Archive for the ‘Insects’ Category

A few days ago, I spotted a large (about 2 inches, or 5 cm, long), wasp-like insect nectaring on swamp milkweed (Asclepias incarnata) in my garden. Although it looked like a wasp, I suspected that it wasn’t because it appeared to have only one pair of wings and it didn’t have a narrow, wasp-like waist.

Mydas tibialis golden legged mydas fly midas on Asclepias incarnata swamp milkweed

Mystery Insect


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A couple of weeks ago, I took a photo of a damselfly that had about two dozen tiny globules stuck to the bottom of its abdomen.

Fragile Forktail damselfly Ischnura posita male w water mites Hydracarina

Damselfly with tiny globules on abdomen

Upon closer inspection, the globules appeared to be bright red with tiny legs, so I suspected they were some type of parasite.

Water mites Hydracarina on Fragile Forktail damselfly abdomen

Close up of globules

Parasites they were. The tiny red globules were water mites, known scientifically as Hydracarina. There are about 1500 species of water mites in North America, and they’re very common in the shallow areas of lakes, ponds, and wetlands. Some species of water mites are parasites on insects like the damselfly in my photo. Parasitic mite larvae attach to a damselfly larva underwater. When the damselfly larva emerges from the water and enters adulthood, the mite larvae stay with it and also become adults. The mites feed on the body fluids of the damselfly and may get an added bonus of a free ride to a new pond or wetland to colonize. Damselflies and other insects usually survive the mite parasitism but may be weakened by it.

The damselfly in the above photo is a male Fragile Forktail (Ischnura posita), a roughly one inch long damselfly that’s common in eastern North America. Fragile Forktails are distinguished by a pair of broken stripes on the upper thorax that look like exclamation points. In males, the stripes are green. In young females, the stripes are blue. Older females turn a bluish gray overall, and the thorax stripes become less noticeable.

Fragile Forktail damselfly female Ischnura posita

Fragile Forktail female (munching on a bug) has blue thorax stripes

Fragile Forktail damselfly female Ischnura posita thorax stripes

Thorax stripes look like exclamation points

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…  that’s the remark in the bugguide.net species account about this fellow:

Toxorhynchites rutilus Elephant mosquito nectaring on Solidago Goldenrod

The elegant Elephant Mosquito

This elegant mosquito is actually an Elephant Mosquito (Toxorhynchites rutilus), a species of mosquito native to the eastern US. If the word mosquito conjures up images of swatting at nasty, disease-carrying blood suckers on warm summer evenings, read on, for this is a mosquito of a different ilk.

Gentle giants of the mosquito world

Members of the mosquito genus Toxorhynchites are the largest of the world’s mosquitoes (family Culicidae), with wingspans that can exceed 0.4 inches (12 mm). Unlike most mosquitoes, adult Toxorhynchites don’t take blood meals. Instead, they fill up on protein while they are aquatic larvae—and, lucky for us, they prey upon the larvae of their blood-sucking mosquito relatives. A single Elephant Mosquito larva can down 400 pest mosquito larvae. Elephant Mosquito larvae and their prey are found in water-filled tree holes (they’re also called Treehole Mosquitoes) or human artifacts like tires. Check out this YouTube video by EntoGeek that shows the larvae feeding.

Once they reach adulthood, Elephant Mosquitoes, both males and females, feed only on flower nectar. The male in the above photo was feeding on some goldenrod (Solidago spp) nectar during an afternoon in late summer 2012. You can tell it’s a male from the very feathery antennae that he uses to detect the pheromones of females. The curved appendages on his head are the mouthparts that he uses to feed. Not readily apparent in the photo is the brilliant metallic coloring that Elephant Mosquitoes have.

Effective biocontrol agents

Elephant Mosquitoes have successfully been reared and released to control populations of pest mosquitoes. Although they don’t provide total control, they’re valuable in targeting pest mosquito larvae in tree holes or man-made containers that are difficult to treat with insecticides.

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During the warmer months of 2012, I photographed lots of invertebrates like insects and spiders. I didn’t know much about many of them, including their identities. This winter, I’m reviewing the photos to try to identify and learn more about the subjects.

Here’s a photo I took in August of a fuzzy black and yellow winged insect that had a fondness for Black-eyed Susans (Rudbeckia fulgida, also goes by the common name Eastern Coneflower).

Lepidophora lutea Hunchback Bee Fly on Rudbeckia fulgida Black Eyed Susan proboscis

Mystery insect

After searching through insect field guides including BugGuide.net, I identified it as a Hunchback Bee Fly (Lepidophora lutea). Bee flies (family Bombyliidae) are members of the insect order Diptera, or flies. Members of this order have only one pair of membranous wings, while most other insects have two pairs of wings. The common name, bee fly, comes from the resemblance of many species to bees. Bee fly is also an apt name because the larvae of many species of bee flies are parasites on the larvae of burrowing solitary bees and wasps.

Lepidophora lutea Hunchback bee fly on Rudbeckia fulgida Black Eyed Susan dorsal

Hunchback Bee Fly top view

The scary-looking appendage projecting out the front of the Hunchback Bee Fly is actually a harmless proboscis that the insect uses to feed on nectar and pollen from flowers. Bee flies are important pollinators of many flowering plants. The Hunchback Bee Fly favors Black-eyed Susans and other members of the Aster (Asteraceae) plant family that are in bloom in July and August when the adult insects are active.

Lepidophora lutea Hunchback Bee Fly Rudbeckia fulgida Black Eyed Susan nectaring

Hunchback Bee Fly uses its long proboscis to feed on nectar and pollen

Bee flies are strong fliers that can hover and quickly dart about in all directions. Bee flies use their hovering skills during mating and while feeding on flowers. Female bee flies also hover near the ground while searching for the entrance of a bee or wasp nest to host their offspring. If the bee fly spots what looks like a nest entrance, she’ll fling an egg toward it from her hovering position with remarkable accuracy.

A Smaller, Furrier Bee Fly

I had already been aware of another species of bee fly that’s common in my area–one that is smaller, more rounded, and furrier-looking than the Hunchback Bee Fly. This other species is called the Greater Bee Fly (Bombylius major).

Bombylius major Greater Bee Fly hovers over Sanguinaria canadensis Bloodroot

Greater Bee Fly hovers over Bloodroot flower

Bombylius major Greater Bee Fly on Sanguinaria canadensis Bloodroot proboscis

Greater Bee Fly has long, slender proboscis

Andrena or Mining bee

Mining bee, parasitic host for Greater Bee Fly (Photo by Joseph Berger, Bugwood.org)

Greater Bee Flies arrive in my area in April, when early-blooming flowers like Bloodroot (Sanguinaria canadensis) begin to open.

I’ve often observed Greater Bee Flies hovering over open ground on sunny spring days—they may have been females searching for the nest openings of their parasitic host, mining bees of the genus Andrena.

Worldwide Bee Fly Distribution

There are about 5000 species of bee flies worldwide and about 800 in North America north of Mexico. They’re most commonly found in arid regions where they are particularly valuable pollinators of flowering plants.

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Occasionally, I’ve come across a cicada lying on the ground, motionless, but seemingly alive and wondered how it got that way. Earlier this summer, I found out.

Cicada Tibicen abandoned by Cicada Killer

Cicada–motionless, but still alive?

In late July, I was standing on my patio when I spotted a wasp-like insect that was about 1 ½ to 2 inches (38 to 51 mm) long. Its body was brownish-black with yellow markings, and it had shiny, rust-orange wings and legs. It flew slowly back and forth just above the patio’s surface and then entered what appeared to be a freshly excavated hole between two patio stones.

I did a Google search on “large burrowing wasp”, and the first hit was a Wikipedia entry on Sphecius speciosus, a large digger wasp commonly known as the Eastern Cicada Killer. The description and photos matched the insect that I had seen.

Cicada Killers, true to their name, hunt and capture annual cicadas to feed their larvae. I usually start to hear the loud, raspy songs of male cicadas in early July. I learned that Cicada Killers emerge soon after. After mating, female Cicada Killers excavate burrows that will hold both their larvae and the cicadas that the larvae will feed on. They locate their burrows in well-drained soils, often in patios and sidewalks, and always near large deciduous trees where cicadas feed on sap.

Although the Cicada Killers are large and somewhat frightening looking, they actually are docile around people. The males don’t have stingers, and the females will deliver a mild sting only if handled roughly.

Excavating the burrow

Cicada killer Sphecius speciosus excavating

Cicada Killer pushes soil with her rear legs

The next day, I watched a female Cicada Killer excavate a new burrow beneath the patio. She entered a hole in the sandy soil between the patio stones and, after several minutes, backed out of the hole, pushing the soil with her spurred rear legs. She looked like a mini bulldozer working in reverse, and she amassed a quantity of excavated soil many times larger than herself. I read that Cicada Killer burrows can be up to three feet long and extend two feet below the surface. I also confirmed what I had read about their docility—I approached the female closely but she was oblivious to my presence.

Cicada killer Sphecius speciosus excavation

That’s a lot of soil to move

The hunt for cicadas

When her burrow is complete, the female Cicada Killer begins hunting. She hunts by sight and, after capturing a cicada, she uses her stinger to inject it with venom that both paralyzes and preserves the cicada, but does not kill it. Keeping the cicada alive keeps it in a fresh, edible condition for longer than if it were dead. The Cicada Killer flies from the tree back to the burrow with her prey—no easy feat, since the cicada is about twice the weight of its killer. After the larvae hatch, they begin to feed upon the paralyzed, still living cicadas that their mother has provided.

Female cicada killer sphecius speciosus hovers

Female Cicada Killer hovers over burrow entrance

Mishaps happen

Cicada Killers sometimes accidentally drop their heavy prey when flying to the burrow. Cicada Killers aren’t strong enough to take flight from ground level with a cicada in tow, so they often abandon it. They also may abandon their prey if they mistakenly land too far from their burrow entrance. The motionless cicadas that I’ve found were likely abandoned by Cicada Killers. Unfortunately for them, the paralyzed cicadas are easy prey for ants and birds.

Looking forward to next year’s show

During the several days that I saw the female Cicada Killer flying about the patio, I never witnessed her toting a captured cicada back to her burrow. Hopefully, she did so unseen, so that I can have a better chance of watching these fascinating insects again next year.

For more information

Professor Chuck Holliday of Lafayette College in Pennsylvania has an excellent website on the biology of Cicada Killer Wasps.

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This, my third post about the Giant Swallowtail butterfly (Papilio cresphontes), will focus on the larvae.

Papilio cresphontes giant swallowtail young larva Dictamnus albus

Larva or bird dropping?

The young larvae are a shiny dark brown with cream-colored patches–they look like warty bird droppings. As they get older, the larvae develop scale-like markings about their heads and look like tiny snakes when viewed from the front. These disguises help to protect the larvae from predators—young larvae appear unpalatable and older ones resemble frightening adversaries. The larvae also can ward off potential predators by thrusting out their osmeterium, a pair of bright red, retractable horn-like structures. In older larvae, the osmeterium emits an unpleasant stench that repels potential invertebrate predators like spiders and ants. The osmeterium’s likeness to a snake’s tongue may frighten larger predators like birds. The Dragonfly Woman has a nice video on her blog of a larva extending its osmeterium.

Eastern Garter Snake Thamnophis sirtalis sirtalis

Older larvae mimic snakes like this Garter Snake

After molting through five stages, the larvae ultimately reach a stout 2 to 2 1/2” (51 to 64 mm) long. They then seek out a nearby vertical stem or other surface on which to pupate. In northeastern North America, the Giant Swallowtail overwinters as a pupa.

In Florida’s warm climate, where Giant Swallowtail butterflies are common, there are two or three generations each year. There, the larvae often feed on citrus trees like sweet orange and are called Orange Dogs. They’re considered pests because they can defoliate young trees.

Update on the larvae in my garden

Papilio cresphontes giant swallowtail larvae eating Dictamnus albus

Bulking up on Gas Plant

In my August 19 post, I wrote that I had found three Giant Swallowtail eggs on the Gas Plant (Dictamnus albus) in my garden, followed by two larvae about a week later. As of today, I’ve counted six larvae scattered on the leaves of the Gas Plant. Five larvae are about the same size—5/8” (16 mm) long. The sixth larva, which I discovered yesterday, is smaller, only about 1/4” (6 mm)  long. I suspect that the small larva may be the offspring of an adult female that visited my garden unseen several days to a week after the adult I saw on August 3.

The larvae often sit on the tops of the Gas Plant leaves, clearly visible bird-dropping imitators. Occasionally, one will appear restless, and will travel back and forth over the leaves for several minutes before settling down again. I’ve read that they feed mostly at night, but I occasionally have seen a larva munching on the Gas Plant leaves during the day. If I touch them with a twig, they arch their backs and thrust out their bright red osmeterium.

Papilio cresphontes giant swallowtail larvae red osmeterium

Red osmeterium deters predators

I’ll continue to monitor the larvae on my Gas Plant and hope to post occasional updates on their development.

Giant Swallowtails moving north  

I first thought the Giant Swallowtail butterfly that visited my garden on August 3 was a rare sight. Since then, I’ve learned that lots of people in my area and farther north have seen Giant Swallowtails this year and that sightings in the north have been increasing for about five years. This northward movement may be due to changing weather patterns, decreased pesticide spraying, or some other as yet unknown reason. Whatever the reason, we northerners have had the treat of seeing these large, beautiful butterflies close to home.

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In my previous post, I wrote about a Giant Swallowtail butterfly that visited my backyard in early August, an unusual sight for my area. I sought to learn more about this butterfly species.

Adult butterflies seek out areas that contain their larval host plants, those specific plant species that females lay their eggs on and that their caterpillar larvae feed on. Per butterfly field guides, various members of the Rue (Rutaceae) family are the host plants of the Giant Swallowtail. The better known members of this family are citrus trees like sweet orange (Citrus × sinensis). That’s why the Giant Swallowtail is so common in Florida. Farther north, native members of the Rue family include Prickly Ash (Zanthoxylum americanum) and Common Hop Tree (Ptelea trifoliata). (more…)

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