The Psychidae (bagworm moths, also simply bagworms or bagmoths) are a family of the Lepidoptera (butterflies and moths). The bagworm family is fairly small, with about 1,350 species[2] described. Bagworm species are found globally, with some, such as the snailcase bagworm (Apterona helicoidella), in modern times settling continents where they are not native.

Bagworm moths
Adult of an undescribed Iphierga species from Aranda (Australia)
"Bag" of unidentified species
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Superfamily: Tineoidea
Family: Psychidae
Boisduval, 1828
Diversity[1]
10 subfamilies, 241 genera and 1,350 species
Bag of Metura elongatus which can grow to more than 120 mm (4.7 in) in length
Bagworm moth caterpillar locomotion

Another common name for the Psychidae is "case moths", but this is just as well used for the case-bearers (Coleophoridae). The names refer to the habits of caterpillars of these two families, which build small protective cases in which they can hide. The bagworms belong to the superfamily Tineoidea, which is a basal lineage of the Ditrysia (as is Gelechioidea, which includes case-bearers). This means that the bagworms and case-bearers are only as closely related to each other as either is to butterflies (Rhopalocera).

Most bagworms are inoffensive to humans and inconspicuous; some are occasional nuisance pests. However, a few species can become more serious pests, and have caused significant damage e.g. to wattle (Acacia mearnsii) in South Africa and orange (Citrus × sinensis) in Florida. If detected early, picking the cases from the trees while in their pupa stage is an effective way to check an infestation; otherwise, insecticides are used. One bagworm species, the fangalabola (Deborrea malgassa) of Madagascar, is in some places encouraged to breed on wattle trees, because its pupae are collected as a protein-rich food.

Description

edit

The caterpillar larvae of the Psychidae construct cases out of silk and environmental materials such as sand, soil, lichen, or plant materials. These cases are attached to rocks, trees or fences while resting or during their pupa stage, but are otherwise mobile. The larvae of some species eat lichen, while others prefer green leaves. In many species, the adult females lack wings and are therefore difficult to identify accurately. Case-bearer cases are usually much smaller, flimsier, and consist mainly of silk, while bagworm "bags" resemble caddisfly cases in their outward appearance – a mass of (mainly) plant detritus spun together with silk on the inside.

Bagworm cases range in size from less than 1 cm to 15 cm among some tropical species. Each species makes a case particular to its species, making the case more useful to identify the species than the creature itself. Cases among the more primitive species are flat. More specialized species exhibit a greater variety of case size, shape, and composition, usually narrowing on both ends. The attachment substance used to affix the bag to host plant, or structure, can be very strong, sometimes requiring a great deal of force to remove.[citation needed] Body markings are rare. Adult females of many bagworm species are larviform, with only vestigial wings, legs, and mouthparts. In some species, parthenogenesis is known. The adult males of most species are strong fliers with well-developed wings and feathery antennae but survive only long enough to reproduce due to underdeveloped mouthparts that prevent them from feeding. Most male bagworm wings have few of the scales characteristic of most moths, instead having a thin covering of hairs.

Ecology

edit

In the larval stage, bagworms extend their head and thorax from their mobile case to devour the leaves of host plants, often leading to the death of their hosts. Trees infested with bagworms exhibit increasingly damaged foliage as the infestation increases until the leaves are stripped bare.[citation needed] Some bagworms are specialized in their host plants (monophagous), while others can feed on a variety of plant species (polyphagous). A few species also consume small arthropods (such as the camphor scale Pseudaonidia duplex, a scale insect).[citation needed] One bagworm species was found to eat an orb-web of Plebs sachalinensis (Araneae, Araneidae) entirely.[3]

Since bagworm cases are composed of silk and the materials from their habitat, they are naturally camouflaged from predators. Predators include birds and other insects. Birds often eat the egg-laden bodies of female bagworms after they have died. Since the eggs are very hard-shelled, they can pass through the bird's digestive system unharmed, promoting the spread of the species over wide areas.[4]

A bagworm begins to build its case as soon as it hatches. Once the case is built, only adult males ever leave the case, never to return, when they take flight to find a mate. Bagworms add material to the front of the case as they grow, excreting waste materials through the opening in the back of the case. When satiated with leaves, a bagworm caterpillar secures its case and pupates.[citation needed] The adult female, which is wingless, either emerges from the case long enough for breeding or remains in the case while the male extends his abdomen into the female's case to breed.[5] Females lay their eggs in their case and die. The female evergreen bagworm (Thyridopteryx ephemeraeformis) dies without laying eggs, and the larval bagworm offspring emerge from the parent's body. Some bagworm species are parthenogenetic, meaning their eggs develop without male fertilization. Each bagworm generation lives just long enough as adults to mate and reproduce in their annual cycle.[6]

Systematics

edit

Ten subfamilies[1] and about 240 genera are recognized among the bagworms.

The subfamilies of Psychidae, with some notable genera and species also listed, are:

References

edit
  1. ^ a b Nieukerken, Erik J. Van; Kaila, Lauri; Kitching, Ian J.; Kristensen, Niels P.; Lees, David C.; Minet, Joël; Mitter, Charles; Mutanen, Marko; Regier, Jerome C.; Simonsen, Thomas J.; Wahlberg, Niklas; Yen, Shen-Horn; Zahiri, Reza; Adamski, David; Baixeras, Joaquin; Bartsch, Daniel; Bengtsson, Bengt Å.; Brown, John W.; Bucheli, Sibyl Rae; Davis, Donald R.; Prins, Jurate De; Prins, Willy De; Epstein, Marc E.; Gentili-Poole, Patricia; Gielis, Cees; Hättenschwiler, Peter; Hausmann, Axel; Holloway, Jeremy D.; Kallies, Axel; Karsholt, Ole; Kawahara, Akito Y.; Koster, Sjaak J. C.; Kozlov, Mikhail V.; Lafontaine, J. Donald; Lamas, Gerardo; Landry, Jean-François; Lee, Sangmi; Nuss, Matthias; Park, Kyu-Tek; Penz, Carla; Rota, Jadranka; Schintlmeister, Alexander; Schmidt, B. Christian; Sohn, Jae-Cheon; Solis, M. Alma; Tarmann, Gerhard M.; Warren, Andrew D.; Weller, Susan; Yakovlev, Roman V.; Zolotuhin, Vadim V.; Zwick, Andreas (23 December 2011). "Order Lepidoptera Linnaeus, 1758. In : Zhang, Z.-Q. (Ed.) Animal biodiversity: An outline of higher-level classification and survey of taxonomic richness". Zootaxa. 3148 (1): 212–221. doi:10.11646/zootaxa.3148.1.41.
  2. ^ Sobczyk, Thomas (2011). World Catalogue of Insects: Psychidae (Lepidoptera). UWA Publishing. ISBN 978-87-88757-98-9.[page needed]
  3. ^ Koshidaka, Naoki; Takasuka, Keizo (5 August 2019). "Discovery of a bagworm devouring an orb web". Arachnology. 18 (2): 147. doi:10.13156/arac.2018.18.2.147. S2CID 201572602.
  4. ^ Barbosa, Pedro; Krischik, Vera; Lance, David (October 1989). "Life-history Traits of Forest-inhabiting Flightless Lepidoptera". The American Midland Naturalist. 122 (2): 262–274. doi:10.2307/2425912. JSTOR 2425912. Retrieved 26 October 2022.
  5. ^ Resh, Vincent H.; Cardé, Ring T. (2009). Encyclopedia of Insects. Academic Press. ISBN 978-0-08-092090-0. Archived from the original on 2020-06-14. Retrieved 2020-06-06.[page needed]
  6. ^ Davis, Donald Ray; Quintero A., Diomedes; Cambra T., Roberto A. (July 2008). "Biology of a New Panamanian Bagworm Moth (Lepidoptera: Psychidae) with Predatory Larvae, and Eggs Individually Wrapped in Setal Cases". Annals of the Entomological Society of America. 101 (4): 689–702. doi:10.1093/aesa/101.4.689. Retrieved 26 October 2022.
edit