Abstract
Workers of three ant species (Lasius niger, Lasius flavus, Myrmica rubra) were caged in the laboratory together with caterpillars and pupae of five species of lycaenid butterflies. Mortality of ants was 3–5 times higher when the ants were confined with larvae lacking a dorsal nectar organ (Lycaena phlaeas, Lycaena tityrus) rather than with caterpillars which possess a nectar gland (Aricia agestis, Polyommatus bellargus, P. icarus). For all five species, ant survival was always lower at the pupal stage (where a nectar organ is always absent) than at the caterpillar stage and was largely equivalent for the butterfly species tested. The experimental data confirm earlier estimates that ants can derive nutritive benefits from tending facultatively myrmecophilous lycaenid caterpillars, even though these caterpillars produce nectarlike secretions at low rates.
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References
Atsatt PR (1981) Lycaenid butterflies and ants: selection for enemy-free space. Am Nat 118:638–654
Ballmer GR, Pratt GF (1992) Quantification of ant attendance (myrmecophily) of lycaenid larvae. J Res Lepid 30:95–112
Baylis M, Pierce NE (1992) Lack of compensation by final instar larvae of the myrmecophilous lycaenid butterfly, Jalmenus evagoras, for the loss of nutrients to ants. Physiol Entomol 17:107–114
Boucher DH (ed) (1985) The biology of mutualism. Oxford University Press, Oxford
Burghardt F, Fiedler K (in press) The influence of diet on growth and secretion behaviour of myrmecophilous Polyommatus icarus caterpillars (Lepidoptera: Lycaenidae). Ecol Entomol
Cushman JH, Beattie AJ (1991) Mutualism: assessing the benefits to hosts and visitors. Trends Ecol Evol 6:193–195
Cushman JH, Rashbrook VK, Beattie AJ (1994) Assessing benefits to both participants in a lycaenid-ant association. Ecology 75:1031–1041
DeVries PJ (1991) Mutualism between Thisbe irenea butterflies and ants, and the role of ant ecology in the evolution of larvalant associations. Biol J Linn Soc 43:179–195
Duncan FD, Lighton JRB (1994) The burden within: the energy cost of load carriage in the honeypot ant, Myrmecocystus. Physiol Zool 67:190–203
Emmet AM, Heath J (eds) (1990) The moths and butterflies of Great Britain and Ireland, vol. 7/1. The butterflies. Harley Books, Colchester
Fiedler K (1988) Die Beziehungen von Bläulingspuppen (Lepidoptera: Lycaenidae) zu Ameisen (Hymenoptera: Formicidae). Nachr Entomol Ver Apollo Frankfurt NF 9:33–58
Fiedler K (1991a) Systematic, evolutionary, and ecological implications of myrmecophily within the Lycaenidae (Insecta: Lepidoptera: Papilionoidea). Bonner Zool Monogr 31:1–210
Fiedler K (1991b) European and Northwest African Lycaenidae (Lepidoptera) and their associations with ants. J Res Lepid 28:239–257
Fiedler K, Hagemann D (1995) The influence of larval age and ant number on myrmecophilous interactions of the African Grass Blue butterfly, Zizeeria knysna (Lepidoptera: Lycaenidae). J Res Lepid 31 (in press)
Fiedler K, Hölldobler B (1992) Ants and Polyommatus icarus immatures (Lycaenidae)—sex-related developmental benefits and costs of ant attendance. Oecologia 91:468–473
Fiedler K, Maschwitz U (1988) Functional analysis of the myrmecophilous relationships between ants (Hymenoptera: Formicidae) and lycaenids (Lepidoptera: Lycaenidae). II. Lycaenid larvae as trophobiotic partners of ants—a quantitative approach. Oecologia 75:204–206
Fiedler K, Maschwitz U (1989a) Functional analysis of the myrmecophilous relationships between ants (Hymenoptera: Formicidae) and lycaenids (Lepidoptera: Lycaenidae). I. Release of food recruitment in ants by lycaenid larvae and pupae. Ethology 80:71–80
Fiedler K, Maschwitz U (1989b) The symbiosis between the weaver ant, Oecophylla smaragdina, and Anthene emolus, an obligate myrmecophilous lycaenid butterfly. J Nat Hist 23:833–846
Fielder K, Saam C (1994) Does ant-attendance influence development in 5 European Lycaenidae butterfly species (Lepidoptera). Nota Lepid 17:5–24
Fiedler K, Schurian KG, Hahn M (1994) The life-history and myrmecophily of Polyommatus candalus (Herrich-Schäffer) from Turkey (Lep., Lycaenidae). Linneana Belg 14:315–332
Heinze J, Hölldobler B, Peeters C (1994) Conflict and cooperation in ant societies. Naturwissenschafter 81:489–497
Hill CJ (1993) The myrmecophilous organs of Arhopala madytus Fruhstorfer (Lepidoptera: Lycaenidae). J Aust Entomol Soc 32:283–288
Kutter H (1977) Hymenoptera: Formicidae. Insecta Helv 6:1–298
Malicky H (1969) Versuch einer Analyse der ökologischen Beziehungen zwischen Lycaeniden (Lepidoptera) und Formiciden (Hymenoptera). Tijdschr Entomol 112:213–298
Maschwitz U, Wüst M, Schurian K (1975) Bläulingsraupen als Zuckerlieferanten für Ameisen. Oecologia 18:17–21
Nash DR (1989) Cost-benefit analysis of a mutualism between lycaenid butterflies and ants. PhD thesis, Oxford University, Oxford
Nielsen MG (1986) Respiratory rates of ants from different climatic areas. J Insect Physiol 32:125–131
Peakin GJ, Josens G (1978) Respiration and energy flow. In: Brian MV (ed) Production ecology of ants and termites. Cambridge University Press, Cambridge, UK, pp 111–164
Peterson MA (1993) The nature of ant attendance and the survival of larval Icaricia acmon (Lycaenidae). J Lepid Soc 47:8–16
Pierce NE (1983) The ecology and evolution of symbioses between lycaenid butterflies and ants. PhD thesis, Harvard University, Cambridge, Mass
Pierce NE (1987) The evolution and biogeography of associations between lycaenid butterflies and ants. Oxford Surv Evol Biol 4:89–116
Pierce NE (1989) Butterfly-ant mutualisms. In: Grubb PJ, Whittaker J (eds) Towards a more exact ecology. Blackwell, Oxford, pp 299–324
Pierce NE, Easteal S (1986) The selective advantage of attendant ants for the larvae of a lycaenid butterfly, Glaucopsyche lygdamus. J Anim Ecol 55:451–462
Pierce NE, Mead PS (1981) Parasitoids as selective agents in the symbiosis between lycaenid butterfly larvae and ants. Science 112:1185–1187
Pierce NE, Young WR (1986) Lycaenid butterflies and ants: two-species stable equilibria in mutualistic, commensal, and parasitic interactions. Am Nat 128:216–227
Pierce NE, Kitching RL, Buckley RC, Taylor MFJ, Benbow KF (1987) The costs and benefits of cooperation between the Australian lycaenid butterfly, Jalmenus evagoras, and its attendant ants. Behav Ecol Sociobiol 21:237–248
Pontin AJ (1978) The numbers and distribution of subterranean aphids and their exploitation by the ant Lasius flavus (Fabr.). Ecol Entomol 3:203–207
Robbins RK (1991) Cost and evolution of a facultative mutualism between ants and lycaenid larvae (Lepidoptera). Oikos 62:363–369
Sachs L (1992) Angewandte Statistik, 7th edn. Springer, Berlin Heidelberg New York
Seifert B (1988) A taxonomic revision of the Myrmica species of Europe, Asia Minor, and Caucasia (Hymenoptera, Formicidae). Abh Ber Naturkundemus Görlitz 62:1–75
Thomas JA, Lewington R (1991) The butterflies of Britain and Ireland. Dorling Kindersley, London
Thomas JA, Elmes GW, Wardlaw JC (1993) Contest competition among Maculinea rebeli butterfly larvae in ant nests. Ecol Entomol 18:73–76
Wagner D (1993) Species-specific effects of tending ants on the development of lycaenid butterfly larvae. Oecologia 96:276–281
Wagner D (1994) Species-specific effects of tending ants on the life history of Hemiargus isola, a North American lycaenid butterfly. PhD thesis, Princeton University, Princeton
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Fiedler, K., Saam, C. Ants benefit from attending facultatively myrmecophilous Lycaenidae caterpillars: evidence from a survival study. Oecologia 104, 316–322 (1995). https://doi.org/10.1007/BF00328367
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DOI: https://doi.org/10.1007/BF00328367