Category Archives: Photography

Chinese mantids eat monarch butterflies

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This post is a PSA for anyone keen on helping monarchs: if you find Chinese mantids (Tenodera sinensis) in your yard, kill them. As proof, below is a photograph of one that had just snagged a monarch visiting my swamp milkweed. The monarch is fine, by the way. After I intervened she flew off, then came back within seconds and resumed ovipositing.

Monarch butterfly captured by a Chinese mantid (Tenodera sinensi

But unless you’re observing your milkweed patch obsessively, you’ll probably never catch a Chinese mantid in the act. But you can infer their presence by piles of monarch wings (i.e., no body attached). No other animal does this to monarchs.

Monarch butterfly wings left by Chinese mantid predation

And caterpillars are just as susceptible. Here’s a Chinese mantid I interrupted just as it was about to strike:

At base of milkweeds was a pile of monarch butterfly wins. Swarthmore, PA.

Chinese mantis can be easily distinguished from any of the native mantids by the presence of a yellow dot in between the forelegs.

Chinese mantis (Tenodera sinensis)

If you find an ootheca (egg case) of this species, crush it. The oothecae have an irregular, messy surface that looks like a blob of brown, poorly-applied insulating foam. Oothecae of the native Carolina mantis are much smoother and streamlined (see, “Identifying mantid egg cases in Pennsylvania“).

First-instar nymph of Chinese mantis (Tenodera sinensis) on ootheca

If you’re like most people (including myself), you grew up believing that mantids are a pesticide-free way of reducing garden pests. How could thousands of web sites be wrong?? The truth is, however, that Chinese mantids are so large that they tend to only eat large insects, and that usually means mainly butterflies, not aphids or other species that are tiny. So if you hate butterflies, by all means encourage Chinese mantids in your yard. But if you like butterflies in your garden, kill the Chinese mantids. And don’t just relocate them, even though that seems like the friendly, eco, green, peace-loving thing to do. Moving introduced, invasive species to another location simply facilitates further spread.

FYI, Chinese mantids also eat hummingbirds, plus other birds that are even bigger. The authors of that linked paper conclude,

“Our compilation suggests that praying mantises frequently prey on hummingbirds in gardens in North America; therefore, we suggest caution in use of large-sized mantids, particularly non-native mantids, in gardens for insect pest control.”

Italics mine.

End band net-wing beetle (Calopteron terminale)

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Identifying End band net-wing (Calopteron terminale)

This week I finally decided to teach myself how to identify Calopteron terminale (end band net-wing beetle), and the characteristics aren’t as bad as I thought. I made a visual to help in case others might find it useful:

The easiest diagnostic feature is the transverse depression (dip), shown with a red line in photograph above. I think when I first noticed this depression in the wild I foolishly assumed it was a deformation that certain beetles got from being wedged into a pupal cases that were a tad too small for their bellies. But no, it’s a real, unique thing for this species. I have no idea why they have it. Below is another of my C. terminale photographs. In this one you can see that there’s a second, slight depression just anterior to the transverse band. For this reason many keys refer to an “undulation” along elytra rather than just a single depression.

End band netwing beetle

Even the distal depression is sometimes hard to see with dorsal photographs, so in those cases use the uniformity in discal costae (ridge, vein) heights to make the ID. Excluding the edge vein there are four (4) ridges that are elevated to the same amount. Both C. reticulatum and C. discrepans (the other two members of the genus in the United States) have alternating ridge heights. Here’s a photograph of C. reticulatum:

Banded net-wing

The ridges are filled with poisonous hemolymph, by the way, so don’t poke them.

In addition to the above diagnostic features, many keys say that C. terminale has a “distinct blue tinge”. Other species in the genus sometimes have a blue tinge but I’ve only noticed a distinct blue tinge on C. terminale.

For more information on identification, here are links to C. terminaleC. reticulatum and C. discrepans on BugGuide. If you’re on iNaturalist, here they are again: C. terminaleC. reticulatum and C. discrepansThere are many more (100+) species in the genus, and most of them are in South America, Central America, and Mexico. I’m not aware of a current guide to these other species but here’s an 1886 one for Central America.

If you encounter a mating pile of any of these insects, please take a lot of photographs and examine the abdomens of females for droplets of hemolymph. There are reports (Burke 1976) that males feed on this hemolymph.

For more natural history, start with these publications:

Burke, H.R. 1976. Observations on the adult behavior of the Lycid beetle Calopteron terminale (Coleoptera: Lycidae). Entomological News 87:229-232.

McCabe, T.L., and L.M. Johnson. 1979. Larva of Calopteron terminale (Say) with additional notes on adult behavior (Coleoptera: Lycidae). Journal of the New York Entomological Society 87:283-288.