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Scientific classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Superfamily: Papilionoidea
Family: Nymphalidae
Rafinesque, 1815

and see article text

Over 600 genera
About 5,700 species

The Nymphalidae are the largest family of butterflies with about 6,000 species distributed throughout most of the world. These are usually medium-sized to large butterflies. Most species have a reduced pair of forelegs and many hold their colourful wings flat when resting. They are also called brush-footed butterflies or four-footed butterflies, this is because they are known to stand on only four legs while the other two are curled up, in some species this forelegs have a brush-like set of hairs which gives this species its other common name. Many species are brightly colored and include popular species such as the emperors, Monarch butterfly, admirals, tortoiseshells, and fritillaries. However, the underwings are in contrast often dull and in some species look remarkably like dead leaves, or are much paler, producing a cryptic effect that helps the butterfly disappear into its surroundings.


Rafinesque[1] introduced the name Nymphalia as a subfamily name in diurnal Lepidoptera. Rafinesque did not include Nymphalis among the listed genera, but Nymphalis was unequivocally implied in the formation of the name (Code Article The attribution of the Nymphalidae to Rafinesque has now been widely adopted (e.g., Vane-Wright & de Jong, 2003: 167; Pelham, 2008; Wahlberg, 2010).


For terms see External morphology of Lepidoptera.

In adult butterflies, the first pair of legs are small or reduced, giving the family the other names of four-footed or brush-footed butterflies. The caterpillars are hairy or spiky with projections on the head, and the chrysalids have shiny spots.

The forewing has the submedial vein (vein 1) unbranched and in one subfamily forked near base; medial vein with three branches, veins 2, 3, and 4; veins 5 and 6 arising from the points of junction of the discocellulars; subcostal vein and its continuation beyond apex of cell, vein 7, with never more than four branches, veins 8–11; 8 and 9 always arising from vein 7, 10, and also 11 sometimes from vein 7 but more often free, i.e., given off by the subcostal vein before apex of cell.[2]

The hindwing has internal (1a) and precostal veins. The cell in both wings closed or open, often closed in the fore, open in the hindwing. Dorsal margin of hind wing channelled to receive the abdomen in many of the forms.[2]

Antennae always with two grooves on the underside; club variable in shape. Throughout the family, the front pair of legs in the male, and with three exceptions (Libythea, Pseudergolis, and Calinaga) in the female also, is reduced in size and functionally impotent; in some the atrophy of the forelegs is considerable, e.g., Danainae and Satyrinae. In many of the forms of these subfamilies, the fore legs are kept pressed against the underside of the thorax, and are in the male often very inconspicuous.[2]

Systematics and phylogeny[edit]

The phylogeny of the Nymphalidae is complex. Several taxa are of unclear position, reflecting the fact that some subfamilies were formerly well-recognized as distinct families due to insufficient study.

The five main clades within the family are:[3]

The libytheine clade (basal)

The danaine clade (basal)

  • Danainae (Milkweed butterflies. Earlier treated as distinct family Danaidae.)
Host plant families include Apocynaceae, Asclepiadoideae (subfamily of Apocynaceae), and Moraceae.
Most species with long wings, some having transparent wings. Host plants in the families Apocynaceae, Gesneriaceae, and Solanaceae.
Caterpillars resemble those of the Danainae and feed on Apocynaceae.

The satyrine clade

Mimics of the Danainae and restricted to host plants in the family Moraceae.[4]
Tropical canopy butterflies. Caterpillars often with head spines or projections. Mostly edible species with some Batesian mimics. Host plants in the families Annonaceae, Celastraceae, Convolvulaceae, Euphorbiaceae, Fabaceae, Flacourtiaceae, Lauraceae, Myrtaceae, Piperaceae, Poaceae, Rhamnaceae, Rutaceae, Santalaceae, and Sapindaceae.[4]
Include the spectacular neotropical Morphos. Food plants include the Arecaceae, Bignoniaceae, Fabaceae, Menispermaceae, Poaceae, and Sapindaceae.
Host plants in the families Arecaceae, Bromeliaceae, Heliconiaceae, Musaceae, and Poaceae.[4]
  • Satyrinae (Satyrs and Browns. Earlier treated as distinct family Satyridae.)
Host plants in the families Arecaceae, Araceae, Cyperaceae, Heliconiaceae, Poaceae, and Selaginellaceae.

The heliconiine clade (sister group of the nymphaline clade; excludes former tribes Biblidini and Cyrestini, and tribes Pseudergolini and Coeini.)

  • Heliconiinae (Earlier treated as distinct family Heliconiidae.)
Colourful tropical butterflies noted for Müllerian mimicry. All species use host plants in the family Passifloraceae.
Host plant in the families Asteraceae, Passifloraceae, Sterculiaceae, Tiliaceae, and Urticaceae.

The nymphaline clade (sister group of the heliconiine clade; also includes tribes Coeini and Pseudergolini)

Host plants in the family Ulmaceae. Caterpillars smooth with bifid tails and horns on the head.[4]
Some species migratory. Caterpillars sometimes covered in spines. Host plants include Acanthaceae, Caprifoliaceae, Convolvulaceae, Euphorbiaceae, Fagaceae, Flacourtiaceae, Lamiaceae, Loranthaceae, Moraceae, Plantaginaceae, Poaceae, Rubiaceae, Rutaceae, Salicaceae, Sapindaceae, Scrophulariaceae, Urticaceae, and Verbenaceae.[4]

Example species from this family[edit]


The trait this butterflies are most known for is the use of only four legs, the reason why the forelegs have become vestigial is not yet completely clear, some suggest the forelegs are being used as a way to amplify the sense of smell, this is because some species posess a brush-like set of soft hair called setae, which has led researchers to believe the forelegs are used to improve signaling and communication between the species, while standing in the other four. This ability proves useful in terms of reproduction and the overall health of the species and it is the leading theory so far.[5]


  1. ^ Rafinesque, C.S. (1815). Analyse de la Nature, ou Tableau de l'Univers et des Corps Organisés. Jean Barravecceia: Palermo. 224 pages, p 127.
  2. ^ a b c Charles Thomas Bingham (1905). Butterflies, Volume 1. The Fauna of British India, Including Ceylon and Burma. London: Taylor and Francis. 
  3. ^ Niklas Wahlberg, Elisabet Weingartner & Sören Nylin (2003). Gisella Caccone & Giacomo Bernardi, ed. "Papers presented at the Mammalian Phylogeny symposium during the 2002 Annual Meeting of the Society for Molecular Biology and Evolution, Sorrento, Italy, June 13–16, 2002" (PDF). Molecular Phylogenetics and Evolution 28 (3): 473–484. doi:10.1016/S1055-7903(03)00052-6. PMID 12927132.  |chapter= ignored (help)
  4. ^ a b c d e Philip J. DeVries (2001). "Nymphalidae". In Simon A. Levin. Encyclopedia of Biodiversity. Academic Press. pp. 559–573. doi:10.1016/B0-12-226865-2/00039-0. ISBN 978-0-12-226865-6. 
  5. ^ Gould, S.E. "Butterfly watch: four legs vs. six legs". Scientific American. Scientific American. Retrieved 7 Sep 2013. 

Further reading[edit]

  • Glassberg, Jeffrey Butterflies through Binoculars, The West (2001)
  • Guppy, Crispin S. and Shepard, Jon H. Butterflies of British Columbia (2001)
  • James, David G. and Nunnallee, David Life Histories of Cascadia Butterflies (2011)
  • Pelham, Jonathan Catalogue of the Butterflies of the United States and Canada (2008)
  • Pyle, Robert Michael The Butterflies of Cascadia (2002)

External links[edit]