Abstract
The importance of Eurasian red wood ants (RWAs) (Formica rufa group) in forest and heath ecosystems has long been recognized. One key function of RWAs is the role of their nests in supporting an intriguing ecosystem of a highly diverse group of obligate myrmecophiles and facultative guests. In this review we list 125 obligate arthropod myrmecophiles that occur in RWA mounds or in the near vicinity of the mounds. More than 40 % of them are Coleoptera, but also Hemiptera, Diptera, Hymenoptera, Acari and Araneae are well represented. RWAs are estimated to be the primary hosts for 49 species. 24 species were hitherto only recorded to be associated with RWAs, 12 with both RWAs and other mound-building Formica species and 9 were found to be associated with both mound-building and non-mound-building Formica species. The remaining associates are less specific and can be found with other ant genera or ant subfamilies. Other mound-building Formica ants (Coptoformica, F. uralensis and F. truncorum) support fewer species, most of which are known to also occur with RWAs. We discuss the biology of the different obligate myrmecophilous groups and give general notes on the facultative guests found in RWA mounds. We stress the importance of the conservation of RWAs as hosts of one of the richest and diverse associations known to date in insects.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Akino T. 2008. Chemical strategies to deal with ants: a review of mimicry, camouflage, propaganda and phytomimesis by ants (Hymenoptera: Formicidae) and other arthropods. Myrmecol. News 11: 173-181
Andersson H. 1974. Studies on the myrmecophilous fly, Glabellula arctica (Zett.) (Dipt. Bombyliidae). Insect Syst. Evol. 5: 29-38
Boer P. 2013. De Nederlandse mieren - species found in wood ant mounds in the Netherlands. <http://www.nlmieren.nl/websitepages/woodant%20mounds.html>, retrieved on 1 February 2014
Bagnères A.-G. and Lorenzi M.C. 2010. Chemical deception/mimicry using cuticular hydrocarbons. In: Insect Hydrocarbons: Biology, Biochemistry and Chemical Ecology (Blomquist G.J. and Bagnères A.-G., Eds), Cambridge: Cambridge University Press. pp 282-324
Brooks J.L. 1942. Notes on the ecology and the occurrence in America of the myrmecophilous sowbug, Platyarthus hoffmanseggi Brandt. Ecology 23: 427-437
Chopard L. 1951. Faune de France Orthoptéroïdes. Paul Lechevalier, Paris
Coenen-Stass D., Schaarschmidt B. and Lamprecht I. 1980. Temperature distribution and calorimetric determination of heat production in the nest of the wood ant, Formica polyctena (Hymenoptera, Formicidae). Ecology 61: 238-244
Cushing P.E. 1997. Myrmecomorphy and myrmecophily in spiders: a review. Florida Entomol. 80: 165-193
Davidson M. 2011. Some observations on the wood ant spider (Dipoena torva). <www.woodants.org.uk>, retrieved on 5 February 2014
Dekoninck W., Lock K. and Janssens F. 2007. Acceptance of two native myrmecophilous species, Platyarthrus hoffmannseggii (Isopoda: Oniscidea) and Cyphoderus albinus (Collembola: Cyphoderidae) by the introduced invasive garden ant Lasius neglectus (Hymenoptera: Formicidae) in Belgium. Eur. J. Entomol. 104: 159-161
Dekoninck W., Hendrickx F., Grootaert P. and Maelfait J. 2010. Present conservation status of red wood ants in north-western Belgium: Worse than previously, but not a lost cause. Eur. J. Entomol. 107: 209-218
Dettner K. and Liepert C. 1994. Chemical mimicry and camouflage. Annu. Rev. Entomol. 39: 129-154
Domisch T., Ohashi M. and Finér L. 2008. Decomposition of organic matter and nutrient mineralisation in wood ant (Formica rufa group) mounds in boreal coniferous forests of different age. Biology and Fertility of soils 44: 539-545
Donisthorpe H.S.J.K. 1927. The Guests of British Ants, their Habits and Life-Histories. George Routledge and Sons, London
Ebermann E. 1980. Zur Kenntnis der Ostalpinen Milbenfauna (Acari, Fam. Scutacaridae). Mitt. Naturwiss. Ver. Steiermark 110: 143-149
Elmes G.W., Barr B., Thomas J.A. and Clarke R.T. 1999. Extreme host specifcity by Microdon mutabilis (Diptera: Syrphidae), a social parasite of ants. Proc. R. Soc. Lond. B 266: 447-453
Evans G.O. and Till W.M. 1966. Studies on the British Dermanyssidae (Acari: Mesostigmata). Part II. Classification. Bulletin of The British Museum (Natural History) Zoology 14: 107-370
Fain A. and Chmielewski W. 1987. The phoretic hypopi of two acarid mites described from ants’ nest: Tyrophagus formicetorum Volgin, 1948 and Lasioacarus nidicolus Kadzhaja and Sevastianov, 1967. Acarologia 28: 53-61
Fowles A.P. 1994. A review of the ecology of the red wood ant Formica rufa L. (Hymenoptera, Formicidae) and its status in Wales. Cons. Ecol. Wales 1: 1-22
Freude H., Harde K.W. and Lohse G.A. 1974. Die Käfer Mitteleuropas. Band 5, Staphylinidae II (Hypocyphtinae und Aleocharinae). Pselaphidae. Krefeld: Goecke et Evers Verlag
Frouz J. 2000. The effect of nest moisture on daily temperature regime in the nests of Formica polyctena wood ants. Insect. Soc. 47: 229-235
Frouz J., Kalcik J. and Cudlín P. 2005. Accumulation of phosphorus in nests of red wood ants Formica s. str. Annal. Zool. Fenn. 42: 269-275
Godeau J.-F. 1997. Les stratégies écologiques de la coccinelle myrmécophile Coccinella magnifica Redtenbacher. Doctoral thesis, Faculté Universitaire des Sciences Agronomiques de Gembloux
Gómez Durán J.-M. and van Achterberg C. 2011. Oviposition behaviour of four ant parasitoids (Hymenoptera, Braconidae, Euphorinae, Neoneurini and Ichneumonidae, Hybrizontinae), with the description of three new European species. ZooKeys 106: 59-106
Goropashnaya A. V, Fedorov V.B. and Pamilo P. 2004. Recent speciation in the Formica rufa group ants (Hymenoptera, Formicidae): inference from mitochondrial DNA phylogeny. Mol. Phylogen. Evol. 32: 198-206
Gosswald K. 1989. Die Waldameise. Band 2. Die Waldameise im Ökosystem Wald, ihr Nutzen und ihre Hege. Aula-Verlag Wiesbaden
Gyllenstrand N. and Seppä P. 2003. Conservation genetics of the wood ant, Formica lugubris, in a fragmented landscape. Mol. Ecol. 12: 2931-2940
Härkönen S. and Sorvari J. 2014. Species richness of associates of ants in the nests of a red wood ant Formica polyctena. Insect Cons. Diversity: 1-11
Heimer S. and Nentwig W. 1991. Spinnen Mitteleuropas. Verlag Paul Parey, Berlin und Hamburg
Henderickx H. 2011. A new myrmecophilous Allochernes from ant nests in the high altitude of the eastern Spanish Pyrenees (Arachnida: Pseudoscorpiones: Chernetidae). Bulletin S.R.B.E/K.B.V.E. 147: 79-83
Hlavac P. and Lackner T. 1998. Contribution to the knowledge of myrmecophilous beetles of Slovakia. Entomofauna carpathica 10: 1-9
Hlavac P. 2005. Revision of the myrmecophilous genus Lomechusa (Coleoptera: Staphylinidae: Aleocharinae). Sociobiology 46: 203–250
Hölldobler B. 1967. Zur Physiologie der Gast-Wirt-Beziehungen (Myrmecophilie) bei Ameisen I. Das Gastverhältnis der Atemeles- und Lomechusa-Larven (Col. Staphylinidae) zu Formica (Hym. Formicidae). Z. vergl. Physiol. 56: 1-21
Hölldobler B. 1970. Zur Physiologie der Gast-Wirt-Beziehungen (Myrmecophilie) bei Ameisen II.1 Das Gastverhältnis des imaginalen Atemeles pubicolis Bris. (Col. Staphylinidae) zu Myrmica und Formica (Hym. Formicidae). Z. vergl. Physiol. 66: 215-250
Hölldobler B. and Wilson E.O. 1990. The Ants. Harvard University Press Cambridge, Massachusetts
Hovestadt T., Thomas J.A., Mitesser O. and Elmes G.W. 2012. Unexpected benefit of a social parasite for a key fitness component of its ant host. Amer. Nat. 179: 110-123
Howard R.W., Akre R.D. and Garnett W.B. 1990a. Chemical mimicry in an obligate predator of carpenter ants (Hymenoptera: Formicidae). Annals Entomol. Soc. Am. 83: 607-661
Howard R.W., Stanley-Samuelson D.W. and Akre R.D. 1990b. Biosynthesis and chemical mimicry from the obligate predator Microdon albicomatus and its ant prey, Myrmica incompleta Provancher (Hymenoptera: Formicidae). J. Kansas Entomol. Soc. 63: 437-443
Huhta V. and Karg W. 2010. New species in genera Hypoaspis (s. lat.) Canestrini, 1884, Dendrolaelaps (s. lat.) Halbert, 1915, and Ameroseius Berlese, 1903 (Acari, Gamasina) from Finland. Soil Organisms 82: 325-349
IUCN 2013. The IUCN red list of threatened species. <http://www.iucnredlist.org/>, retrieved on 15 February 2014
Janet C. 1897. Etudes sur les fourmis, les guêpes et les abeilles. Note 14: Rapports des animaux myrmécophiles avec les fourmis. Ducourtieux, Limoges
Junker E.A. 1997. Untersuchungen zur Levensweise und Entwicklung von Myrmecophilus acervorum (PANZER, 1799) (Saltatoria, Myrmecophilidae). Articulata 12: 93-106
Junker E.A. and Ratschker U.M. 2000. Zur Verbreitung der Ameisengrille, Myrmecophilus acervorum (Panzer, 1799), in Sachsen (Insecta; Ensifera; Myrmecophilidae). Faun. Abh. Staatlich. Mus. Tierkunde Dresden 22: 11-21
Karafiat H. 1959. Systematik und Ökologie der Scutacariden. In: Uppstrom K. A. 2010. Mites (Acari) associated with the ants (Formicidae) of Ohio and the harvester ant, Messor pergandei, of Arizona
Kärcher M.H. and Ratnieks F.L.W. 2010. Honey bee guards recognise allospecific intruders via “different odours” not “harmful-intruder odours.” J. Apicult. Res. 49: 270-277
Kielczewski B. and Wisniewski J. 1962. Z badań nad akarofauną gniazd Formica rufa L. i Formica polyctena Forst. na tle pozostałych stawonogów towarzyszących (From studies on the Acarofauna of Formica rufa L. Formica polyctena Först. nests on the background of other accompanying Arthropoda). Prace z Zakresu Entomologii Lesnej 13: 3-14
Laakso J. and Setälä H. 1997. Nest mounds of red wood ants (Formica aquilonia): hot spots for litter-dwelling earthworms. Oecologia 111: 565-569
Lachaud J.-P. and Pérez-Lachaud G. 2012. Diversity of Species and Behavior of Hymenopteran Parasitoids of Ants: A Review. Psyche: A Journal of Entomology 2012: 1-24
Lapeva A. and Simov N. Xylocoris formicetorum (Bohemann, 1844) (Heteroptera: Anthocoridae), a new member of the myrmecophilous fauna of the Balkan Peninsula. Hist. Nat. Bulgarica 12, 29-31
Lapeva-Gjonova A. and Rücker W.H. 2011. Latridiidae and Endomychidae beetles (Coleoptera) from ant nests in Bulgaria. Latridiidae 8: 5-8
Lapeva-Gjonova A. and Lieff O. 2012. Ant-associated rove beetles (Coleoptera: Staphylinidae) in Bulgaria. Acta Entomol. Slovenica 20: 73-84
Lapeva-Gjonova A. 2013. Ant-associated beetle fauna in Bulgaria: A Review and New Data. Psyche: J. Entomol. 2013: 1-14
Lehtinen P.T. 1987. Association of uropodid prodinychid polyaspidid antennophorid sejid microgynid and zerconid mites with ants. Entomol. Tidskr. 2: 13-20
Lommelen E., Johnson C.A., Drijfhout F.P., Billen J., Wenseleers T. and Gobin B. 2006. Cuticular hydrocarbons provide reliable cues of fertility in the ant Gnamptogenys striatula. Journal of Chemical Ecology 32: 2023-2034
Mäki-Petäys H., Zakharov A., Viljakainen L., Corander J. and Pamilo P. 2005. Genetic changes associated to declining populations of Formica ants in fragmented forest landscape. Mol. Ecol. 14: 733-42
Mahunka S. 1967. Beiträge zur kenntnis der Tschechoslowakischen Tarsonemini- fauna. Věstník Česk. Spol. Zool. 31: 240-244. In: Uppstrom, K. A. 2010. Mites (Acari) associated with the ants (Formicidae) of Ohio and the harvester ant, Messor pergandei, of Arizona. Master thesis Ohio State University
Mahunka S. 1970. Zwei neue Heterodispus- Arten und einige interessante in Ameisenhaufen lebende milben aus Ungarn (Acari: Tarsonemina). Folia Entomol. Hung. 23: 313-331. In: Uppstrom K. A. 2010. Mites (Acari) associated with the ants (Formicidae) of Ohio and the harvester ant, Messor pergandei, of Arizona. Master thesis Ohio State University
Martin S.J., Jenner E. and Drijfhout F.P. 2007. Chemical deterrent enables a socially parasitic ant to invade multiple hosts. Proc. R. Soc. B 274: 2717-2722.
O’Keefe S. 2000. Ant-like stone beetles, ants, and their associations (Coleoptera: Scydmaenidae; Hymenoptera: Formicidae; Isoptera). J. N.Y. Entomol. Soc. 108: 273-303
Päivinen J., Ahlroth P., Kaitala V., Kotiaho J.S., Suhonen J. and Virola T. 2003. Species richness and regional distribution of myrmecophilous beetles. Oecologia 134: 587-595
Päivinen J., Ahlroth P., Kaitala V., Kotiaho J.S. and Suhonen J. 2004. Species richness, abundance and distribution of myrmecophilous beetles in nests of Formica aquilonia ants. Ann. Zool. Fenn. 41: 447-454
Reemer M., Renema W., van Steenis W., Zeegers T., Barendregt A., Smit J.T., van Veen M.P., van Steenis J. and van der Leij L.J.J.M. 2009. De Nederlandse zweefvliegen (Diptera: Syrphidae). - Nederlandse Fauna 8. Leiden. Nationaal Natuurhistorisch Museum Naturalis, KNNV Uitgeverij, European Invertebrate Survey – Nederland
Renneson J.-L., Drumont A., Grotz R. and Dekoninck W. 2012. A propos de Protaetia (Potosia) metallica (Herbst, 1782) en Belgique et au Grand-Duché de Luxembourg (Coleoptera, Scarabaeidae, Cetoniinae). Lambillionea 3: 263-279
Rettenmeyer C.W., Rettenmeyer M.E., Joseph J. and Berghoff S.M. 2010. The largest animal association centered on one species: the army ant Eciton burchellii and its more than 300 associates. Insect. Soc.: 58: 281-292
Robinson N.A. and Robinson E.J.H. 2013. Myrmecophiles and other invertebrate nest associates of the red wood ant Formica rufa (Hymenoptera: Formicidae) in north-west England. Brit. J. Entomol. Nat. Hist. 26: 67-88
Rolstad J., Løken B. and Rolstad E. 2000. Habitat selection as a hierarchical spatial process: the green woodpecker at the northern edge of its distribution range. Oecologia 124: 116-129
Rosengren R., Fortelius W., Lindström K. and Luther A. 1987. Phenology and causation of nest heating and thermoregulation in red wood ants of the Formica-rufa group studied in coniferous forest habitats in southern Finland. Ann. Zool. Fenn. 24: 147-155
Shamble P.S., Beatus T., Cohen I. and Hoy R. 2013. Terrestrial locomotor mimicry at the kinematic level: Does the ant-mimicking jumping spider Myrmarachne formicaria walk like an ant? SICB Annual Meeting 2013 January 3-7, 2013 San Francisco, CA
Simon U. 1997. On the biology of Dipoena torva (Araneae: Theridiidae). Arachnol. Mitt. 13: 30-41
Seifert B. 2007. Die Ameisen Mittel- und Nordeuropas. lutra Verlags- und Vertriebsgesellschaft, Görlitz
Skinner G. 1980. The feeding habits of the wood-ant, Formica rufa (Hymenoptera: Formicidae), in limestone woodland in north-west England. J. Anim. Ecol. 49: 417-433
Sloggett J.J., Wood R.A. and Majerus M.E.N. 1998. Adaptations of Coccinella magnifica Redtenbacher,, a myrmecophilous coccinellid, to aggression by wood ants (Formica rufa group). I. Adult behavioral adaptation, its ecological context and evolution. Evolution 11: 889-904
Sorvari J. and Hakkarainen H. 2005. Deforestation reduces nest mound size and decreases the production of sexual offspring in the wood ant Formica aquilonia. Ann. Zool. Fenn. 42: 259-267
Sorvari J. and Hakkarainen H. 2007. Wood ants are wood ants: deforestation causes population declines in the polydomous wood ant Formica aquilonia. Ecol. Entomol. 32: 707-711
Staniec B. and Zagaja M. 2008. Rove-beetles (Coleoptera, Staphylinidae) of ant nests of the vicinities of Leżajsk. Ann. Univ. Mariae Curie-Sklodowska Lublin - Polonia 63: 111-127
Stoev P. and Lapeva-Gjonova A. 2005. Myriapods from ant nests in Bulgaria (Chilopoda, Diplopoda). Peckiana 4: 131-142
Storey M. BioInfo (UK) 2014. <www.bioinfo.org.uk>, retrieved on 5 March 2014
Storkan J. 1940. Myrmekofiln Acari z Cech. Vestnik Cesk. Zool. Spol. 8: 166-172
Tykarski P. 2013. Coleoptera Poloniae - Information System about Beetles of Poland. <http://coleoptera.ksib.pl/index.php?id=cretl=en>, retrieved on 10 February 2014
Uppstrom K. A. 2010. Mites (Acari) associated with the ants (Formicidae) of Ohio and the harvester ant, Messor pergandei, of Arizona. Master thesis Ohio State University
Wachmann E., Melber A. and Deckert J. 2007. Wanzen. Goecke et Evers, Keltern
Wardle D., Hyodo F. and Bardgett R. 2011. Long-term aboveground and belowground consequences of red wood ant exclusion in boreal forest. Ecology 92: 645-656
Wasmann E. 1894. Kritisches Verzeichniss der myrmekophilen und termitophilen Arthropoden. Berlin: F. L. Dames, xv
Wasmann E. 1898. Erster Nachtrag zu den Ameisengästen von Holländisch Limburg, mit biologischen Notizen. Tijdschr. Entomol. 41: 1-19
Wasmann E. 1899. Weitere nachträge zum Verzeichniss der Ameisengäste von Holländisch Limburg. Tijdschr. Entomol. 42: 158-171
Acknowledgments
This project was supported by the FWO-Vlaanderen (Research Foundation Flanders) (grant no.11D6414N) and by the KULeuven PF/10/07-SEEDS grant (Centre of excellence on eco-evolutionary dynamics).
Author information
Authors and Affiliations
Corresponding author
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Parmentier, T., Dekoninck, W. & Wenseleers, T. A highly diverse microcosm in a hostile world: a review on the associates of red wood ants (Formica rufa group). Insect. Soc. 61, 229–237 (2014). https://doi.org/10.1007/s00040-014-0357-3
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00040-014-0357-3