Oak leaf-rolling weevil (Homoeolabus analis)

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If you’ve been to Florida and stared at any of the live oaks there, you’ve probably noticed the tiny, burrito-shaped structures on many of these leaves. If you haven’t seen them, you might have heard them — they accumulate under oak trees in sufficient numbers that you’ll hear crunching as you walk over them.

These structures are made by the oak leaf-rolling weevils in the subfamily Attelabinae (the “leaf rolling weevils”, appropriately) and they are called nidi (Latin for “nest” or “place where egg is placed”). Several species nidify (yes, it’s a verb) oak but perhaps the most common species is Homoeolabus analis. I caught a female in the act:

Zolfo Springs, FL.

This shows her fairly well along in the process but I really wish I could show you a video of her technique, which is amazing. Before this stage she’ll first survey the leaf compulsively, scissor the leaf in half at the midrib, then use mandibles and legs to feverishly roll it into a burrito. Midway through the nidification she’ll deposit an egg (sometimes two) and then, I gather, will guard the nidus from parasitic wasps while it hardens up a bit. She’s also guarding against intrusion by the the thief weevil (Pterocolus ovatus), a blueberry-like attelabid that sneaks into fresh nidi and eats the eggs. But that’s not all. Female thief weevils will leave their own egg inside the nidus and this theft of home is the source of their common name.

Here’s a male, by the way (you can tell because he has a longer neck):

On that note, here’s an egg I found inside one of the nidi. I think it’s Homoeolabus analis but it could be Pterocolus ovatus.

I opened up several dozen of these nidi and found all sorts of drama. Several had some sort of orange cecidomyiid larvae (more pics) in the middle layers of the nidi:

And found plenty of eggs that were definitely not weevil eggs but that are not photogenic enough to post. Suffice it to say that there are many parasitic wasps that have been known to attack this species. If I lived in Florida I’d have hundreds of these in vials just so I could watch the emergers. Better than television.

As a side note, if you have a beetle that looks like Homoeolabus analis, it easily could be Synolabus nigripes, a member of the Attelabinae that also has red, punctate elytra and pronotum; black legs with swollen femora; and long rostrum that is largely though variably black. And ranges overlap (see maps here and here). Below are some ways to tell them apart that I collected from a variety of sources. Many involve knowing which sex an individual is, but luckily males have longer necks. And if an individual is caught nidifying a leaf, it’s a female.

Homoeolabus analis

  • sides of neck parallel, not wider near pronotum (from Boris Büche)
  • males: distance between pronotum and eyes equal to length of rostrum (example)
  • males: pair of spines/projections on the submentum (p. 175 in The Insects and Arachnids of Canada; p. 707 in American Beetles); need a microscope
  • females: straight tibiae (see 2nd pic near top of this post)
  • on, eating, or nidifying Quercus spp.
  • black parts have a blue tinge (see above pic) (LeConte 1876, page 10); this characteristic seems ignored in all later descriptions … but I think it should be featured

Synolabus nigripes

  • width of neck behind eyes greater than width at tip of neck (from Boris Büche)
  • males: distance between pronotum and eyes less than length of rostrum (to me, they evoke the Spy vs Spy comic book characters from Mad Magazine)
  • males: large spine(s) on front femora (example)
  • females: “ventral rostral apex in lateral view with median conical prominence” (American Beetles, p. 707); need a microscope
  • on, eating, or nidifying Rhus spp.; usually sumac, sometimes poison ivy
  • no bluish tinge on black parts (Evans p. 464)

If you still need help IDing, submit a photograph to either iNaturalist (I’m @colinpurrington if you want to tag me in your observation) or BugGuide. Here are Homoeolabus analis observations on iNaturalist.

If you want more information on Homoeolabus analis or the parasites that attack it, here’s a great overview by Donald W. Hall and Lyle J. Buss (both at the University of Florida). And here’s a post by Charley Eiseman with pics and natural history of yet another (but not all-red) oak leaf-rolling weevil, Attelabus bipustulatus. If you want to see some nidifying, there are YouTube videos of various Attelabidae.

Bee and wasp hotels on iNaturalist

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If you’re fond of hole-nesting bees and wasps, please join the new “Bee and Wasp Hotels” project on iNaturalist.org to document the guests and hangerson that arrive at your hotel.

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View more observations from Bee and Wasp Hotels on iNaturalist »

Currently the most photographed visitor is the four-toothed mason wasp (Monobia quadridens). But also plenty of mason bees as well as parasites looking for mason bees. There has also been a slug sighting (don’t ask). 

If this sounds fun but you don’t have a hotel, here are my thoughts on building one.

Melittobia staking out a mason bee house

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I recently set up a mason bee house, and almost instantly attracted a parasitoid, a female Melittobia. She was so tiny that I first thought it was a thrips. But its behavior was odd and definitely not thripsy. The insect would linger near the holes that were being used by mason bees (Chelostoma philadelphi and Osmia sp.), approach, then scurry away, then repeat. On one occasion it peered down an unoccupied hole and paused for several seconds before walking away. It was covered in wood shavings, too, so I inferred that she’d been inside the holes on at least one occasion. All this activity screamed, “parasitoid”, of course, so I had to get some pictures: 

Female Melittobia sp. at a mason bee house.Female Melittobia sp. at a mason bee house.Female Melittobia sp. at a mason bee house. I’m not sure which species she is (there are 14 according to González et al. 2004), but I gather that all members of the genus can parasitize mason bees. Females spend up to 48 hours lurking around a hole (“assessing” per González article) and then puncture a developing larvae with her ovipositor, drink some of the hemolymph, and deposit eggs. There’s a pause in between the hemolymph-feeding and the egg-laying, presumably to allow some of the nutrients to be allocated to eggs. Females are not at all picky about host larvae. Recorded hosts for M. acasta include honeybees, bumblebees, leafcutting bees, and various wasps, flies, beetles, and butterflies (González et al. 2004).

Things get exciting when the wasps eclose, with the early-emerging male killing the slackers that are still developing. There are two types of females: brachytperous (reduced wings) and macroptyrous (regular wing size). I’m assuming the one(s) I viewed are the regular kind.

I’ll post more photographs if I can get them, but whatever is going on inside the holes is of course hidden. But I’m going to make a few glass-sided mason bee houses in the next few weeks so hopefully I can get some larval pics one of these years. This spotting is a reminder to use paper tube inserts whenever possible so that larvae can be examined at the end of the season for parasites. I’m rather interested in parasites but I’d like to encourage a healthy mason bee population when possible.

Much thanks to Ross Hill for identification, and of course to people behind BugGuide for facilitating such IDs. These observations are also logged into iNaturalist.