Needless to say, there was a lot to take into consideration when putting together this pumpkin. Here’s the ingredient list and a fully lighted photo to show how it all went together.

Pumpkin – carved to look like a wasp abdomen

Orange Bell Peppers – female Strepsiptera poking out from under the pumpkin tergites

Butternut Squash – thorax and abdomen of the male, carved with great care to show tergites & segments

Sweet Potato – head

Ornamental corn – compound eyes

Cauliflower – filiform antennae

Dried Mango Slices – maxillary palps

Carrots – legs (jointed with wire)

Cabbage – “twisted” functional hind wings which give this order their common name

Bell Pepper stems – fore wing “halteres”

Ent-O-Lantern 2013 Construction

Ent-O-Lantern 2013 Construction

We just do these big creations for fun, but our department also held a pumpkin carving social event at lunch, so we washed off our tools and put together a true horror show from a single pumpkin: Frankendrosophila!

Well, not really Frankendrosophila, just a Drosophila who’s been subjected to some genetic tinkering with his Homeobox transcription genes, resulting in Antennapedia! SCIENCE!

Drosophila Antennapedia Horror show for Ent-O-Lantern 2013

Drosophila Antennapedia Horror show for Ent-O-Lantern 2013

Antennapedia in the light -- Ent-O-Lantern 2013

Antennapedia in the light — Ent-O-Lantern 2013

Thanks to Meredith, Nichelle, Grace, Jordan & Steve for getting into the spirit of the season and putting together 2 awesome Ent-O-Lanterns this year!

Did you carve an Ent-O-Lantern this year? Leave a link in the comments below so we can all marvel at your insect geek pride!

 

Sep 172013
 

Remember the last time I wrote about the Jewel Beetle Field Guide and said international orders “should begin shipping by June“? Ya, about that…

Co-Author Adam Jewiss-Gaines has been secretly hoarding books. (Not actually)

Co-Author Adam Jewiss-Gaines has been secretly hoarding books, Scrooge McDuck-style. (Not actually)

It turns out that we were much more successful spreading the word about the field guide than the Canadian Food Inspection Agency had expected, and ended up having significantly more orders come from outside of Canada than the CFIA had budgeted for!

Out of money, and with more than 1,000 people patiently awaiting their copies, we were in a tight place this summer. Thankfully, Michael Bohne of the US Forest Service in New Hampshire came to the rescue and arranged to distribute all of the US orders. Mike and his crew received the massive shipment of books last week, so I think it’s safe to say (famous last words) that the field guide should be hitting mailboxes across the US in the next few weeks! I want to say a huge Thank You to Mike and the US Forest Service for helping us get the field guide where it needs to be, and also thanks to everyone who put up with all of the unexpected delays the past several months.

Now, with all this good news, there’s also a bit of bad news. Because of the budget crunch, we’re not going to be able to fulfill orders outside of North America. I feel absolutely terrible about offering the book to anyone, anywhere and then being forced to backtrack, but the CFIA just doesn’t have the money to cover it, and unfortunately neither do I. My sincerest apologies for those beetle-maniacs who were looking forward to getting a copy.

However, here’s a consolation prize for anyone who’s missing out on the hardcopy: you can now download a complete PDF of the book, in either English or French! It may not be quite as nice as a copy on your shelf, but it comes with other perks, like being easily searchable and with high resolution photographs throughout! Since the files are so large, I recommend right clicking on the link and selecting “Save Link As”, which will download the PDF to your computer rather than try and open it in your browser.

Field Guide to the Jewel Beetles (Coleoptera: Buprestidae) of Northeastern North America – ENGLISH (PDF – 281 MB)

Guide des Buprestes (Coleoptera: Buprestidae) du nord-est de l’Amérique du Nord – FRANÇAIS (PDF – 281 MB)

If you live in North America, there are still some hard copies available, which can be ordered by calling 1-800-442-2342 and placing your order with Service Canada. US orders might take a little longer to ship as they will be waiting for a critical mass to ship copies out rather than one at a time. UPDATE: Sorry, hard copies are all sold out at this time.

Finally, Glendon Mellow, the science artist & illustrator who provided several of the illustrations in the field guide, has prints (and other items) of the field guide artwork available for purchase in his online store. If you’re a fan of the book, or jewel beetles in general, why not support Glendon, and get a little jewel beetle art for your home or lab!

Sep 042013
 

Things I didn’t expect to do today: talk about flies live on BBC Radio 2!

I made my radio debut this afternoon when I helped out with Simon Mayo’s Homework Sucks! segment of Drivetime. Homework Sucks! is a regular feature where listeners send in questions (whether from their kids homework or otherwise), and the BBC finds experts to give a hand with the answers.

Today’s question: Can insects smell, and if so, how far away can they smell things? You can listen to my answer thanks to the recorded and archived edition of the day’s episode on the BBC website (skip to 1:39:30 for my segment).

So how’d my first brush with the mainstream media happen? I got a call from Richard Levine, the Public Affairs Officer for the Entomological Society of America, asking if I’d be interested in the opportunity to speak on the BBC about how flies smell. There was a catch though: the segment was going to be live, and was going to start in less than 10 minutes! So, I ran across the lab, grabbed R.F. Chapman’s The Insects: Structure and Function off the shelf, quickly refreshed my memory on volatile chemoreception in insects, then jumped on Google Scholar to see if I could find an estimate of how far away some insects can sense scents (which isn’t easy when your fingers are quivering from the adrenaline rush & nerves). Before I even had Chapman opened, a BBC producer had called me to explain what was going to happen and to get my details figured out, and then 5 minutes later another producer called and I was on hold waiting for my opportunity to go on the air! A few minutes after that I had given my spiel, and was sitting at my desk wondering what had just happened, while trying to dissect what I had said and whether I could recall making any goofs!

While I was sure I stumbled and mumbled my way through it at the time, I actually think I sounded pretty coherent after listening to the recording, and it would seem people enjoyed it as well (thanks for the feedback to those who’ve given it!). I’m giving a lot of the credit for me not sounding like a bumbling n00b to Breaking Bio, which has provided me the opportunity to practice talking about science in an informal setting, and in a digital format. It just goes to show that goofing around on the internet with your friends can have surprising benefits for your work!