key: cord-0003775-2gr4n3ld authors: Zittra, Carina; Moog, Otto; Christian, Erhard; Fuehrer, Hans-Peter title: DNA-aided identification of Culex mosquitoes (Diptera: Culicidae) reveals unexpected diversity in underground cavities in Austria date: 2019-03-27 journal: Parasitol Res DOI: 10.1007/s00436-019-06277-y sha: c0a39e0aaa5566362f32ead0b27cf6a840b271ff doc_id: 3775 cord_uid: 2gr4n3ld Subterranean cavities serve as resting places and hibernation shelters for mosquitoes. In Europe, members of the genus Culex are often the most abundant insects on cave walls. Culex pipiens L., the common house mosquito, exists in two physically very similar, yet genetically and ecologically distinct biotypes (or forms, ‘f.’), namely Cx. pipiens f. pipiens and Cx. pipiens f. molestus. Autogeny and stenogamy of the latter form have been interpreted as adaptations to underground habitats. The epigean occurrence of the two biotypes and their hybrids was recently examined in Eastern Austria, but the hypogean distribution of the Cx. pipiens complex and morphologically similar non-members such as Cx. torrentium is unknown. Considering the key role of Culex mosquitoes in the epidemiology of certain zoonotic pathogens, the general paucity of data on species composition and relative abundance in subterranean shelters appears unfortunate. For a first pertinent investigation in Austria, we collected mosquitoes in four eastern federal states. Based on analyses of the ACE2 gene and the CQ11 microsatellite locus, 150 female and three male mosquitoes of the genus Culex, two females of the genus Culiseta and a single female of the genus Anopheles were determined to species level or below. In our catches, Cx. pipiens f. pipiens exceeded the apparent abundance of the purportedly cave-adapted Cx. pipiens f. molestus many times over. Records of Cx. hortensis and Cx. territans, two species rarely collected in Austria, lead us to infer that underground habitats host a higher diversity of culicine mosquitoes than previously thought. Underground spaces such as natural caves, mining galleries, tunnels and culverts (henceforth referred to as 'caves') are resting and hibernation shelters for numerous families of insects, including hematophagous Diptera such as Psychodidae, Ceratopogonidae and Culicidae (Obame-Nkoghe et al. 2017a; Carvalho et al. 2016) . Mosquitoes (Culicidae) include vectors of human and veterinary pathogens such as arboviruses, haemosporidians and filarioid nematodes (Norris 2004; Schoener et al. 2017; Übleis et al. 2018) . Distribution and transmission of these pathogens are regulated through communities of potential vector organisms (Zittra et al. 2017a) . About 10% of the 3500 known mosquito species play a major role in pathogen transmission (Becker et al. 2010; Diniz et al. 2017) . Members of the Culex pipiens complex are critical for the epidemiology of certain viruses that menace public and veterinary health (Brugman et al. 2018) . At least, Sindbis and Sindbis-like viruses (Togaviridae), Lednice virus (Bunyaviridae) and Usutu and West Nile virus (Flaviviridae) are primarily transmitted by Culex species in Europe (Becker et al. 2012; Roiz et al. 2012; Fros et al. 2015) . Furthermore, persistence of the West Nile virus lineage 2 throughout the winter season in Europe, facilitated by vertical transmission, is strongly linked to this species complex (Rudolf et al. 2017) . Heed must be paid to the fact that different host preferences of Section Editor: David Bruce Conn the two Cx. pipiens forms and the hybrids entail distinct vector competences (Lundström et al. 1990; Vogels et al. 2016 ). In addition, the two forms exhibit ecological differentiation: Culex pipiens f. pipiens is basically ornithophilic (bird-biting), anautogenous (the female requires a blood meal for egg development) and eurygamous (mates while swarming in a large breeding area), whereas Cx. pipiens f. molestus is mammalophilic (preferring mammals), autogenous (can lay a first batch of eggs without a blood meal) and stenogamous (mates in restricted space without nuptial flight). Immature stages of both forms are found at epigean sites, whereas in hypogean sites only f. molestus has been recorded so far (Byrne and Nichols 1999) . Furthermore, the two biotypes are known to hybridise in areas where they coexist (Zittra et al. 2016) , which may result in populations that act as bridge vectors due to their feeding preferences (Hamer et al. 2008; Černý et al. 2011) . Previous studies, not only with reference to Austria, mainly focused on epigean urban and wetland habitats, completely neglecting less accessible sites such as natural caves (Lebl et al. 2014; Zittra et al. 2016) . The mosquito species inventory of Austria currently holds 49 species of eight genera (Zittra et al. 2017b) . Only a restricted number of these has been reported from both natural and man-made underground cavities in Austria, namely Cx. pipiens s.l. (recorded in several federal states: Salzburg, Upper Austria, Lower Austria, Vienna, Burgenland, Styria and Carinthia), Cx. hortensis and Ochlerotatus geniculatus (Carinthia), Culiseta annulata (Lower Austria and Burgenland) (Strouhal and Vornatscher 1975) and Uranotaenia unguiculata (Lower Austria) (Rudolf et al. 2015) . The Cx. pipiens complex, usually referred to as the common house mosquito, consists of several taxa (Bahnck and Fonseca 2006; Farajollahi et al. 2011) . In Austria, only one species of this complex has been confirmed so far: Cx. pipiens L., with the biotypes Cx. pipiens f. pipiens, Cx. pipiens f. molestus and hybrids of the two (Zittra et al. 2016) . A number of Culex species are genetically separated from the Cx. pipiens complex (Farajollahi et al. 2011 ), yet morphologically hardly distinguishable in the female sex. In Austria, this pertains to Cx. torrentium (Zittra et al. 2016) . Mosquitoes differ in their hibernation strategy (Andreadis et al. 2010) . While many species hibernate in immature stages, Culex pipiens s.l. is among the mosquitoes that enter hibernacula for resting as non-blood fed, nulliparous and inseminated females. Hibernating parous females seem to experience high mortality (Andreadis et al. 2010) . Since specimens of the genus Culex from underground cavities have seldom been reliably determined to species level or below, the relevance of these shelters with regard to population dynamics and a potential public health risk is hard to assess. So it seems advisable to establish culicid taxa composition and relative abundance in a previously neglected habitat type: the subterranean realm. In this study, we searched into the composition of mosquito assemblages in Austrian caves for the first time, using-in case of genus Culex-molecular tools. We examined whether the presence of Cx. pipiens is in fact much higher than the presence of any other culicid species, as the catalogue of Austrian cave animals (Strouhal and Vornatscher 1975) suggests, and whether alleged underground-adapted Cx. pipiens f. molestus are actually more abundant than Cx. pipiens f. pipiens or hybrids of the two biotypes. From 2015 to 2018, we collected mosquitoes in 44 caves in eastern Austria. Table 1 gives the basis data of the sampling sites. The sites were selected such as to cover the different types of cave-like habitats scattered over the federal states of Vienna, Lower Austria, Burgenland and Styria, with a geographic focus on the Vienna region. Each locality was sampled one to three times, only cave Schelmenloch was sampled monthly from January 2017 to May 2018. The effort always equated to one person-hour. We used an aspirator for collecting mosquitoes resting on the cave walls. A moistened duster proved efficient for the catch of flying mosquitoes. Small caves were completely screened for mosquitoes, bigger caves from the entrance to well beyond the innermost mosquito sampling spot (in the aphotic zone, if present). The specimens were transported in cooled plastic tubes to the lab, subsequently deep-frozen and kept in the freezer until examination. Mosquitoes were identified morphologically to species or species complex level using the identification key after Becker et al. (2010) . Mosquitoes classified as belonging to the Cx. pipiens complex or Cx. torrentium were identified subsequently to species level or form level by means of molecular tools. DNA was extracted from single individuals using the DNeasy Blood and Tissue Kit (Qiagen, Hilden, Germany) according to the manufacturer's protocol. In a first step, Cx. pipiens forms were distinguished from Cx. torrentium by partial amplification of the ACE2 gene (Smith and Fonseca 2004) using primers ACEpip, ACEpall, ACEtorr and B1246s in standard PCR protocols (Zittra et al. 2016) . PCR products were separated using gel electrophoresis targeting 634 bp (Cx. pipiens forms) and 512 bp (Cx. torrentium) DNA fragments. Mosquitoes, determined as members of Cx. pipiens complex, were subsequently identified to biotype level in a second step (Bahnck and Fonseca 2006) using primers CQ11F2, pip CQ11R and mol CQ11R in standard PCR protocols. PCR products were visualised using gel electrophoresis targeting 185 bp (Cx. pipiens f. pipiens) and 241 bp (Cx. pipiens f. molestus) DNA fragments (Bahnck and Fonseca 2006) . Fragments (ca. 700 bp) of mitochondrial cytochrome c oxidase subunit I (COI) of the negative samples were partially amplified using primers H15CuliCOIFw and H15CuliCOIRv (Zittra et al. 2016) in standard protocols, to test for members of similar Culex species that had possibly passed unnoticed through the initial morphology-based sorting. PCR products were subsequently purified and directly sequenced by a commercial company (LGC Genomics, Germany). We analysed 150 female and three male mosquitoes of the genus Culex. The male mosquitoes belonged to Cx. torrentium and were all collected in June and July. Among females, Cx. torrentium (n = 69) was most abundant, followed by Cx. pipiens f. pipiens (n = 44), Culex hortensis (n = 20) and the hybrids Cx. pipiens f. pipiens × f. molestus (n = 13). Culex pipiens f. molestus (n = 3) was represented in low apparent abundance. Culex territans (n = 3) has been found rarely in natural and artificial subterranean habitats, the likewise rare species Cx. modestus (n = 1) in a single natural cave. In this study, four species, namely Cx. hortensis, Cx. territans, Cx. torrentium and a single female of Anopheles maculipennis s.l. were recorded for the first time in subterranean habitats in Austria ( Table 2) . Females of Culiseta annulata (n = 2) were sampled in a natural and an artificial site in Lower Austria. Culex torrentium and Cx. pipiens f. pipiens were found in all federal states in artificial and natural subterranean habitats, single individuals of Cx. pipiens f. molestus in Burgenland and Lower Austria at natural sites, hybrids of the two forms in Burgenland, Lower Austria and Styria, mainly in natural caves. Culex hortensis was found in Lower Austria and Vienna, a single Cx. territans in Lower Austria. Male Cx. torrentium were found in a natural cave as well as in a tunnel in Lower Austria. Mosquitoes were abundant in the twilight zone near the entrance and decreased towards the inner reaches. Maximum abundance was determined in autumn. The number of individuals increased in September and decreased after a peak in October (Table 3 ). Mosquitoes were absent at the study sites in August. Previous observations in Lower Austrian caves (Fritsch 1992; Wurzenberger 1996) indicate that mated female mosquitoes enter caves for hibernation from late summer on. After abundance peaks in September or October, the number of individuals drops during winter due to mortality. This conforms to our results. We found females from September to May with highest abundance in September and October. The males were collected in June and July. This proves that caves can serve as resting places also for male mosquitoes, although at another season. The composition of the Cx. pipiens complex in subterranean habitats reflects the observed species composition in Austrian overground habitats: Cx. pipiens f. pipiens is most abundant, followed by hybrids and Cx. pipiens f. molestus (Zittra et al. 2016 ). Since Cx. pipiens f. molestus is described to be adapted to subterranean life (Byrne and Nichols 1999) , we had expected a higher proportion of this form. Our results suggest, however, that subterranean habitats do not host significant numbers of the biotype molestus. It seems that the two forms are equally inclined to spend winter dormancy in caves. Further investigations in extended caves with a zone of perfect darkness, the aphotic zone and steady climate should put this statement to the proof. At the same time, the distribution of the two biotypes along the light and climate gradients could be determined. The high abundance and frequent occurrence of Cx. torrentium is new for Austria, but the species has been reported as a winter guest in underground habitats of other European countries: Dobat (1975 Dobat ( , 1978 and Weber (1989 Weber ( , 1991 Weber ( , 1995 published several findings in Germany; records in Norway (Kjaerandsen 1993) , Sweden (Jaenson 1987) and Slovakia (Moravčík 1976) were compiled by Dvořák (2014) . However, these determinations are questionable, since females of Cx. torrentium are morphologically indistinguishable from females of the Cx. pipiens complex. In our investigation, Cx. torrentium, an often neglected, mainly ornithophilic mosquito species, had the highest apparent abundance in natural as well as in artificial cavities. Combining our results with literature, seven of the 49 culicid species currently known from Austria have been recorded in subterranean habitats so far: Anopheles maculipennis s.l, Cx. torrentium, Cx. pipiens (with the biotypes Cx. pipiens f. pipiens and Cx. pipiens f. molestus), Cx. hortensis, Cx. territans, Culiseta annulata and Ochlerotatus geniculatus (Zittra et al. 2017b; Strouhal and Vornatscher 1975) . Uranotaenia unguiculata, a potential vector of the West Nile virus (Rudolf et al. 2015) , was not retrieved in this study, although the species is present in Austria and able to hibernate in caves. Mosquitoes usually start entering hibernacula in early autumn, but our results demonstrate that natural and man-made subterranean shelters are also used as resting places during most of the year. The source of the supposedly underground-adapted biotype molestus remains to be clarified. Our data in combination with previously published results (Zittra et al. 2017a) indicate that caves are neither overly significant for its occurrence, nor serve as hotspots of hybridization. Therefore, we propose that this biotype naturally occurs in low abundance in Eastern Austria. However, population genetics should be conducted to assess whether pipiens × molestus hybrids contribute to overall population dynamics of the pipiens complex, and to elucidate the population structure within the pipiens complex. Three mosquito species rated as rare, viz. Cx. torrentium, Cx. hortensis and Cx. territans, were collected during this study. Individual numbers of the latter two species are too low to detect any correlation with overground abundance. The three species are generally hard to come by. A common problem in mosquito ecology is under-estimation of certain species when carbon dioxide traps are used (Beck et al. 2003; Zittra et al. 2017a) . It seems that mainly non-mammalophilic species are underrepresented in surveillance studies due to the low attractiveness of these standard traps (Zittra et al. 2017a ). The high numbers of Cx. torrentium in the caves are therefore quite unusual as this species is typically collected in much lower proportions (Zittra et al. 2016) . We assume that these relative high abundances in caves might be due to a species-specific preference for resting and hibernating in subterranean shelters. Indeed, several species of the genera Culex, Culiseta, Anopheles and Uranotaenia are known to use caves as places for hibernation or as resting sites (Trájer et al. 2018 ). On the other hand, we collected low numbers of Cx. territans and Cx. hortensis, both likely non-mammalophilic, that are also described as using dark and cool places as daytime resting sites. Generally, little is known about these taxa as they are rarely collected (Zittra and Waringer 2015; Zittra et al. 2016 Zittra et al. , 2017b . Sophisticated trapping devices might be necessary to capture and investigate such rarely collected, yet not necessarily rare species (Camp et al. 2018) . The species-rich genera Aedes and Ochlerotatus mainly hibernate in their immature stages (Becker et al. 2010 ) and were therefore, as expected, not recorded in this study. The absence of Uranotaenia species at the studied sites possibly relates to their limited distribution in Burgenland, near Lake Neusiedl (Lebl et al. 2014; Camp et al. 2018) , while there are only single records in other federal states (Lebl et al. 2015; Zittra et al. 2017) . Since tourism and modern leisure behaviour make cave visits increasingly popular, pathogens transmitted by caveassociated mosquitoes have become a topic of research, especially in tropical regions (Obame-Nkoghe et al. 2017b; Wiwanitkit 2018) . In Austria, 33 out of 16,000 surveyed caves run as show caves (Oedl and Spötl 2016) , but many more subterranean sites are well-frequented local attractions without regular guiding service. In Central European caves, the hazard of a mosquito-borne infection is small, as culicids are using caves mainly for resting or hibernation. Reports on mosquito attacks in caves are rare. This is in contrast to subways and similar subterranean habitats in cities (Byrne and Nichols 1999) where the environment does not fully comply with cave conditions. Our results corroborate the importance of natural and manmade underground cavities as hibernation sites for Culex species and demonstrate the significance of such habitats as resting places. Subterranean shelters house a more diverse mosquito assemblage than previously inferred from literature data. We found that the composition of underground assemblages of the Culex pipiens complex reflects the composition in overground habitats, without proportional increase of Cx. pipiens f. molestus in the caves. The high proportions of Cx. torrentium are surprising but can be related to the ecology of the species. Further rare species in our material additionally suggest the inclusion of caves in mosquito surveillance programs. Studies on hibernating populations of Culex pipiens from a West Nile virus endemic focus in New York City: parity rates and isolation of West Nile virus Rapid assay to identify the two genetic forms of Culex (Culex) pipiens L. (Diptera: Culicidae) and hybrid populations Preliminary studies in the mosquito fauna of Luxembourg Mosquitoes and their control Epizootic emergence of Usutu virus in wild and captive birds in Germany The role of Culex pipiens L. (Diptera: Culicidae) in virus transmission in Europe Culex pipiens in London underground tunnels: differentiation between surface and subterranean populations Uranotaenia unguiculata Edwards, 1913 are attracted to sound, feed on amphibians, and are infected with multiple viruses Molecular detection of Leishmania DNA in wild-caught phlebotomine sand flies (Diptera: Psychodidae) from a cave in the state of Minas Gerais, Brazil Spatial feeding preferences of ornithophilic mosquitoes, blackflies and biting midges Diapause and quiescence: dormancy mechanisms that contribute to the geographical expansion of mosquitoes and their evolutionary success Die Höhlenfauna der Schwäbischen Alb. Abhandlungen zur Karst-und Höhlenkunde Die Höhlenfauna der Fränkischen Alb Invertebrates found in underground shelters of western Bohemia. I. Mosquitoes (Diptera: Culicidae) BBird bitingm osquitoes and human disease: a review of the role of Culex pipiens complex mosquitoes in epidemiology Comparative Usutu and West Nile virus transmission potential by local Culex pipiens mosquitoes in North-Western Europe Culex pipiens (Diptera: Culicidae): a bridge vector of West Nile virus to humans Overwintering of Culex mosquitoes in Sweden and their potential as reservoirs of human pathogens Diptera in mines and other cave systems in southern Norway Mosquitoes (Diptera: Culicidae) and their relevance as disease vectors in the city of Effect of environmental temperature on the vector competence of Culexp pipiens and Cx. torrentium for Ockelbo virus Ročná dynamika niektorých čeľadí Dipter (Culicidae, Heleomyzidae) vo vybraných jaskyniach Liptova [Year dynamics of some dipteran families (Culicidae, Heleomyzidae) in selected caves of the Lipton region Mosquito-borne diseases as a consequence of land use change Diversity and role of cavedwelling hematophagous insects in pathogen transmission in the Afrotropical region Exploring the diversity of blood-sucking Diptera in caves of Central Africa Höhlen und Karst in Österreich. Linz, Oberösterreichisches Landesmuseum Blood meal analysis, flavivirus screening, and influence of meteorological variables on the dynamics of potential mosquito vectors of West Nile virus in northern Italy Overwintering of Uranotaenia unguiculata adult females in Central Europe: a possible way of persistence of the putative new lineage of West Nile virus? West Nile virus in overwintering mosquitoes Avian Plasmodium in eastern Austrian mosquitoes Rapid assays for identification of members of the Culex (Culex) pipiens complex, their hybrids, and other sibling species (Diptera: Culicidae). The Am Katalog der rezenten Höhlentiere Österreichs Diversity, seasonal abundance and potential vector status of the cave-dwelling mosquitoes (Diptera: Culicidae) in the Bakony-Balaton region Xenomonitoring of mosquitoes (Diptera: Culicidae) for the presence of filarioid helminths in eastern Austria Vector competence of northern European Culex pipiens biotypes and hybrids for West Nile virus is differentially affected by temperature Die Höhlenfauna und -flora des Höhlenkatastergebietes Rheinland-Pfalz/Saarland, 2. Teil. Abhandlungen zur Karst-und Höhlenkunde Die Evertebratenfauna der Höhlen und künstlichen Hohlräume des Katastergebietes Westfalen einschließlich der Quellen-und Grundwasserfauna Die Höhlenfauna und -flora des Höhlenkatastergebietes Rheinland-Pfalz/Saarland, 3. Teil. Abhandlungen zur Karst-und Höhlenkunde Cave associated infection: an issue in tropical medicine Ecological characterization and molecular differentiation of Culex pipiens complex taxa and Culex torrentium in eastern Austria Landscape structure affects distribution of potential disease vectors (Diptera: Culicidae) Diptera: Culicidae Acknowledgements We are thankful to Bita Shahi Barogh for her indispensable support in the laboratory. The authors thank Ulla Brandstätter, Melitta Christian, Petra Christian, Karl Mitterer, Alexander Mrkvicka, Alexander Reischütz, Erich Schneider and Michaela Zemanek for their strong support in capturing the mosquitoes. Publisher's note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.