Lycaenidae Explained

Lycaenidae is the second-largest family of butterflies (behind Nymphalidae, brush-footed butterflies), with over 6,000 species worldwide,[1] whose members are also called gossamer-winged butterflies. They constitute about 30% of the known butterfly species.

The family comprises seven subfamilies, including the blues (Polyommatinae), the coppers (Lycaeninae), the hairstreaks (Theclinae), and the harvesters (Miletinae).

Description, food, and life cycle

Adults are small, under 5 cm usually, and brightly coloured, sometimes with a metallic gloss. Lycaenidae wings are generally blue or green. More than half of these butterflies depend on ants in some way.[2]

Larvae are often flattened rather than cylindrical, with glands that may produce secretions that attract and subdue ants. Their cuticles tend to be thickened. Some larvae are capable of producing vibrations and low sounds that are transmitted through the substrates they inhabit. They use these sounds to communicate with ants.[3] [4]

Adult individuals often have hairy antenna-like tails complete with black and white annulated (ringed) appearance. Many species also have a spot at the base of the tail and some turn around upon landing to confuse potential predators from recognizing the true head orientation. This causes predators to approach from the true head end resulting in early visual detection or to attack the false head ending up with a beak of dusty scales.[5]

Lycaenid caterpillars are diverse in their food habits and apart from phytophagy, some are entomophagous, feeding on aphids, scale insects, and ant larvae. Some lycaenids even exploit their association with ants by inducing ants to feed them by regurgitation, a process called trophallaxis. Not all lycaenid butterflies need ants, but about 75% of species associate with ants,[3] a relationship called myrmecophily. These associations can be mutualistic, parasitic, or predatory depending on the species.

In some species, larvae are attended and protected by ants while feeding on the host plant, and the ants receive sugar-rich honeydew from them, throughout the larval life, and in some species during the pupal stage. In other species, only the first few instars are spent on the plant, and the remainder of the larval lifespan is spent as a predator within the ant nest. It becomes a parasite, feeding on ant regurgitations, or a predator on the ant larvae.[3] The caterpillars pupate inside the ants' nest and the ants continue to look after the pupae. Just before the adults emerge, the wings of the butterfly inside the pupal case detach from it, and the pupa becomes silvery. The adult butterfly emerges from the pupa after three to four weeks, still inside the ant nest. The butterfly must crawl out of the ant nest before it can expand its wings.

Several evolutionary adaptations enable these associations, including small glands on the skin of the caterpillars called "pore cupola organs". Caterpillars of many species have a gland on the seventh abdominal segment that produces honeydew and is called the "dorsal nectary gland" (also called "Newcomer's gland"). An eversible organ called the "tentacular organ" is present on the eighth abdominal segment and this is cylindrical and topped with a ring of spikes and emits chemical signals which are believed to help in communicating with ants.[6]

Subfamilies

Many taxonomists only include the Lycaeninae, Theclinae, Polyommatinae, Poritiinae, Miletinae, and Curetinae under the Lycaenidae.[7]

Notes and References

  1. Pierce . Naomi E. . Braby . Michael F. . Heath . Alan . Lohman . David J. . Mathew . John . Rand . Douglas B. . Travassos . Mark A. . The Ecology and Evolution of Ant Association in the Lycaenidae (Lepidoptera) . Annual Review of Entomology . January 2002 . 47 . 1 . 733–771 . 10.1146/annurev.ento.47.091201.145257 . 11729090 .
  2. Ueda . Shouhei . Komatsu . Takashi . Itino . Takao . Arai . Ryusuke . Sakamoto . Hironori . Host-ant specificity of endangered large blue butterflies (Phengaris spp., Lepidoptera: Lycaenidae) in Japan . Scientific Reports . 3 November 2016 . 6 . 1 . 36364 . 10.1038/srep36364 . 27808223 . 5093462 . 2016NatSR...636364U .
  3. Pierce . Naomi E. . Braby . Michael F. . Heath . Alan . Lohman . David J. . Mathew . John . Rand . Douglas B. . Travassos . Mark A. . The Ecology and Evolution of Ant Association in the Lycaenidae (Lepidoptera) . Annual Review of Entomology . January 2002 . 47 . 1 . 733–771 . . 10.1146/annurev.ento.47.091201.145257 . 11729090 .
  4. DeVries . Philip J. . Singing Caterpillars, Ants and Symbiosis . Scientific American . 1992 . 267 . 4 . 76–83 . 10.1038/scientificamerican1092-76 . 24939256 . 1992SciAm.267d..76D .
  5. Robbins . Robert K. . The 'False Head' Hypothesis: Predation and Wing Pattern Variation of Lycaenid Butterflies . The American Naturalist . 1981 . 118 . 5 . 770–775 . 10.1086/283868 . 2460614 . 34146954 .
  6. https://web.archive.org/web/20071118081136/http://www.amonline.net.au/factSheets/lycaenid.htm "Lycaenid Butterflies and Ants"
  7. Ackery, P. R.; de Jong, R. & Vane-Wright, R. I. (1999). "The butterflies: Hedyloidea, Hesperioidea, and Papilionoidea". Pages 264-300 in: Lepidoptera: Moths and Butterflies. 1. Evolution, Systematics, and Biogeography. Handbook of Zoology Vol. IV, Part 35. N. P. Kristensen, ed. De Gruyter, Berlin and New York.
  8. Boyle . John H. . Kaliszewska . Zofia A. . Espeland . Marianne . Suderman . Tamara R. . Fleming . Jake . Heath . Alan . Pierce . Naomi E. . Phylogeny of the A phnaeinae: myrmecophilous A frican butterflies with carnivorous and herbivorous life histories . Systematic Entomology . January 2015 . 40 . 1 . 169–182 . 10.1111/syen.12098 . 2015SysEn..40..169B . 83052979 .
  9. Brower, Andrew V. Z. (2008). "Lycaenidae [Leach] 1815"]. Version 25 April 2008 (under construction). The Tree of Life Web Project.[7] The Aphnaeinae, which used to be a tribe (Aphnaeini) within the Theclinae, were recently given subfamily rank too.[8]

    Some older classifications used to include other subfamilies such as Liphyrinae (now Liphyrini, a tribe within Miletinae), Lipteninae (now Liptenini, a tribe within Poritiinae), or Riodininae (now a separate family: Riodinidae).

    The fossil genus Lithodryas is usually (but not unequivocally) placed here; Lithopsyche is sometimes placed here, but sometimes in the Riodininae.

    See also

    Further reading

    External links