The previous moth count on May 18 was 190 species but after last night it stands at 195 species. The moth shown above is the Powdered Bigwig (Lobophora nivigerata) and species 195. I’m not sure why it is called Powdered Bigwig although the wings do have a powdery look. It is one of the Geometers (Family Geometridae). The Powdered Bigwig was one of several that came to my porch light after sunset until about 2 AM when I decided to call it a night. Other species seen and added to the list in the last few days are Lesser Aspen Webworm Moth (Meroptera pravella, Family Pyralidae), Signate Melanolophia (Melanolophia signataria, Family Geometridae), Black-Dashed Hydriomena (Hydriomena divisaria, Family Geometridae), and One-eyed Sphinx (Smerinthus cerisyi, Family Sphingidae).
I’m hoping tonight to add five more species.
Lesser Aspen Webworm Moth (Meroptera pravella)
Signate Melanolophia (Melanolophia signataria)
Black-Dashed Hydriomena (Hydriomena divisaria)
One-eyed Sphinx (Smerinthus cerisy)
One-eyed Sphinx (Smerinthus cerisy) detail of eyespot.
Many insects have evolved false eyes or “eyespots” on different parts of their bodies presumably to deter predators. The butterfly shown above is the Northern Pearly-eye (Enodia anthedon formerly known by Lethe anthedon) and has many “eyes” on its underwings. But why so many and what might they be for? Eyespots are thought have at least two effects on potential predators. One is to frighten them off especially if the eyespots are suddenly displayed and resemble those of a more dangerous predator. Another is to direct the attention of the potential predator towards the spots which it then attacks. The second idea might be the case for the eyespots on the Northern Pearly-eye Butterfly. The eyespots may function as a decoy away from the head prompting a predator to strike this non-vital area instead only to get a mouthful of dry scales. Wing damage patterns have been cited as evidence for this. But why attack the eyes at all? And how are eyes a decoy away from the head anyway? Wouldn’t the eyes see the predator coming and alert the prey? It would make more sense to sneak up from behind or below out of the vision field. Further, the eyespots on the Northern Pearly-eye, which are thin yellow circles surrounding a larger darker circle with a small white fleck, are not very good imitations of mammal or bird eyes like these on the Emperor Moth. Maybe the damaged wings on seen on some Northern Pearly-eye and other butterflies with similar eyespots were not made by a confused predator but by one who attacked too quickly and missed getting the whole butterfly in its mouth. Another proposed idea is that these are signalling devices to attract mates or intimidate competitors of the same species although I’m sure how this could be tested. It could be the things we call eyespots are not mimicking eyes at all.
Description, Range, Life History of the Northern Pearly-eye
The Northern Pearly-eye is one of three similar looking species in the genus Enodia, one of two genera separated from Lethe, the other being Satyrodes, found in North America. It extends further north and west in its range than the other species but overlaps with Satyrodes eurydice and S. appalachia in the Great Lakes Region and Appalachians and E. portlandia and E. creola along its southern margins.
Northern Pearly-eye is a medium sized butterfly with a wingspan of 45 to 53 mm. It is a soft purplish-brown on both the upper and lower wings which have somewhat scalloped margins. The eyespots usually have a roundish white pupil in the center. The last eyespot on the underside of the hindwing has two pupils or more often is formed from two eyespots that are merging into what looks like the number “8”.
The easiest feature to separate Northern Pearly-eye from the other Enodia and Satyrodes species in field are the club-shaped tips on the antennae. These are black in E. anthedon but yellowish in S. eurydice and S. appalachia, orange in E. portlandia, and yellow-orange with or without a black basal band in E. creola. Eyespots on the underwings of S. eurydice and S. appalachia are ringed with a white outer circle. The second eyespot on the underside of the forewing of E. anthedon is much smaller than the rest which helps to distinguish it further from S. appalachia. Eyespots of E. portlandia and E. creola, both species of the southeastern US, are usually surrounded by a diffuse white band or circles although this is not always well defined.
Larvae (slightly fuzzy, green with a pair of red-tipped “horns” at each end, and with longitudinal yellow stripes) of Northern Pearly-eye feed on grasses such as short-husk grass (Brachyelytrum erectum) which grows in mesic to moist forests and bottle brush grass (Elymus hystrix) and false melic grass (Schizachne purpurascens) which grow in mesic forests and clearings. Eggs are laid individually on the host plant. After hatching the larvae feed up until the third or fourth instar after which they hibernate appearing the following spring when they resume feeding and growing. Further south in its range there are two generations per summer so it is only the second brood that overwinters. Adult Northern Pearly-eyes feed on dung, carrion, and sap from aspen and birch. One of the few butterflies that inhabit forests, look for Northern Pearly-eyes in moist to mesic forests either in small openings or along edges near marshes and streams. The peak flight season is in July and August over the northernmost part of its range but begins in June further south.
Class Insecta – Insects
Order Lepidoptera – (Butterflies, Skippers, and Moths)
Superfamily – Papilionoidea (Butterflies and Skippers)
Family Nymphalidae – (Brush-footed Butterflies)
Subfamily Satyrinae – (Satyrs, Morphos and Owls)
Tribe Satyrini – (Alpines, Arctics, Nymphs and Satyrs)
Genus and species – Enodia anthedon (Northern Pearly-eye)
The genus Lethe, to which Enodia and Satyrodes once belonged, is now generally considered to include only Old World species. All are in the Tribe Satyrini.
Eyespots and predation
Field experiments on the effectiveness of ‘eyespots’ as predator deterrents. Martin Stevens, Elinor Hopkins, William Hinde, Amabel Adcock, Yvonne Cononnolly, Tom Troscianko, and Innes C. Cuthill. Animal Behaviour, 2007, 74, 1215-1227
Predator mimicry, not conspicuousness, explains the efficacy of butterfly eyespots. Sebastiano De Bona, Janne K. Valkonen, Andre´s Lo´pez-Sepulcre and Johanna Mappes. http://dx.doi.org/10.1098/rspb.2015.0202
The role of eyespots as anti-predator mechanisms, principally demonstrated in the Lepidoptera. Martin Stevens. Biological Reviews (2005), 80, pp. 1–16
Descriptions and information on life cycle and ecology
Discovered at Last: Lethe creola (Nymphalidae:Satyrinae) is a Resident of Florida. John V. Calhoun, Patrick R. Leary, Bill Berthet, and Andrew D. Waren. Southern Lepidopterists’ News Volume 37 No.2 (2015), 81-87.
Species Lethe anthedon – Northern Pearly-eye – Hodges#4568.1 at BugGuide
The Butterflies of Canada. Ross Layberry, Peter Hall, Don Lafontaine. December 15, 1998. University of Toronto Press
Higher level phylogeny of Satyrinae butterflies (Lepidoptera: Nymphalidae) based on DNA sequence data. Carlos Peña, Niklas Wahlberg, Elisabet Weingartner, llasa Kodandaramaiah, Sören Nylin, André V.L. Freitas, Andrew V.Z. Brower. Molecular Phylogenetics and Evolution 40 (2006) 29–49