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Superregnum: Eukaryota
Regnum: Animalia
Subregnum: Eumetazoa
Cladus: Bilateria
Cladus: Nephrozoa
Cladus: Protostomia
Cladus: Ecdysozoa
Cladus: Panarthropoda
Phylum: Arthropoda
Subphylum: Hexapoda
Classis: Insecta
Cladus: Dicondylia
Subclassis: Pterygota
Cladus: Metapterygota
Infraclassis: Neoptera
Cladus: Eumetabola
Cladus: Endopterygota
Superordo: Panorpida
Cladus: Amphiesmenoptera
Ordo: Lepidoptera
Subordo: Glossata
Cladus: Coelolepida
Cladus: Myoglossata
Cladus: Neolepidoptera
Infraordo: Heteroneura
Cladus: Eulepidoptera
Cladus: Ditrysia
Cladus: Apoditrysia
Superfamilia: Zygaenoidea

Familia: Zygaenidae
Subfamiliae: Callizygaeninae - Chalcosiinae - Phaudinae - Procridinae - Zygaeninae - Unassigned [unverified]


Zygaenidae Latreille, 1809.

Efetov, K.A. & G.M. Tarmann, 1995: An annotated check-list of the Palaearctic Procridinae (Lepidoptera: Zygaenidae), with descriptions of new taxa. Entomologist's Gazette 46: 63–103.
Hofmann, A., 2011: Zur Präimaginalbiologie afghanischer Rotwidderchen-Arten: Zygaena hindukuschi Koch, 1937 – Freilandbeobachtungen, Zuchtergebnisse und Beschreibung einer neuen Unterart vom Kuh-e Paghman (Lepidoptera: Zygaenidae). Entomologische Zeitschrift 121 (6): 271–279.
Holik, O.K. & Sheljuzhko, L.A., 1955: Über die Zygaenen-Fauna Osteuropas, Kleinasiens, Irans, Zentralasiens und Sibiriens (Fortsetzung). Mitteilungen der Münchner Entomologischen Gesellschaft, 44-45: 26- 158. Full article: [1]
Holik, O.K. & Sheljuzhko, L.A., 1956: Über die Zygaenen-Fauna Osteuropas, Kleinasiens, Irans, Zentralasiens und Sibiriens (Fortsetzung). Mitteilungen der Münchner Entomologischen Gesellschaft, 46: 92- 239.
Holik, O.K. & Sheljuzhko, L.A., 1957: Über die Zygaenen-Fauna Osteuropas, Kleinasiens, Irans, Zentralasiens und Sibiriens (Fortsetzung). Mitteilungen der Münchner Entomologischen Gesellschaft, 47: 143- 185. Full article: [2].
Naumann, C.M. 1988: The internal female genitalia of some Zygaenidae (Insecta, Lepidoptera): their morphology and remarks on their phylogenetic significance. Systematic entomology, 13: 85–99. DOI: 10.1111/j.1365-3113.1988.tb00231.x
Niehuis, O.; Yen, S-h.; Naumann, C.M.; Misof, B. 2006: Higher phylogeny of zygaenid moths (Insecta: Lepidoptera) inferred from nuclear and mitochondrial sequence data and the evolution of larval cuticular cavities for chemical defence. Molecular phylogenetics and evolution, 39: 812–829. DOI: 10.1016/j.ympev.2006.01.007 PDF
Pitkin, B. & P. Jenkins. Butterflies and Moths of the World: Generic Names and their Type-species. Natural History Museum.[3]

Vernacular names
беларуская: Стракаткі
Deutsch: Widderchen
Esperanto: Zigenedoj
suomi: Punatäpläperhoset
français: Zygénidé
hornjoserbsce: Lampawy
magyar: Csüngőlepkefélék
日本語: マダラガ科
lietuvių: Marguoliai
Nederlands: Bloeddrupjes
norsk: bloddråpesvermere
polski: Kraśnikowate
русский: Пестрянки
slovenčina: Vretienkovité
українська: Пістрянки
中文: 斑蛾科

The Zygaenidae moths are a family of Lepidoptera. The majority of zygaenids are tropical, but they are nevertheless quite well represented in temperate regions. Some of the 1000 or so species are commonly known as burnet or forester moths, often qualified by the number of spots, although other families also have 'foresters'. They are also sometimes called smoky moths.

All 43 species of Australian zygaenids are commonly known as foresters and belong to the tribe Artonini. The only nonendemic species in Australia is Palmartona catoxantha, a Southeast Asian pest species which is believed to be already present in Australia or likely to arrive soon.[1]


Larvae are stout and may be flattened. A fleshy extension of the thorax covers the head. Most feed on herbaceous plants, but some are tree feeders. Larvae in two subfamilies, Chalcosiinae and Zygaeninae, have cavities in which they store the cyanide, and can excrete it as defensive droplets.[2]
Aposematism in adults

Zygaenid moths are typically day flying with a slow, fluttering flight, and with rather clubbed antennae. They generally have a metallic sheen and often prominent spots of red or yellow. The bright colours are a warning to predators that the moths are distasteful - they contain hydrogen cyanide (HCN) throughout all stages of their life cycle. Unlike most insects with such toxins, they obtain glucosides from the plants they utilize so that HCN can be used as a defence.[3] However, they are capable of making HCN themselves, and when in an environment poor in cyanide-producing plants, synthesize it themselves.[4] They form mimicry complexes based on these toxins.[5]

However, while the overall picture is of genuine aposematism – the insects are both conspicuously coloured and toxic, containing cyanogenic glucosides – a study by Emmanuelle Briolat and colleagues including Martin Stevens found no evidence of a quantitative relationship between the visual signals of different species of Zygaenidae and their toxicity.[6]

The fossil species Neurosymploca? oligocenica, belonging to the subfamily Zygaeninae, is known from Lower Stampian (Early Oligocene) deposits in Céreste, Alpes-de-Haute-Provence, France.[7] Lepidopterans with preserved structural coloration from the Eocene (~47 Ma) shales of the Messel Pit, Germany, are suggested to be zygaenids, and more specifically procridines due to wing venation patterns.[8]
Economic importance

The grapeleaf skeletonizer can be a problem in vineyards, feeding on foliage and can also be found feeding on Virginia creeper.
Selected taxa
Satin-green forester (Pollanisus viridipulverulenta) found in most of Australia (including temperate Tasmania)

Genera incertae sedis include:


Pest species include:

Almond-tree leaf skeletonizer moth (Aglaope infausta)
Vine bud moth (Theresimima ampellophaga)
Grapeleaf skeletonizer (Harrisina americana)

South European species:

Zygaena fausta

UK species:

Scarce forester (Jordanita globulariae)
Cistus forester (Adscita geryon)
Green forester (Adscita statices)
Scotch burnet (Zygaena exulans)
Slender Scotch burnet (Zygaena loti)
New Forest burnet (Zygaena viciae)
Six-spot burnet (Zygaena filipendulae)
Five-spot burnet (Zygaena trifolii)
Narrow-bordered five-spot burnet (Zygaena lonicerae)
Transparent burnet (Zygaena purpuralis)

African species:

Fire grid burnet (Arniocera erythopyga)

Extinct species:

Neurosymploca? oligocenica Fernández-Rubio & Nel, 2000 (Lower Stampian, Céreste, Alpes-de-Haute-Provence, France)

See also

List of zygaenid genera


Tarmann, G.M. "Zygaenid moths of Australia. A revision of the Australian Zygaenidae".
Niehuis, O., Yen, S.H., Naumann, C.M. & Misof, B. (2006). "Higher phylogeny of zygaenid moths (Insecta: Lepidoptera) inferred from nuclear and mitochondrial sequence data and the evolution of larval cuticular cavities for chemical defence." Molecular Phylogenetics and Evolution 39(3): 812-829.
The Lepidoptera: Form, function and diversity. Oxford Univ. Press.
Naumann, C.M., Tarmann, G.M. & Tremewan, W.G. (1999). The Western Palaearctic Zygaenidae. Apollo Books.
Briolat, Emmanuelle S.; Zagrobelny, Mika; Olsen, Carl E.; Blount, Jonathan D.; Stevens, Martin (2 Nov 2018). "No evidence of quantitative signal honesty across species of aposematic burnet moths (Lepidoptera: Zygaenidae)". Journal of Evolutionary Biology. Wiley. 32 (1): 31–48. doi:10.1111/jeb.13389. ISSN 1010-061X. PMC 6378400.
Fernández-Rubio, F.; Nel, A. (2000). "Neurosymploca? oligocenica a new fossil species of Lepidoptera Zygaenoidea of the Oligocene of Céreste (Lubéron, France)" (PDF). Boletín de la S.E.A. 27: 7–16.
McNamara, Maria E.; Briggs, Derek E. G.; Orr, Patrick J.; Wedmann, Sonja; Noh, Heeso; Cao, Hui (2011-11-15). Benton, Michael J. (ed.). "Fossilized Biophotonic Nanostructures Reveal the Original Colors of 47-Million-Year-Old Moths". PLOS Biology. 9 (11): e1001200. doi:10.1371/journal.pbio.1001200. ISSN 1545-7885. PMC 3217029. PMID 22110404.

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