DOI: 10.13102/sociobiology.v62i4.901Sociobiology 62(4): 620-622 (December, 2015) Open access journal: http://periodicos.uefs.br/ojs/index.php/sociobiology ISSN: 0361-6525 First records of the recently described ectoparasitic Rickia lenoirii Santam. (Ascomycota: Laboulbeniales) in the Carpathian Basin Fungi of the Laboulbeniales order are obligate ectoparasites of different arthropod taxa, mainly of Coleoptera (Santamaria, 2001; Henk et al., 2003). Six described Laboulbeniales species infect ants, but only four of these have been found in Europe (Haelewaters et al., 2015a, Santamaria & Espadaler, 2015, D. Haelewaters, pers. comm.): Laboulbenia formicarum Thaxt. is found in France, Portugal and Spain on two Lasius species; Laboulbenia camponoti S.W.T. Batra in Bulgaria and Spain on five Camponotus species; Rickia wasmannii Cavara in 17 countries on nine Myrmica species; and Rickia lenoirii Santam. in Greece on Messor wasmanni Krausse, 1910 and in France on Messor structor (Latreille, 1798). At the moment, only R. wasmannii and L. camponoti have been reported among these four Laboulbeniales species in the Carpathian Basin (Tartally et al., 2007; Csata et al., 2013; Báthori et al., 2014; Tartally & Báthori, 2015). As M. structor is widely distributed in the Carpathian Basin (Schlick-Steiner et al., 2006), the potential presence of R. lenoirii on this host ant species in this region was plausible, ABSTRACT Rickia lenoirii has been reported in seven localities in the Carpathian Basin, six in Hungary and one in Romania, on Messor structor (Hymenoptera: Formicidae) host specimens. This is the first occurrence of this fungus in two new (Pannonian and Continental) biogeographic regions. According to our findings, the northernmost (47°31’33.01”N) known occurrence of R. lenoirii is Ferenc-hegy (Ferenc Hill) in Budapest. Sociobiology An international journal on social insects F Báthori1, WP Pfliegler2,3, A Tartally1 Article History Edited by Evandro do Nascimento Silva, UEFS, Brazil Received: 17 August, 2015 Initial acceptance 05 November, 2015 Final acceptance 23 December, 2015 Keywords Formicidae, harvester ant, Hungary, Messor structor, Romania Corresponding author András Tartally Department of Evolutionary Zoology and Human Biology, University of Debrecen Egyetem tér 1, H-4032 Debrecen, Hungary E-mail: tartally.andras@science.unideb.hu especially as R. lenoirii is a recently described and extremely small species (Santamaria & Espadaler, 2015) that could easily escape notice. It should be noted that only M. structor and no other Messor harvester ant species are distributed in the Carpathian Basin (Schlick-Steiner et al., 2006). Thus, our aim was to investigate the presence of R. lenoirii within the Carpathian Basin by checking museum specimens of M. structor collected from several parts of this region. In order to discover the presence of R. lenoirii, all the M. structor specimens collected in the Carpathian Basin and deposited in the Hymenoptera Collection of the Hungarian Natural History Museum were checked under an Olympus SZX9 stereomicroscope between 12.6-114x magnifications. In total, 499 M. structor specimens (428 workers, 28 males, and 43 queens) were examined, originating in 44 localities of the Carpathian Basin (35 sites in Hungary, 6 in Romania and 3 in Slovakia; see Supplementary File for details, available at http://periodicos. uefs.br/ojs/index.php/sociobiology/rt/suppFiles/901/0 and DOI: 10.13102/sociobiology.v62i4.901.s1079). SHORT NOTE 1Department of Evolutionary Zoology and Human Biology, University of Debrecen, Debrecen, Hungary 2Department of Biotechnology and Microbiology, University of Debrecen, Debrecen, Hungary 3Postdoctoral Fellowship Programme of the Hungarian Academy of Sciences (MTA), Hungary Sociobiology 62(4): 620-622 (December, 2015) 621 Pinned host specimens with R. lenoirii thalli we re- soaked in 70% ethanol overnight. Thalli were removed with an insect pin and prepared onto slides in Heinz-PVA. Microscopy images were taken with an Olympus BD40 microscope equipped with a 100x lens and focus-stacked. Specimens were compared with the original description and diagnostic characters (Santamaria & Espadaler, 2015) and determined on the basis of thallus form, size and cell number, and shapes of antheridia and perithecium. Thirty specimens (6.0% of the investigated individuals) of M structor specimens were found to be parasitized by R. lenoirii (Fig 1) at six Hungarian sites (28 workers) and one Romanian one (2 workers) (see details in the supplementary file). Thus, R. lenoirii infection was recorded in 15.9% of the investigated sites in total. Fungi were recorded on the legs and antennae of the hosts. As noted in the original description of R. lenoirii (Santamaria & Espadaler, 2015), deterioration and reduction of antheridia to amorphous secondary appendage- like structures was observable. Brown trichogyne scars were visible on all photographed specimens. The tip of perithecia were in some cases less markedly truncated than in the original description (Fig 1). No other Messor species, as potential hosts, were recorded in the Carpathian Basin in the course of our research. Rickia lenoirii specimens are deposited in the Fungi Collection of the Hungarian Natural History Museum on permanent slides (inventory numbers: 107653-107659). Our findings represent the first records of R. lenoirii since its recent description (Santamaria & Espadaler, 2015). This is the third ant-parasitic Laboulbeniales species recorded in the Carpathian Basin (see Section 1). The number of countries in which this fungus has been found thus has doubled, as at the time of its description it was known only from Greece and France (Santamaria & Espadaler, 2015). Now, R. lenoirii has been recorded in Hungary and Romania. Furthermore, Ferenc- hegy (Ferenc Hill), in Budapest, is now the northernmost (47°31’33.01”N) known occurrence of R. lenoirii. The discovery of R. lenoirii on M. structor host specimens does not constitute the discovery of a new host ant species, but it should be noted that M. structor has cryptic species/lineages (Seifert, 2007; Schlick-Steiner et al., 2006). It would be interesting to know whether each lineage is susceptible to R. lenoirii. Similarly, it would be worth checking the presence of this fungus on the numerous other known (sub) species of Messor harvester ants (see details in Santamaria & Espadaler, 2015) and comparing different populations of the fungus. As noted in the original description, thalli from the two known host specimens seemed to be slightly different in size, and the specimens recorded in the course of our work showed some variation in perithecium shape. Rickia lenoirii has been found in the Mediterranean biogeographic region (Santamaria & Espadaler, 2015), and it has now also been discovered in the Pannonian and the Continental regions (compare Supplementary File with EEA, 2012), where the host Messor structor lives in xerothermic grasslands with rich seed vegetation (Seifert, 2007). However, as discussed by Santamaria and Espadaler (2015), a relatively high level of humidity could promote R. lenoirii infection, as with other Laboulbeniales fungi. Our records seem to confirm this suggestion on a broad scale, as all the sites where this fungus has been found are close to big bodies of water (Lake Balaton or the Danube River; see Supplementary File). The Danube River could even be a corridor of R. lenoirii, connecting the Carpathian Basin with the Black Sea. New research focusing on this recently described parasitic fungus would probably uncover new occurrences across Europe. Recent research has shown that ant parasitic R. wasmannii and L. formicarum have effects on their ant hosts (Csata et al., 2014; Báthori et al., 2015; Konrad et al., 2015; Pech & Heneberg, 2015). Similar experiments on R. lenoirii could contribute to a deeper understanding of the interactions of Laboulbeniales fungi with their hosts. However, the main aim of this inquiry is to call the attention of mycologists and myrmecologists to these small but interesting fungi and to the importance of museum collections (see Suarez and Tsutsui, 2004, Haelewaters et al., 2015b). Fig 1. Rickia lenoirii thalli (a: Farkasrét, b: Ferenc-hegy, c: Balatonfüred, d: Badacsony, e: Révfülöp, f: Herkulesfürdő) and a part of an infected leg of a Messor structor host ant (g: Budapest), recorded in the Carpathian Basin (see localities and their names in the Supplementary File) F Báthori, WP Pfliegler and A tartally - Rickia lenoirii is reported from the Carpathian Basin622 Acknowledgments To M. Sipiczki and Z. Vas; ‘AntLab’ Marie Curie Career Integration Grant within the 7th European Community Framework Programme, ‘Bolyai János’ scholarship of the Hungarian Academy of Sciences (MTA). References Báthori, F., Csata, E. & Tartally, A. (2015). 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