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Phengaris alcon

March 12, 2024

Phengaris alcon, the Alcon blue or Alcon large blue, is a butterfly of the family Lycaenidae and is found in Europe and across the Palearctic to Siberia and Mongolia.

Alcon blue
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Lycaenidae
Genus: Phengaris
Species:
P. alcon
Binomial name
Phengaris alcon
Synonyms
Seitz 83a

Description from Seitz edit

For a key to the terms used, see Glossary of entomology terms.

L. alcon Schiff. (= areas Esp., euphemus Godt.) (83 a). Large, the male above deep blue, but without brilliant gloss. The female black-brown, dusted with dark blue in the basal area. The dark violet-grey underside has numerous ocelli. L. alcon is easily distinguished from the following species (coeligena [L. coeligena Oberth. China], euphemus, arcas, arion, arionides ...) by the male bearing on the blue disc of the forewing no other black spots but the discocellular lunule. Central Europe and North Asia, from the coast of the North Sea (Hamburg, Bremen, Belgium) to the Mediterranean, and from France to the Altai, Dauria and Tibet, ab. nigra Wheel, has the males strongly darkened, the females being quite black above. In ab. cecinae Hormuz. the ocelli of the underside are absent or strongly reduced. In ab. pallidior Schultz the margin is grey instead of black. – marginepunctata Gillm. has a row of black dots before the margin, almost parallel with it; found by Hafner at Loitsch and other places in Carniola.— In the form rebeli Hirschke the blue of the upperside is more brilliant and more extended, the dark margin being reduced, in the female only the apical area black; Styria. – monticola Stgr. (83 a) has a narrow black margin like rebeli, but the blue is very deep and dark, so dull as in true alcon; from the Alps of Switzerland and the Caucasus. – Egg white, finely reticulated, laid on the flowers of the food-plant (Gentiana pneumonanthe). The larva generally does not break through the shell on the upperside, so that the holes of empty eggs are not easily noticed. At first grey, later on reddish brown with dark dorsal line and dark head. The butterflies occur on damp meadows where Gentiana grows; they are plentiful in such places, sometimes even in abundance, from the end of May into July, in the North not before the end of June.[2]

Taxonomy edit

There are five subspecies:

There has been controversy over whether Phengaris rebeli, currently regarded as an ecotype within the Alcons, should be listed as a separate species. The two types are morphologically indistinguishable and molecular analysis has revealed little genetic difference, mostly attributable to localized habitat adaptation.[3][4][5] Still some maintain that they should be treated as distinct species, especially for conservation purposes, because they parasitise different host ant colonies and parasitise these ants at different rates,[6] and also rely on different host plant species (Gentiana pneumonanthe in the case of Phengaris alcon and Gentiana cruciata in the case of Phengaris rebeli).[7]

Ecology edit

 
Alcon blue depositing an egg
 
Alcon blue eggs on marsh gentian

The species can be seen flying in mid- to late summer. It lays its eggs onto the marsh gentian (Gentiana pneumonanthe); in the region of the Alps they are sometimes also found on the related willow gentian (Gentiana asclepiadea).[8] The caterpillars eat no other plants.

Parasitic relationship edit

 
Pupa in ant nest

Like some other species of Lycaenidae, the larval (caterpillar) stage of P. alcon depends on support by certain ants; it is therefore known as a myrmecophile.

Alcon larvae leave the food plant when they have grown sufficiently (4th instar, or shedding) and wait on the ground below to be discovered by ants. The larvae emit surface chemicals (allomones) that closely match those of ant larvae, causing the ants to carry the Alcon larvae into their nests and place them in their brood chambers. Once adopted into a nest, Alcon larvae are fed the regurgitations of nurse ants (just as other ant brood), a process called trophallaxis.[9] This parasitic method is known as the "cuckoo" strategy and is an alternative to the predatory strategy employed by most other members of the genus such as Phengaris arion.[10] Though less common, the cuckoo strategy has been found to have several advantages over the predatory strategy. For one, it is more trophically efficient than preying directly on other ant grubs, and as a result, significantly more cuckoo-type larvae can be supported per nest than predatory larvae.[9] Another advantage of cuckoo feeding is that individuals, having pursued a higher degree of social integration, have a higher chance of surviving when a nest is overcrowded or facing food shortage because ants preferentially feed the larvae; compared to the type of scramble competition that can devastate predatory larvae, this contest competition results in much lower mortality.[11][12] Though the cuckoo strategy has its advantages, it also comes with important costs; with greater host ant specialization comes much more limited ecological niches.[12]

When the Alcon larva is fully developed it pupates. Once the adult hatches it will leave the ant nest.

Over time, some ant colonies that are parasitized in this manner will slightly change their larva chemicals as a defence, leading to an evolutionary "arms race" between the two species.[13][14]

Generally, Lycaenidae species which have a myrmecophilous relationship with the ant genus Myrmica are locked to primary host specificity. The Alcon blue is unusual in this regard in that it uses different host species in different locations throughout Europe, and often uses multiple host species even within the same location and population.[15][16][17] Though it may be adopted into the nests of multiple Myrmica species within a given site, there is typically one "primary" species with which the locally adapted larvae can best socially integrate, leading to drastically higher survival rates.[9] Across Europe, Alcons are known to use Myrmica scabrinodis, Myrmica ruginodis, Myrmica rubra, Myrmica sabuleti, Myrmica schencki, and rarely Myrmica lonae, and Myrmica specioides.[18][19]

Predation edit

P. alcon larvae are sought underground by the Ichneumon eumerus wasp. On detecting a P. alcon larva the wasp enters the nest and sprays a pheromone that causes the ants to attack each other. In the resulting confusion the wasp locates the butterfly larva and injects it with its eggs. On pupation, the wasp eggs hatch and consume the chrysalis from the inside.[20]

See also edit

References edit

  1. ^ GimenezDixon (1996). "Maculinea alcon". IUCN Red List of Threatened Species. 1996. Retrieved 8 May 2006.
  2. ^ Adalbert Seitz in Seitz, A. ed. Band 1: Abt. 1, Die Großschmetterlinge des palaearktischen Faunengebietes, Die palaearktischen Tagfalter, 1909, 379 Seiten, mit 89 kolorierten Tafeln (3470 Figuren)
  3. ^ Als, Thomas D.; Vila, Roger; Kandul, Nikolai P.; Nash, David R.; Yen, Shen-Horn; Hsu, Yu-Feng; Mignault, André A.; Boomsma, Jacobus J.; Pierce, Naomi E. (2004). "The evolution of alternative parasitic life histories in large blue butterflies". Nature. 432 (7015): 386–390. Bibcode:2004Natur.432..386A. doi:10.1038/nature03020. PMID 15549104. S2CID 4357717.
  4. ^ Fric, Zdenĕk; Wahlberg, Niklas; Pech, Pavel; Zrzavý, Jan (1 July 2007). "Phylogeny and classification of the Phengaris–Maculinea clade (Lepidoptera: Lycaenidae): total evidence and phylogenetic species concepts". Systematic Entomology. 32 (3): 558–567. doi:10.1111/j.1365-3113.2007.00387.x. ISSN 1365-3113. S2CID 4994461.
  5. ^ Ugelvig, L. V.; Vila, R.; Pierce, N. E.; Nash, D. R. (1 October 2011). "A phylogenetic revision of the Glaucopsyche section (Lepidoptera: Lycaenidae), with special focus on the Phengaris–Maculinea clade". Molecular Phylogenetics and Evolution. 61 (1): 237–243. doi:10.1016/j.ympev.2011.05.016. PMID 21669295.
  6. ^ Tartally, A; Nash, D. R.; Lengyel, S.; Varga, Z (2008). "Patterns of host ant use by sympatric populations of Maculinea alcon and M.'rebeli'in the Carpathian Basin". Insectes Sociaux. 55 (4): 370–381. doi:10.1007/s00040-008-1015-4. S2CID 34590182.
  7. ^ Thomas, J. A.; Elmes, G. W.; Wardlaw, J. C.; Woyciechowski, M. (1989). "Host specificity among Maculinea butterflies in Myrmica ant nests". Oecologia. 79 (4): 452–457. Bibcode:1989Oecol..79..452T. doi:10.1007/BF00378660. ISSN 0029-8549. PMID 28313477. S2CID 6807128.
  8. ^ Bellmann, Heiko (2003). Der neue Kosmos-Schmetterlingsführer (in German). Kosmos. ISBN 978-3-440-09330-6.
  9. ^ a b c Thomas, J. A.; Elmes, G. W. (1 November 1998). "Higher productivity at the cost of increased host-specificity when Maculinea butterfly larvae exploit ant colonies through trophallaxis rather than by predation". Ecological Entomology. 23 (4): 457–464. doi:10.1046/j.1365-2311.1998.00153.x. ISSN 1365-2311. S2CID 85918545.
  10. ^ Thomas, J.A.; J.C. Wardlaw (1990). "The effect of queen ants on the survival of Maculinea arion larvae in Myrmica ant nests". Oecologia. 85 (1): 87–91. Bibcode:1990Oecol..85...87T. doi:10.1007/bf00317347. PMID 28310959. S2CID 32623923.
  11. ^ Thomas, J. A.; Wardlaw, J. C. (1992). "The capacity of a Myrmica ant nest to support a predacious species of Maculinea butterfly". Oecologia. 91 (1): 101–109. Bibcode:1992Oecol..91..101T. doi:10.1007/BF00317247. ISSN 0029-8549. PMID 28313380. S2CID 35810639.
  12. ^ a b Elmes, G. W.; Thomas, J. A.; Wardlaw, J. C.; Hochberg, M. E.; Clarke, R. T.; Simcox, D. J. (1998). "The ecology of Myrmica ants in relation to the conservation of Maculinea butterflies". Journal of Insect Conservation. 2 (1): 67–78. doi:10.1023/A:1009696823965. ISSN 1366-638X. S2CID 42022676.
  13. ^ Nash, David R.; Als, Thomas D.; Maile, Roland; Jones, Graeme R.; Boomsma, Jacobus J. (4 January 2008). "A Mosaic of Chemical Coevolution in a Large Blue Butterfly". Science. 319 (5859): 88–90. Bibcode:2008Sci...319...88N. CiteSeerX 10.1.1.413.7297. doi:10.1126/science.1149180. ISSN 0036-8075. PMID 18174441. S2CID 34728715.
  14. ^ Cressey, Daniel (2008). "The battle of the butterflies and the ants". Nature News. 3. doi:10.1038/news.2007.405.[permanent dead link]
  15. ^ Akino, T.; Knapp, J. J.; Thomas, J. A.; Elmes, G. W. (22 July 1999). "Chemical mimicry and host specificity in the butterfly Maculinea rebeli, a social parasite of Myrmica ant colonies". Proceedings of the Royal Society of London B: Biological Sciences. 266 (1427): 1419–1426. doi:10.1098/rspb.1999.0796. ISSN 0962-8452. PMC 1690087.
  16. ^ Elmes, G.; Akino, T.; Thomas, J.; Clarke, R.; Knapp, J. (2002). "Interspecific differences in cuticular hydrocarbon profiles of Myrmica ants are sufficiently consistent to explain host specificity by Maculinea (large blue) butterflies". Oecologia. 130 (4): 525–535. Bibcode:2002Oecol.130..525E. doi:10.1007/s00442-001-0857-5. ISSN 0029-8549. PMID 28547253. S2CID 3183729.
  17. ^ Thomas, Jeremy A.; Elmes, Graham W.; Sielezniew, Marcin; Stankiewicz-Fiedurek, Anna; Simcox, David J.; Settele, Josef; Schönrogge, Karsten (22 January 2013). "Mimetic host shifts in an endangered social parasite of ants". Proc. R. Soc. B. 280 (1751): 20122336. doi:10.1098/rspb.2012.2336. eISSN 1471-2954. ISSN 0962-8452. PMC 3574407. PMID 23193127. In three Ma. rebeli populations over 5 years in the Spanish Pyrenees, we found that eggs were laid indiscriminately on G. cruciata growing in the territories of four species of Myrmica
  18. ^ Steiner, Florian M.; Sielezniew, Marcin; Schlick-Steiner, Birgit C.; Höttinger, Helmut; Stankiewicz, Anna; Górnicki, Adam (2003). "Host specificity revisited: New data on Myrmica host ants of the lycaenid butterfly Maculinea rebeli". Journal of Insect Conservation. 7 (1): 1–6. doi:10.1023/A:1024763305517. ISSN 1366-638X. S2CID 43327661.
  19. ^ Tartally, A.; Nash, D. R.; Lengyel, S.; Varga, Z. (28 June 2008). "Patterns of host ant use by sympatric populations of Maculinea alcon and M. 'rebeli' in the Carpathian Basin". Insectes Sociaux. 55 (4): 370–381. doi:10.1007/s00040-008-1015-4. ISSN 0020-1812. S2CID 34590182.
  20. ^ "Butterfly and Wasp: A Devious, Deceitful Cycle of Life". Wired. 4 January 2008.

External links edit

 
Wikimedia Commons has media related to Maculinea alcon.
  • David Nash pages on Maculinea alcon
  • Pictures of eggs and caterpillar
  • Pictures of adults
  • Smell-wars between butterflies and ants

March 12, 2024
phengaris, alcon, alcon, blue, alcon, large, blue, butterfly, family, lycaenidae, found, europe, across, palearctic, siberia, mongolia, alcon, blueconservation, statusleast, concern, iucn, scientific, classificationdomain, eukaryotakingdom, animaliaphylum, art. Phengaris alcon the Alcon blue or Alcon large blue is a butterfly of the family Lycaenidae and is found in Europe and across the Palearctic to Siberia and Mongolia Alcon blueConservation statusLeast Concern IUCN 3 1 1 Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaClass InsectaOrder LepidopteraFamily LycaenidaeGenus PhengarisSpecies P alconBinomial namePhengaris alcon Denis amp Schiffermuller 1775 SynonymsGlaucopsyche alcon Maculinea alcon Denis amp Schiffermuller 1775 Seitz 83aContents 1 Description from Seitz 2 Taxonomy 3 Ecology 3 1 Parasitic relationship 3 2 Predation 4 See also 5 References 6 External linksDescription from Seitz editFor a key to the terms used see Glossary of entomology terms L alcon Schiff areas Esp euphemus Godt 83 a Large the male above deep blue but without brilliant gloss The female black brown dusted with dark blue in the basal area The dark violet grey underside has numerous ocelli L alcon is easily distinguished from the following species coeligena L coeligena Oberth China euphemus arcas arion arionides by the male bearing on the blue disc of the forewing no other black spots but the discocellular lunule Central Europe and North Asia from the coast of the North Sea Hamburg Bremen Belgium to the Mediterranean and from France to the Altai Dauria and Tibet ab nigra Wheel has the males strongly darkened the females being quite black above In ab cecinae Hormuz the ocelli of the underside are absent or strongly reduced In ab pallidior Schultz the margin is grey instead of black marginepunctata Gillm has a row of black dots before the margin almost parallel with it found by Hafner at Loitsch and other places in Carniola In the form rebeli Hirschke the blue of the upperside is more brilliant and more extended the dark margin being reduced in the female only the apical area black Styria monticola Stgr 83 a has a narrow black margin like rebeli but the blue is very deep and dark so dull as in true alcon from the Alps of Switzerland and the Caucasus Egg white finely reticulated laid on the flowers of the food plant Gentiana pneumonanthe The larva generally does not break through the shell on the upperside so that the holes of empty eggs are not easily noticed At first grey later on reddish brown with dark dorsal line and dark head The butterflies occur on damp meadows where Gentiana grows they are plentiful in such places sometimes even in abundance from the end of May into July in the North not before the end of June 2 Taxonomy editThere are five subspecies P a alcon Central Europe P a jeniseiensis Shjeljuzhko 1928 southern Siberia P a sevastos Rebel amp Zerny 1931 Carpathians P a xerophila Berger 1946 Central Europe P a arenaria Netherlands There has been controversy over whether Phengaris rebeli currently regarded as an ecotype within the Alcons should be listed as a separate species The two types are morphologically indistinguishable and molecular analysis has revealed little genetic difference mostly attributable to localized habitat adaptation 3 4 5 Still some maintain that they should be treated as distinct species especially for conservation purposes because they parasitise different host ant colonies and parasitise these ants at different rates 6 and also rely on different host plant species Gentiana pneumonanthe in the case of Phengaris alcon and Gentiana cruciata in the case of Phengaris rebeli 7 Ecology edit nbsp Alcon blue depositing an egg nbsp Alcon blue eggs on marsh gentianThe species can be seen flying in mid to late summer It lays its eggs onto the marsh gentian Gentiana pneumonanthe in the region of the Alps they are sometimes also found on the related willow gentian Gentiana asclepiadea 8 The caterpillars eat no other plants Parasitic relationship edit nbsp Pupa in ant nestLike some other species of Lycaenidae the larval caterpillar stage of P alcon depends on support by certain ants it is therefore known as a myrmecophile Alcon larvae leave the food plant when they have grown sufficiently 4th instar or shedding and wait on the ground below to be discovered by ants The larvae emit surface chemicals allomones that closely match those of ant larvae causing the ants to carry the Alcon larvae into their nests and place them in their brood chambers Once adopted into a nest Alcon larvae are fed the regurgitations of nurse ants just as other ant brood a process called trophallaxis 9 This parasitic method is known as the cuckoo strategy and is an alternative to the predatory strategy employed by most other members of the genus such as Phengaris arion 10 Though less common the cuckoo strategy has been found to have several advantages over the predatory strategy For one it is more trophically efficient than preying directly on other ant grubs and as a result significantly more cuckoo type larvae can be supported per nest than predatory larvae 9 Another advantage of cuckoo feeding is that individuals having pursued a higher degree of social integration have a higher chance of surviving when a nest is overcrowded or facing food shortage because ants preferentially feed the larvae compared to the type of scramble competition that can devastate predatory larvae this contest competition results in much lower mortality 11 12 Though the cuckoo strategy has its advantages it also comes with important costs with greater host ant specialization comes much more limited ecological niches 12 When the Alcon larva is fully developed it pupates Once the adult hatches it will leave the ant nest Over time some ant colonies that are parasitized in this manner will slightly change their larva chemicals as a defence leading to an evolutionary arms race between the two species 13 14 Generally Lycaenidae species which have a myrmecophilous relationship with the ant genus Myrmica are locked to primary host specificity The Alcon blue is unusual in this regard in that it uses different host species in different locations throughout Europe and often uses multiple host species even within the same location and population 15 16 17 Though it may be adopted into the nests of multiple Myrmica species within a given site there is typically one primary species with which the locally adapted larvae can best socially integrate leading to drastically higher survival rates 9 Across Europe Alcons are known to use Myrmica scabrinodis Myrmica ruginodis Myrmica rubra Myrmica sabuleti Myrmica schencki and rarely Myrmica lonae and Myrmica specioides 18 19 Predation edit P alcon larvae are sought underground by the Ichneumon eumerus wasp On detecting a P alcon larva the wasp enters the nest and sprays a pheromone that causes the ants to attack each other In the resulting confusion the wasp locates the butterfly larva and injects it with its eggs On pupation the wasp eggs hatch and consume the chrysalis from the inside 20 See also editOrachrysops niobe Brenton blue butterfly from South Africa with a similar lifecycleReferences edit GimenezDixon 1996 Maculinea alcon IUCN Red List of Threatened Species 1996 Retrieved 8 May 2006 old form url Adalbert Seitz in Seitz A ed Band 1 Abt 1 Die Grossschmetterlinge des palaearktischen Faunengebietes Die palaearktischen Tagfalter 1909 379 Seiten mit 89 kolorierten Tafeln 3470 Figuren Als Thomas D Vila Roger Kandul Nikolai P Nash David R Yen Shen Horn Hsu Yu Feng Mignault Andre A Boomsma Jacobus J Pierce Naomi E 2004 The evolution of alternative parasitic life histories in large blue butterflies Nature 432 7015 386 390 Bibcode 2004Natur 432 386A doi 10 1038 nature03020 PMID 15549104 S2CID 4357717 Fric Zdenĕk Wahlberg Niklas Pech Pavel Zrzavy Jan 1 July 2007 Phylogeny and classification of the Phengaris Maculinea clade Lepidoptera Lycaenidae total evidence and phylogenetic species concepts Systematic Entomology 32 3 558 567 doi 10 1111 j 1365 3113 2007 00387 x ISSN 1365 3113 S2CID 4994461 Ugelvig L V Vila R Pierce N E Nash D R 1 October 2011 A phylogenetic revision of the Glaucopsyche section Lepidoptera Lycaenidae with special focus on the Phengaris Maculinea clade Molecular Phylogenetics and Evolution 61 1 237 243 doi 10 1016 j ympev 2011 05 016 PMID 21669295 Tartally A Nash D R Lengyel S Varga Z 2008 Patterns of host ant use by sympatric populations of Maculinea alcon and M rebeli in the Carpathian Basin Insectes Sociaux 55 4 370 381 doi 10 1007 s00040 008 1015 4 S2CID 34590182 Thomas J A Elmes G W Wardlaw J C Woyciechowski M 1989 Host specificity among Maculinea butterflies in Myrmica ant nests Oecologia 79 4 452 457 Bibcode 1989Oecol 79 452T doi 10 1007 BF00378660 ISSN 0029 8549 PMID 28313477 S2CID 6807128 Bellmann Heiko 2003 Der neue Kosmos Schmetterlingsfuhrer in German Kosmos ISBN 978 3 440 09330 6 a b c Thomas J A Elmes G W 1 November 1998 Higher productivity at the cost of increased host specificity when Maculinea butterfly larvae exploit ant colonies through trophallaxis rather than by predation Ecological Entomology 23 4 457 464 doi 10 1046 j 1365 2311 1998 00153 x ISSN 1365 2311 S2CID 85918545 Thomas J A J C Wardlaw 1990 The effect of queen ants on the survival of Maculinea arion larvae in Myrmica ant nests Oecologia 85 1 87 91 Bibcode 1990Oecol 85 87T doi 10 1007 bf00317347 PMID 28310959 S2CID 32623923 Thomas J A Wardlaw J C 1992 The capacity of a Myrmica ant nest to support a predacious species of Maculinea butterfly Oecologia 91 1 101 109 Bibcode 1992Oecol 91 101T doi 10 1007 BF00317247 ISSN 0029 8549 PMID 28313380 S2CID 35810639 a b Elmes G W Thomas J A Wardlaw J C Hochberg M E Clarke R T Simcox D J 1998 The ecology of Myrmica ants in relation to the conservation of Maculinea butterflies Journal of Insect Conservation 2 1 67 78 doi 10 1023 A 1009696823965 ISSN 1366 638X S2CID 42022676 Nash David R Als Thomas D Maile Roland Jones Graeme R Boomsma Jacobus J 4 January 2008 A Mosaic of Chemical Coevolution in a Large Blue Butterfly Science 319 5859 88 90 Bibcode 2008Sci 319 88N CiteSeerX 10 1 1 413 7297 doi 10 1126 science 1149180 ISSN 0036 8075 PMID 18174441 S2CID 34728715 Cressey Daniel 2008 The battle of the butterflies and the ants Nature News 3 doi 10 1038 news 2007 405 permanent dead link Akino T Knapp J J Thomas J A Elmes G W 22 July 1999 Chemical mimicry and host specificity in the butterfly Maculinea rebeli a social parasite of Myrmica ant colonies Proceedings of the Royal Society of London B Biological Sciences 266 1427 1419 1426 doi 10 1098 rspb 1999 0796 ISSN 0962 8452 PMC 1690087 Elmes G Akino T Thomas J Clarke R Knapp J 2002 Interspecific differences in cuticular hydrocarbon profiles of Myrmica ants are sufficiently consistent to explain host specificity by Maculinea large blue butterflies Oecologia 130 4 525 535 Bibcode 2002Oecol 130 525E doi 10 1007 s00442 001 0857 5 ISSN 0029 8549 PMID 28547253 S2CID 3183729 Thomas Jeremy A Elmes Graham W Sielezniew Marcin Stankiewicz Fiedurek Anna Simcox David J Settele Josef Schonrogge Karsten 22 January 2013 Mimetic host shifts in an endangered social parasite of ants Proc R Soc B 280 1751 20122336 doi 10 1098 rspb 2012 2336 eISSN 1471 2954 ISSN 0962 8452 PMC 3574407 PMID 23193127 In three Ma rebeli populations over 5 years in the Spanish Pyrenees we found that eggs were laid indiscriminately on G cruciata growing in the territories of four species of Myrmica Steiner Florian M Sielezniew Marcin Schlick Steiner Birgit C Hottinger Helmut Stankiewicz Anna Gornicki Adam 2003 Host specificity revisited New data on Myrmica host ants of the lycaenid butterfly Maculinea rebeli Journal of Insect Conservation 7 1 1 6 doi 10 1023 A 1024763305517 ISSN 1366 638X S2CID 43327661 Tartally A Nash D R Lengyel S Varga Z 28 June 2008 Patterns of host ant use by sympatric populations of Maculinea alcon and M rebeli in the Carpathian Basin Insectes Sociaux 55 4 370 381 doi 10 1007 s00040 008 1015 4 ISSN 0020 1812 S2CID 34590182 Butterfly and Wasp A Devious Deceitful Cycle of Life Wired 4 January 2008 External links edit nbsp Wikimedia Commons has media related to Maculinea alcon David Nash pages on Maculinea alcon Pictures of eggs and caterpillar Pictures of adults Smell wars between butterflies and ants Retrieved from https en wikipedia org w index php title Phengaris alcon amp oldid 1196064640, wikipedia, wiki, book, books, library,

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