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Macro > fisherwr2  > Animals > Small Wonders
Insects and spiders close up
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fisherwr2 > Frontal view of the head of a white-banded beetle, Eurymycter fasciatus (Anthribidae: Coleoptera). It belongs to the weevil family whose members often feed on fungi. In this image, you can see the mandibles at the bottom of the broad snout and the antennae coming out of the middle. I call this a "steer-head beetle" because this view resembles a Guernsey cow.
fisherwr2 > Simple eyes located on top of this wasp's head, between the multi-faceted compound eyes. The next image shows their location a bit more clearly. The simple eyes cannot focus but do detect changes in light intensity, as occurs during sundown and sunup. This triggers the insect's activity patterns - eg some insects are active at night, while others, during the day. Note the sensory hairs just below the lens of each eye.
fisherwr2 > View of the dorsal section of a wasp head showing the two kidney-shaped compound eyes, the three simple eyes in between the compound eyes, and the base of the antennae. Compound eyes are made up of hundreds or thousands of individual sections, each with its own lens and sensory cells. The eyes which wrap around the head from top to bottom allow the wasp to see above, to each side, the bottom, and to the front of it. The 3-dimensional nature of the eyes protruding from the surface of the head allow some site behind the insect. Compound eyes do not focus well, but the large number of individual units are excellent for picking up movement. The brain integrates all the visual input and makes "sense" of it and causes the insect to take the appropriate behavior. The simple eyes consist of one unit each and are designed to detect changes in light. They appear to be responsible for detecting changes in the daily photocycle (simple eyes are shown in greater detail in the previous image)
fisherwr2 > Male mayfly (Ephemeroptera) inside a petri dish displaying the bizarre head with huge white, nearly spherical compound eyes with thin black bands and a small black core. There are three stalked, simpler eyes in between that have somewhat of a mammalian appearance. These organs provide a means to effectively locate females. The compound eyes are white in the daytime and black at night. Mayfly adults have no functional mouthparts and don't feed. They live for only a day or two.
fisherwr2 > Skipper (Hesperiidae: Lepidoptera) feeding on a butterfly bush
fisherwr2 > Side view of a carpenter ant, Camponotus pennsylvanicus (Hymenoptera: Formicidae). One good way to differentiate an ant from a termite is to look at the antennae. If they are "elbowed" or bent in the middle, as in this image, it's an ant. If you have something that looks like an ant but has straight antennae, more likely it's a termite.
fisherwr2 > Tarsal claw of a beetle. The ridges on the claw help increase the strength of the structure while giving more "gripping" power to the insect, much as the texture of our finger prints does for us.
fisherwr2 > A scarab beetle in the subfamily Dynastinae, which contains some of the largest beetles in the world. This group includes the rhinocerus beetle, shown here, as well as the hercules and elephant beetles.
fisherwr2 > Head of a carpenter ant, Camponotus pennsylvanicus (Hymenoptera: Formicidae) showing large, powerful mandibles and the fine microtexture of the head capsule. The capsule is extremely strong to protect the brain and sensory organs. It also supports the massive muscles that operate the jaws. Note the "ball-and-socket" joint that allows a broad range of motion for each antenna.
Side view of a carpenter ant, Camponotus pennsylvanicus (Hymenoptera: Formicidae). One good way to differentiate an ant from a termite is to look at the antennae. If they are "elbowed" or bent in the middle, as in this image, it's an ant. If you have something that looks like an ant but has straight antennae, more likely it's a termite.
> Side view of a carpenter ant, Camponotus pennsylvanicus (Hymenoptera: Formicidae). One good way to differentiate an ant from a termite is to look at the antennae. If they are "elbowed" or bent in the middle, as in this image, it's an ant. If you have something that looks like an ant but has straight antennae, more likely it's a termite.
Side view of a carpenter ant, Camponotus pennsylvanicus (Hymenoptera: Formicidae). One good way to differentiate an ant from a termite is to look at the antennae. If they are "elbowed" or bent in the middle, as in this image, it's an ant. If you have something that looks like an ant but has straight antennae, more likely it's a termite.
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Keywords: ant micro hymenoptera reproductive zstack114
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