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Argynnini Duponchel 1835


Thomas Simonsen, Niklas Wahlberg, and Andrew V. Z. Brower
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taxon links [up-->]Yramea [up-->]Euptoieta [up-->]Boloria [up-->]Brenthis [up-->]Argynnis [up-->]Issoria [down<--]Heliconiinae Interpreting the tree
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Containing group: Heliconiinae


The tribe Argynnini, commonly known as Fritillaries, is a group of fairly uniform, small to medium sized butterflies. Almost all species have an orange-brown ground colour with a pattern of black spots and streaks on the upper side, and some pearly white to silvery white spots on the underside, particularly on the hindwing.

Classically, the Argynnini has been divided into as many as 17 genera, but here we follow Simonsen (2006) and Simonsen et al. (in press) and reduce the number of genera to six. The exact number of species in the tribe is uncertain. On the Tree of Life, we tentatively list 104 species. But this number is highly uncertain and may change dramatically with forthcoming revisions of the species rich and taxonomically insufficiently known genus Boloria and the Argynnis subgenus Speyeria.

Most Argynnini species are distributed in the temperate, alpine and arctic regions of the Holarctic, but the subtribes Yramiina and Euptoietina are South American with one species (Euptoieta claudia) extending well into temperate North America.


Putative autapomorphies for Argynnini include (Penz & Djunianti 2003, Simonsen 2006a, b):

Putative synapomorphies for Yramea , Boloria , Argynnina (modified from Simonsen 2006b):

Putative synapomorphies for Boloria , Argynnina (modified from Simonsen 2006b):

Putative autapomorphies for Argynnina include (Simonsen 2006a, b):

Putative synapomorphies for Brenthis , Argynnis (Simonsen 2006b):

Notes: The genus-level phylogeny shown here is derived from Simonsen et al. (2007) and differs from the morphological study by Simonsen (2006b) by having Yramea as the sister group of Boloria + Argynnina, instead of having Yramea + Boloria as the sister group of Argynnina. The putative synapomorphies for Yramea , Boloria , Argynnina and Boloria , Argynnina respectively are therefore not directly from Simonsen (2006b), but identified by analyzing the dataset therein against the phylogenetic relationships recovered by Simonsen et al. (in press).

Discussion of Phylogenetic Relationships

The classification and systematic relationships of the Argynnini has been the subject of numerous studies for more than three-quarters of a century, based on both morphology (Reuss 1926, Dos Passos & Grey 1945, Warren et al. 1946, Warren 1955, Shirôzu & Saigusa 1973, Penz & Peggie 2003, Simonsen 2006a, b) and molecular characters (Aubert et al. 1996, Simonsen et al. 2007). Simonsen et al. (2007) is so far the only study that has combined morphological characters with a large molecular dataset comprised by several genes.

The tribe Argynnini is comprised by four subtribes: Euptoietina Simonsen, 2006 (comprising Euptoieta), Yrameina Reuss, 1926 (comprising Yramea), Boloriina Warren et al., 1946 (comprising Boloria) and Argynnina (comprising Issoria, Brenthis and Argynnis s.l.). The position of Euptoieta has been disputed, and it was placed within Heliconiinae by Harvey (1991) without a specific tribal or subtribal assignment. Recent studies (Brower 2000, Penz & Peggie 2003, Freitas & Brown 2004, Simonsen 2006a, b, Simonsen et al. 2007) have all placed Euptoieta with the fritillaries. Penz & Peggie (2003), in a study focussed on the entire subfamily Heliconiinae, placed Euptoieta as the sister group of Argynnina. However, Simonsen (2006b) and Simonsen et al. (2007) in studies focussed on Argynnina favoured the shown phylogeny with Euptoietina as a separate subtribe comprising the sister group of the remaining fritillaries.

The positions of Yramea and Boloria have been disputed as well. Yramea has earlier been considered to belong to the genus Issoria (Warren 1955), but the studies by Simonsen (2006b) and Simonsen et al. (2007) clearly show that this is not the case. Simonsen (2006b) had Yramea and Boloria as sister taxa in one subtribe, Yrameina. The phylogeny favoured here is from Simonsen et al. (2007) with Yramea in it’s own subtribe as the sister groups of Boloriina + Argynnina.


Aubert, J., B. Barascud, H. Descimon and F. Michel. 1996. Syst?matic mol?culaire des Argynnes (Lepidoptera: Nymphalidae). Comptes-Rendus de l'Acad?mie Des Sciences de Paris III, Sciences de la Vie/Life Sciences, 319. pp. 647-651.

Brower, A. V. Z. 2000. Phylogenetic relationships among the Nymphalidae (Lepidoptera), inferred from partial sequences of the wingless gene. Proceedings of the Royal Society of London Series B Biological Sciences 267:1201-1211.

Dos Passos, C. F. and L. P. Grey. 1945. A genitalic survey of the Argynninae (Lepidoptera: Nymphalidae). American Museum Novitiates, 1296. pp. 1-29.

Freitas, A. V. L. and K. S. Brown. 2004. Phylogeny of the Nymphalidae (Lepidoptera). Systematic Biology 53 (3):363-383

Harvey, D. J. 1991. Higher classification of the Nymphalidae, Appendix B. Pages 255-273 in The Development and Evolution of Butterfly Wing Patterns (H. F. Nijhout, ed.) Smithsonian Institution Press, Washington DC.

Penz, C. M. and D. Peggie. 2003. Phylogenetic relationships among Heliconiiae genera based on morphology (Lepidoptera: Nymphalidae). Systematic Entomology, 28, pp. 451-479.

Reuss, F. A. T. 1926. Systematischer ?berblick der Dryadinae T. Rss. mit einigen Neubeschreibungen (Lep.Rhopal.). Deutche Entomologische Zeitschrift, 1926. pp. 65-70.

Shir?zu, T. and T. Saigusa. 1973. A generic classification of the genus Argynnis and its allied genera (Lepidoptera: Nymphalidae). Sieboldia, 4. pp. 99-104.

Simonsen, T. J. 2006a. Glands, muscles and genitalia. Morphological and phylogenetic implications of histological characters in the male genitalia of fritillary butterflies (Lepidoptera: Nymphalidae: Argynnini). Zoologica Scripta, 35 (3). pp. 231-241.

Simonsen, T. J. 2006b. Fritillary phylogeny, classification and larval hostplants: reconstructed mainly on the basis of male and female genitalic morphology (Lepidoptera: Nymphalidae: Argynnini). Biological Journal of the Linnean Society 89: 627-673.

Simonsen, T. J., Wahlberg, N., Brower, A. V. Z., and de Jong, R. 2006. Morphology, molecules and fritilllaries: approaching a stable phylogeny for Argynnini (Lepidoptera: Nymphalidae). Insect Syst. Evol. 37: 405-418.

Warren, B. S. C. 1955. A revision of the classification of the subfamily Argynninae (Lepidoptera: Nymphalidae). Part 2. Definition of the Asiatic genera. Transactions of the Royal Entomological Society of London, 107. pp. 381-391.

Warren, B. S. C., C. F. dos Passos and L. P. Grey. 1946. Supplementary notes on the classification of Argynninae (Lepidoptera: Nymphalidae). Proceedings of the Royal Entomological Society of London, 15. pp. 71-73.

Title Illustrations
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Scientific Name Brenthis ino
Location Finland
Acknowledgements This image is licensed under the Attribution-NonCommercial-ShareAlike 2.0 Creative Commons License.
source: flickr: Lesser Marbled Fritillary
Specimen Condition Live Specimen
Copyright © 2006 Marko Kivel?
Scientific Name Boloria napaea
Location Pink Mtn., British Columbia, Canada
Specimen Condition Live Specimen
Identified By Thomas Simonsen
Life Cycle Stage Adult
Copyright © 2005 Thomas Simonsen
Scientific Name Euptoieta claudia
Location Valley Forge National Park, Pennsylvania, USA
Acknowledgements The copyright owner has released this image under the Attribution-NonCommercial-NoDerivs 2.0 Creative Commons license.
source: flickr: Brilliance
Specimen Condition Live Specimen
Copyright © 2006 Marty DeAngelo
About This Page

Thomas Simonsen
University of Alberta, Edmonton, Alberta, Canada

Niklas Wahlberg
Stockholm University, Stockholm, Sweden

Middle Tennessee State University, Murfreesboro, Tennessee, USA

Correspondence regarding this page should be directed to Thomas Simonsen at , Niklas Wahlberg at , and Andrew V. Z. Brower at

Citing this page:

Simonsen, Thomas, Wahlberg, Niklas, and Brower, Andrew V. Z. 2007. Argynnini Duponchel 1835. Fritillaries. Version 25 March 2007 (temporary). http://tolweb.org/Argynnini/70206/2007.03.25 in The Tree of Life Web Project, http://tolweb.org/

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