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Big Dipper Firefly

Photinus pyralis (Linnaeus 1767)

Brief Summary

    Photinus pyralis: Brief Summary
    provided by wikipedia

    Photinus pyralis, known by the common names common eastern firefly and big dipper firefly, is the most common species of firefly in North America. P. pyralis is a flying and light-producing beetle with a light organ on the ventral side of its abdomen. This organism is sometimes incorrectly classified as Photuris pyralis, which likely results from mistaking the similar-sounding genus Photuris.

    File:Common eastern firefly (Photinus pyralis) in USA.webmPlay media Common eastern firefly (Photinus pyralis)

    The Photuris female may also lure a Photinus pyralis to be eaten to obtain spider-repellent steroids called "lucibufagins". In males the light organ covers the entire ventral surface of the three most posterior segments and in females it only covers a portion of the third posterior segment. These fireflies are most noticeable around twilight, in the early part of the evening and hover close to the ground. The species' common name refers to the characteristic flight of the male, which flies in a J-shaped trajectory, lighting on the upswing. During flight, the J-shaped flight pattern is used in combination with patrolling flash patterns while seeking a mate. Their flashes are stimulated by light conditions, not by rhythmic impulses as originally thought.

Comprehensive Description

    Photinus pyralis
    provided by wikipedia

    Photinus pyralis, known by the common names common eastern firefly[2] and big dipper firefly,[3] is the most common species of firefly in North America.[4] P. pyralis is a flying and light-producing beetle with a light organ on the ventral side of its abdomen. This organism is sometimes incorrectly classified as Photuris pyralis, which likely results from mistaking the similar-sounding genus Photuris.

    Common eastern firefly (Photinus pyralis)

    The Photuris female may also lure a Photinus pyralis to be eaten to obtain spider-repellent steroids called "lucibufagins".[5] In males the light organ covers the entire ventral surface of the three most posterior segments and in females it only covers a portion of the third posterior segment.[6] These fireflies are most noticeable around twilight, in the early part of the evening and hover close to the ground.[7] The species' common name refers to the characteristic flight of the male, which flies in a J-shaped trajectory, lighting on the upswing.[8] During flight, the J-shaped flight pattern is used in combination with patrolling flash patterns while seeking a mate.[9] Their flashes are stimulated by light conditions, not by rhythmic impulses as originally thought.[7]

    Light production

    Males of Photinus pyralis locate females by a series of light flashes, to which females respond with a coded delay flash. The light organ of P. pyralis is composed of two layers; a layer of refractile cells on the dorsal side and a photic layer with light-producing cells on the ventral side.[10] The light organ (specifically the photogenic layer) is supplied with numerous tracheal branches, which are thought to provide the required oxygen for light production.[10] The light-producing enzyme is luciferase, and is found within cells of the lantern.[11] Luciferases require oxygen, luciferin and adenosine triphosphate (ATP) to catalyze a chemical reaction that produces bioluminescence in these insects.[12] It has been shown that the glow is not controlled by the tracheal end cells (which were thought to contain valves) nor by central nerve impulses through studies involving low oxygen conditions.[13] Pupae of these beetles have different light organs than the adult. They do not have the characteristic tracheal end cells of the flashing adults, and whereas the adults emit bright flashes, pupae emit low intensity glowing.[13]

    Defense

    Beetles from the family Lampyridae have been known to use certain defenses such as unpleasant odour and the excretion of a sticky substance to avoid predation.[14] Excretion of unpleasant fluids from the areas along the elytra and pronotum is the result of tactile stimulation and has been referred to as reflexive bleeding.[15] This reflex bleeding is a defensive function of P.pyralis, as it can cause certain predators to become entangled in the sticky substance (such as ants) or cause revulsion in others upon predation.[15] The excretion contains lucibufagins, steroids found in P. pyralis that render them distasteful to certain bird predators.[16] Whereas adult flashing is used in mate signaling, pupae glow is thought to be an aposematic display for nocturnal predators.[17]

    In relation, males of the Photinus species are the prey for females of a different genus, Photuris. Photuris females actually mimic the effects of the Photinus males light-signaling patterns, and by doing this the females lure in the Photinus males. The males naturally produce the steroid lucibufagin, and the reason that the females prey on these males is to obtain this steroid. Once the females prey on the Photinus males, the females gain the steroid lucibufagin to use to their defense against jumping spiders. A study was performed where the Photuris females were collected from nature and forced to reflex bleed which contains the steroid lucibufagin. It was found that when the females were forced to reflex bleed, the samples taken from each female had different amounts of the steroid in each sample. So after experiments were brought out to see which females the jumping spiders would eat it was decided that the jumping spiders were more likely to eat the females with less lucibufagin inside their bodies and the females with more were constantly rejected by the spiders therefore protecting themselves from predation.[18]

    Mating

    Males are the first to start the series of patrolling flashes needed to locate and mate with a female. Males will actively fly while flashing, whereas females are sedentary.[19] They will flash every 6 seconds and wait for a responding flash from the female, which comes after a 1-2 second delay [9] It has been shown that females only respond to their conspecific males; identifying them by the color of their yellow bioluminescent flash, in combination with the temporal patterning, duration and intensity of the male flash.[20] Females will twist their abdomen towards the males flash, presenting their own flash toward the male. Males can be observed flying in a nearly vertical orientation; their antennae held forward and stiff while their legs are held toward the body during patrolling.[9] They also show an obvious gaze shift towards the last female flash, and continue towards it until the female firefly flashes again.[9] The flashes continue until the male reaches the female. Males congregate in large masses and it is most likely that more than one will find the same female; in this case male P. pyralis display aggression towards one another while not in flight.[21]

    During the “aggression” stage, males with smaller elytra and smaller lanterns are favored; whereas during the signaling phase, males with longer elytra and bigger lanterns are favoured.[21] Males with larger lanterns are favored in signaling phases of courtship because their broadcasting flashes can be seen by females who are further away, it is also suggested that due to their longer elytra these males may also have an advantage of finding the females faster.[22] Photinus fireflies do not feed as adults [19] and therefore males are better able to attract females by offering nuptial food gifts, in the form of spermatophores which females can use to provide nutrients to their eggs.[23]

    References

    1. ^ "Photinus pyralis". Integrated Taxonomic Information System..mw-parser-output cite.citation{font-style:inherit}.mw-parser-output q{quotes:"""""'"'"}.mw-parser-output code.cs1-code{color:inherit;background:inherit;border:inherit;padding:inherit}.mw-parser-output .cs1-lock-free a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/6/65/Lock-green.svg/9px-Lock-green.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-limited a,.mw-parser-output .cs1-lock-registration a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/d/d6/Lock-gray-alt-2.svg/9px-Lock-gray-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-lock-subscription a{background:url("//upload.wikimedia.org/wikipedia/commons/thumb/a/aa/Lock-red-alt-2.svg/9px-Lock-red-alt-2.svg.png")no-repeat;background-position:right .1em center}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration{color:#555}.mw-parser-output .cs1-subscription span,.mw-parser-output .cs1-registration span{border-bottom:1px dotted;cursor:help}.mw-parser-output .cs1-hidden-error{display:none;font-size:100%}.mw-parser-output .cs1-visible-error{font-size:100%}.mw-parser-output .cs1-subscription,.mw-parser-output .cs1-registration,.mw-parser-output .cs1-format{font-size:95%}.mw-parser-output .cs1-kern-left,.mw-parser-output .cs1-kern-wl-left{padding-left:0.2em}.mw-parser-output .cs1-kern-right,.mw-parser-output .cs1-kern-wl-right{padding-right:0.2em}
    2. ^ Animal Pictures Archive
    3. ^ "Firefly Companion and Letter Winter 1993-1994" (PDF). Archived from the original (PDF) on June 30, 2007. Retrieved January 12, 2009.
    4. ^ State Symbols USA: Tennessee State Insect
    5. ^ Roger Segelken Lured and liquidated, gullible male fireflies supply 'femmes fatales' with a lifesaving chemical Cornell Chronicle September 1, 1997. Retrieved November 22, 2012.
    6. ^ Mast, S.O. 1912. Behaviour of fire-flies (Photinus pyralis) with special references to the problem of orientation. 256-272
    7. ^ a b Rau, P. 1932. Rhythmic periodicity and synchronous flashing in the firefly, Photinus pyralis, with notes on Photurus pennsylvacicus. Ecological Society of America, 13:7-11
    8. ^ Maloney, Brenna; Smallwood, James (July 10, 2009). "How These Beetles Create Light". The Washington Post. Retrieved July 19, 2009.
    9. ^ a b c d Case, J.F. 2004. Flight studies on photic communication by the firefly Photinus pyralis. Integrative and Comparative Biology, 44:250-258
    10. ^ a b Beams, H.W. and Anderson, E. 1955. Light and electron microscope studies on the light organ of the firefly (Photinus pyralis). The Biological Bulletin, 375-393
    11. ^ Keller, G.A., Gould, S., Deluca, M. and Subramani, S. 1987. Firefly luciferase is targeted to peroxisomes in mammalian cells. Proceedings of the National Academy of Sciences, 84:3264-3268
    12. ^ [1][dead link]
    13. ^ a b Hastings, J.W. and Buck, J. 1965. The firefly pseudoflash in relation to photogenic control. The Biological Bulletin, 101-113
    14. ^ Williams F.X. 1917. Notes on the life-history of some North American Lampryridae. Journal of the New York Entomology Society, 25:11-33
    15. ^ a b Blum, M. and Sannasi, A. 1973. Reflex bleeding in the lampyrid Photinus pyralis: defensive function. Journal of Insect Physiology, 20:451-660
    16. ^ Meinwald, J., Wiemer, D.F. and Eisner, T. 1979. Lucibufagins. 2. Esters of 12-Oxo-2p,5p, 1 1 a-trihydroxybufalin, the major defensive steroids of the Firefly Photinus pyralis (Coleoptera: Lampyridae). Journal of the American Chemical Society, 11:3055-3060.
    17. ^ Underwood, T.J., Tallamy, D.W. and Pesek, J.D. 1997. Bioluminescebce in firefly larvae: a test of the aposematic display hypothesis (Coleoptera: Lampyridae). Journal of Insect Behaviour, 10:365-370
    18. ^ Eisner, T. (1997). "Firefly "femmes fatales" acquire defensive steroids (lucibufagins) from their firefly prey". Proc. Natl. Acad. Sci. 94 (18): 9723–9728.
    19. ^ a b Lloyd, J.E. 1966. Studies on the flash communication system in Photinus fireflies. Museum of Zoology, University of Michigan, Ann Arbor
    20. ^ Lall, A.B and Worthy, K.M. 2000. Action spectra of the female’s response in the firefly Photinus pyralis (Coleoptera: Lampyridae): evidence for an achromatic detection of the bioluminescent optical signal. Journal of Insect Physiology, 46:965-968
    21. ^ a b Vencl, F.V. 2004. Allometry and proximate mechanisms of sexual selection in Photinus fireflies, and some other beetles. Integrative and Comparative Biology, 44:242-249
    22. ^ Vencl, F.V. and Carlson, D. 1998. Proximate mechanisms of sexual selection in the firefly Photinus pryalis (Coleoptera: Lampyridae). Journal of Insect behaviour, 11:191-207
    23. ^ Lewis, S.M., Cratsley, C.K. and Demary, K. 2004. Mate recognition and choice in Photinus fireflies. Annales Zoologici Fennici. 41:809-821

Distribution

    Distribution
    provided by Animal Diversity Web

    The common eastern firefly, or North American firefly, ranges throughout the United States east of the Rocky Mountains.

    Biogeographic Regions: nearctic (Native )

Morphology

    Morphology
    provided by Animal Diversity Web

    The common eastern firefly is, in fact, not a fly, but a type of beetle. The average adult is dark brown and 10-14 mm long. Like all insects, it has a hard exoskeleton, six jointed legs, two antennae, compound eyes, and a body divided into three parts head, thorax, and abdomen). Its head has a rounded cover outlined in yellow and accented with two orange spots. Photinus pyralis also has two pairs of wings. The first pair, the elytra, form a cover over the second pair and is dark brown with narrow yellow side margins. Only males use the second pair for flying; females usually have short wings, and do not fly. The last segment of the abdomen is the section that lights up, flashing bright yellow-green.

    Common eastern firefly larvae are characterized by six legs, a pair of antennae, and a flattened segmented abdomen. Upon emerging from the egg they are generally about 1.6 mm in length. By the end of its larval stage it will have grown to about 10.3 mm. Firefly larvae are often referred to as "glow worms" because, like the adults, they emit a glow of light.

    Range length: 10 to 14 mm.

    Other Physical Features: ectothermic ; heterothermic ; bilateral symmetry

    Sexual Dimorphism: sexes shaped differently

Habitat

    Habitat
    provided by Animal Diversity Web

    Larvae of the common eastern firefly most often inhabit moist places such as on the ground, under bark, and near streams. Adult fireflies can be found from late spring to early fall in meadows, woodland edges, and near streams.

    Habitat Regions: temperate ; terrestrial

    Terrestrial Biomes: savanna or grassland ; forest

    Other Habitat Features: suburban ; agricultural ; riparian

Trophic Strategy

    Trophic Strategy
    provided by Animal Diversity Web

    Both adult and larval Phorinua pyralis are carnivorous. They feed on other insects (including other fireflies), earthworms, and snails. When feeding, they inject poison to immobilize and liquefy their prey. This allows the fireflies or larvae to suck up their meal.

    Animal Foods: insects; mollusks; terrestrial worms

    Primary Diet: carnivore (Insectivore , Molluscivore , Vermivore)

Associations

    Associations
    provided by Animal Diversity Web

    An interesting predator of Photinus pyralis is the female Photuris pyralis. This firefly mimics the signal of the female Photinus pyralis and lures male Photinus pyralis that are expecting to mate. However, when the male common eastern firefly reaches this mimicking species, he quickly becomes the female predator's meal.

    Known Predators:

    • Photuris pyralis

Behavior

    Behavior
    provided by Animal Diversity Web

    Communication Channels: visual

    Other Communication Modes: photic/bioluminescent

    Perception Channels: visual

Life Cycle

    Life Cycle
    provided by Animal Diversity Web

    Firefly eggs, which also emit a slight glow, hatch after four weeks into flightless larvae, the longest stage of the firefly life cycle. Larvae live one to two years and can be seen glowing on damp ground and near streams. After passing through the larval stage, the developing firefly moves into chambers in the moist soil and pupates. While pupating, it undergoes metamorphosis, emerging from the pupa as an adult.

    Development - Life Cycle: metamorphosis

Life Expectancy

    Life Expectancy
    provided by Animal Diversity Web

    Adult Photinus pyralis live 5 to 30 days.

    Typical lifespan
    Status: wild:
    5 to 30 days.

Reproduction

    Reproduction
    provided by Animal Diversity Web

    Fireflies use specific flashing signals to find a mate. Females wait on the ground for passing males to flash their signal, and then answer with their own specific signal. It is this communication that allows the male to find a female with whom he mates.

    Mating System: polygynandrous (promiscuous)

    Fireflies use specific flashing signals to find a mate. Females wait on the ground for passing males to flash their signal, and then answer with their own specific signal. It is this communication that allows the male to find a female with whom he mates. This dating game occurs in summer and early fall, and the female generally lays about 500 eggs on damp soil during this time of year.

    Average eggs per season: 500.

    Key Reproductive Features: semelparous ; seasonal breeding ; sexual ; fertilization (Internal ); oviparous

Conservation Status

    Conservation Status
    provided by Animal Diversity Web

    This species does not require any special status.

    US Federal List: no special status

    CITES: no special status

Benefits

    Benefits
    provided by Animal Diversity Web

    There is no known negative economic importance for humans.

    Benefits
    provided by Animal Diversity Web

    The chemical utilized by the common eastern firefly for bioluminescence is a complex organic compound, luciferase. Fireflies have recently been harvested by the biochemical industry for this important compound. Researchers discovered a technique to splice the gene containing luciferase into the DNA of other plants and animals. They use this in tracing the inheritance of a particular disease-resistant gene by splicing the bioluminescence gene into the disease-resistant gene in a parent plant or animal. The disease-resistant gene can then be traced in the offspring, because if it is inherited, it will glow.

    Positive Impacts: source of medicine or drug

Education Resources

Other Articles

    Untitled
    provided by Animal Diversity Web

    Photinus pyralis is the most common of 1900 species of fireflies.

    The firefly produces light in the presence of oxygen, magnesium, and adenosine triphosphate by using an enzyme, luciferase, to oxidize a complex organic compound, luciferin. The light produced is often referred to as "cold light" because almost all the energy is released in the form of light and very little is wasted as heat. The wavelength range of this light spans from 520-620nm, and its brightness reaches 1/40 that of a candle. This bright light is what attracts most of the common eastern firefly's popularity.