Abstract
I studied the myrmicine ant Myrmecina sp. A in West Java, Indonesia, which had the obligately myrmecophilous oribatid mite Aribates javensis in its nests. The oribatid mites cannot survive without ant attendance. The ants rarely eat living mites, but they feed on the mites in case of food shortage and after death of the mites. I examined the effects of the oribatid mites as food on the host ants. Egg production by ergatoid (i.e. permanently wingless) queens and larval survival of ant colonies, as well as survival and egg laying of isolated ant workers were investigated. The presence of oribatid mites had no effects on egg production by ergatoid queens and survival of the ant larvae neither in the presence of abundant food nor under starvation conditions. Survival of adult workers was not affected by the presence of oribatid mites, but egg production by workers was significantly enhanced by feeding on mites. The present results indicate that the oribatid mites had slight but significant nutritional effects on the host ants.
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References
Altmann J (1974) Observational study of behavior: sampling methods. Behaviour 49:227–267
Aoki J, Ito F (1996) A new species of oribatid mite collected from ant nests in oriental tropics. J Acarol Soc Jap 6:107–112
Aoki J, Takaku G, Ito F (1994) Aribatidae, a new myrmecophilous oribatid mite family from Java. Int J Acarol 20:3–10
Beattie AJ (1985) The evolutionary ecology of ant-plant mutualisms. Cambridge Univ. Press, Cambridge
Buckley BL (1987) Ant–plant–homopteran interactions. Adv Ecol Res 16:53–85
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
Daniels H, Cottsberger G, Fielder K (2005) Nutrient composition of larval nectar secretions from three species of myrmecophilous butterflies. J Chem Ecol 31:2805–2821
Eickwort GC (1990) Associations of mites with social insects. Ann Rev Entomol 35:469–488
Fiedler K, Saam C (1995) Ants benefit from attending facultatively myrmecophilous Lycaenidae caterpillars: evidence from a survival study. Oecologia 104:316–322
Hölldobler B, Wilson EO (1990) The ants. Harvard University Press, Cambridge, Mass
Inoue T, Nakamura K, Salmah S, Abbas I (1993) Poulation dynamics of animals in unpredictably changing tropical environments. J Biosci 18:425–455
Ito F (1996) Colony composition of an Indonesian myrmicine ant Myrmecina sp. A: polygynous reproduction by ergatoid queens. Ann Entomol Soc Am 89:550–554
Ito F, Aoki J (2003) Bionomics of the myrmecophilous oribatid mites Protoribates myrmecophilus (Acari: Oribatida) in the oriental tropics. J Nat Hist 37:2383–2391
Ito F, Takaku G (1994) Obligate myrmecophily in an oribatid mite: novel symbiont of ants in oriental tropics. Naturwissenschaften 81:180–182
Janson L, Mallott L, Mcginty L (2002) Soil temperature and arthropod abundance are lower near ant mounds. Tillers 3:15–19
Kistner DH (1979) Social and evolutionary significance of social insect symbionts. In: Hermann HR (ed) Social insects vol 1. Academic Press, New York, pp 339–413
Masuko K (1994) Specialized predation on oribatid mites by two species of the ant genus Myrmecina (Hymenoptera: Formicidae). Psyche 101:159–173
Ôkido H (2002) Revision of the ant genus Myrmecina from Asia (Hymenoptera; Formicidae). Dissertation, Kyushu University
Pierce NE, Mead PS (1981) Parasitoids as selective agents in the symbiosis between lycaenid butterfly larvae and ants. Science 112:1185–1187
Pierce NE, Braby MF, Heath A, Lohman DJ, Mathew J, Rand DB, Travassos MA (2002) The ecology and evolution of ant association in the Lycaenidae (Lepidoptera). Annu Rev Entomol 47:733–771
Stadler B, Dixon AFG (2005) Ecology and evolution of aphid-ant interactions. Annu Rev Ecol Evol Syst 36:345–372
Stadler B, Dixon AFG (2008) Mutualism: ants and their partners. Cambridge University Press, Cambridge, UK
Tsuji K, Ohkawara K, Ito F (2001) Inter-nest relationship in the Indonesian ant, Myrmecina sp. A with some considerations for the evolution of unicoloniality in ants. Tropics 10:409–420
Wilson EO (2005) Oribatid mite predation by small ants of the genus Pheidole. Insect Soc 52:263–265
Acknowledgments
I thank K. Masuko and anonymous referees for their critical comments and English revision on several versions of the draft, which greatly improved the manuscript. Special thanks to J. Billen for comments and English revision, T. Itino for discussion, K. Nakamura, H. Katakura, S. Wirjeatmodjo, and W. A. Noerdjito for their kind help for this study, and LIPI for permission of this study in Indonesia. This work was supported by Grants under the Monbushou International Scientific Research Program (leader, Prof. Koji Nakamura, Nos. 02041033, 05041086, 08041141) and Grants-in-Aid for Scientific Research from JSPS (leader, FI, Nos. 11691130 and 14405036) and a grant from Akiyama Foundation.
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Ito, F. Evaluation of the benefits of a myrmecophilous oribatid mite, Aribates javensis, to a myrmicine ant, Myrmecina sp.. Exp Appl Acarol 61, 79–85 (2013). https://doi.org/10.1007/s10493-013-9678-6
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DOI: https://doi.org/10.1007/s10493-013-9678-6