Arxius de Miscel·lània Zoològica. Volumen 22 (2024) Páginas: 143-149

Hoverflies at the edge: new southern records of two European genera of Syrphidae (Diptera)

Ballester-Torres, I., Nedeljković, Z., Ricarte, A.

DOI: https://doi.org/10.32800/amz.2024.22.0143

Descargar

PDF

Palabras clave

Hammerschmidtia, Megasyrphus, Conservación, Nuevos registros, España, Colecciones científicas

Cita

Ballester-Torres, I., Nedeljković, Z., Ricarte, A., 2024. Hoverflies at the edge: new southern records of two European genera of Syrphidae (Diptera). Arxius de Miscel·lània Zoològica, 22: 143-149, DOI: https://doi.org/10.32800/amz.2024.22.0143

Fecha de recepción:

01/10/2024

Fecha de aceptación:

15/11/2024

Fecha de publicación:

27/11/2024

Compartir

Visitas

418

Descargas

243

Documento sin título

Abstract

Hoverflies at the edge: new southern records of two European genera of Syrphidae (Diptera)

Records of two species of hoverflies (Diptera, Syrphidae), Hammerschmidtia ferruginea (Fallén, 1817) and Megasyrphus erraticus (Linnaeus, 1758), are here provided for the first time in the Iberian Peninsula, both records located at the southern edges of these genera ranges in Europe. The new data is reported following fieldwork in the Pyrenees of Huesca and Lleida provinces (Spain) and consultation of the 'Museu de Ciències Naturals de Barcelona' entomological collection. The importance of these findings is discussed in the frame of the conservation of these species’ habitats.

Key words: Hammerschmidtia, Megasyrphus, Conservation, New records, Spain, Scientific collections

Resumen

Sírfidos en los límites: nuevos registros de dos géneros de Syrphidae (Diptera) en el sur de Europa

Se proporcionan, por primera vez en la península ibérica, los registros de dos especies de sírfidos (Diptera, Syrphidae), Hammerschmidtia ferruginea (Fallén, 1817) y Megasyrphus erraticus (Linnaeus, 1758), ambos localizados en los límites meridionales del área de distribución de estos géneros en Europa. Los nuevos datos fueron obtenidos a partir de trabajo de campo realizado en los Pirineos de las provincias de Huesca y Lleida (España), y de la revisión de la colección entomológica del Museu de Ciències Naturals de Barcelona. La importancia de estos hallazgos es discutida en el marco de la conservación de los hábitats de estas especies.

Palabras clave: Hammerschmidtia, Megasyrphus, conservación, nuevos registros, España, colecciones científicas

Resum

Sírfids al límit: registres nous de dos gèneres de Syrphidae (Diptera) al sud d’Europa

Es proporcionen per primera vegada a la península Ibèrica els registres de dues espècies de sírfids (Diptera, Syrphidae), Hammerschmidtia ferruginea (Fallén, 1817) i Megasyrphus erraticus (Linnaeus, 1758), ambdós localitzats als límits meridionals de l'àrea de distribució d'aquests gèneres a Europa. Les noves dades van ser obtingudes a partir de treball de camp dut a terme als Pirineus de les províncies d’Osca i de Lleida (Espanya), i de la consulta de la col·lecció entomològica del Museu de Ciències Naturals de Barcelona. La importància d'aquestes troballes es discutida en el marc de la conservació dels hàbitats d’aquestes espècies.

Paraules clau: Hammerschmidtia, Megasyrphus, conservació, registres nous, Espanya, col·leccions científiques

Hoverflies (Diptera, Syrphidae) are one of the most important families of pollinator insects due to their adults' feeding regimes linked to flowers (Doyle et al., 2020). Over 6,300 species are known to the family (Skevington et al., 2019), of which 421 species and 72 genera are included in the most recent checklist of the Syrphidae of Spain, Andorra and Gilbraltar (Ricarte and Marcos-García, 2017).

The first records of the genera Hammerschmidtia Schumel, 1834 (Syrphidae, Eristalinae) and Megasyrphus Dušek and Láska, 1967 (Syrphidae, Syrphinae) from the Iberian Peninsula and Spain are provided here as a result of a hand-net survey in the central part of the Pyrenees, in the provinces of Huesca (Aragón) and Lleida (Cataluña), and the consultation of staff from the entomological collection at the 'Museu de Ciències Naturals de Barcelona' (MCNB hereafter). Neither genera have been cited in Portugal, according to the available hoverfly checklist (Van Eck, 2011, 2016). A male of Hammerschmidtia ferruginea (Fallén, 1817) (fig. 1A-1C) was collected in the beech forest of Salenques (Huesca) (42º 35' 49'' N 0º 45' 27'' E, 1,460 m a.s.l.; 16/06/2024; I. Ballester-Torres Leg.), feeding on flowers of Angelica sp. A male of Megasyrphus erraticus (fig. 2A-2B) was collected on the verge of a mixed forest with beech and pine in Sant Joan de Toran (Lleida) (42º 49' 11'' N 0º 48' 19'' E, 1,060 m a.s.l., 18/06/2024; I. Ballester-Torres Leg.), feeding on a flower field, mainly consisting of Ranunculus species. Both hoverfly specimens are deposited at the CEUA-CIBIO collection, University of Alicante, Spain, and bar-coded as 'CEUA00116979' and 'CEUA00116980' (H. ferruginea and M. erraticus, respectively). During a visit of Antonio Ricarte to the MCNB for revision and identification of hoverflies in its entomological collection, an unidentified specimen was found and determined to be a M. erraticus female. The individual was caught in Montanyó de Llacs, AigüesTortes and Estany de Sant Maurici National Park (Lleida), in August, 1958, unknown Leg. (MZB 67-3064). All three studied specimens were identified with van Steenis et al. (2020) (H. ferruginea); and van Veen (2004) and Bartsch et al. (2009) (M. erraticus).

Fig. 1. Hammerschmidtia ferruginea, male from Huesca, Spain: A, dorsal view; B. lateral view; C, antenna, lateral view.
Fig. 1. Hammerschmidtia ferruginea, macho de Huesca, España: A, vista dorsal; B, vista lateral; C, antena, vista lateral.

Hammerschmidtia hoverflies superficially resemble dung-flies (Scatophagidae) and can be separated from other Syrphidae by the following combination of characters: medium to large body size (6-12 mm), mainly brown; eyes bare; arista plumose (pile of arista at least three times as long as basal diameter of arista), except for Hammerschmidtia ingrica Stackelberg, 1952 (arista almost bare); metasternum and katepimeron bare; subscutellar hair fringe absent; wing cell r1 open, not petiolate; apical crossvein perpendicular or slightly recessive (Thompson and Rotheray, 1998; van Steenis et al., 2020). This genus was once thought to be a subgenus of Brachyopa Meigen, 1822, but recent molecular studies clearly separate the two genera (Skevington et al., 2019). Hammerschmidtia can be distinguished from the similar Brachyopa by the presence of strong bristles on the anepisternum, postalar callus and scutellum; short and strong black spines on the anterior surface of the hind tibia, larger size, and more elongate shape (Thompson and Rotheray, 1998; Skevington et al., 2019). Hammerschmidtia is represented by only five species worldwide, two of which are known to occur in Europe: H. ferruginea and H. ingrica (Speight, 2020). Another two species are found widespread in North America (Skevington et al., 2019), while a fifth Hammerschmidtia species was described from China by Chu (1994). The two  species can be differentiated by the following morphological traits: H. ferruginea has a plumose arista, while H. ingrica has a short-haired arista (no longer than 3 x the basal diameter of arista); H. ferruginea has the posteroventral part of katepisternum with long, strong and black bristles, and the apex of profemur anteriorly with 1 to 4 strong, long yellow or black bristles, while H. ingrica lacks these strong bristles in the previously mentioned parts (van Steenis et al., 2020).

Hammerschmidtia ferruginea is a Palaearctic species found from northern Norway south to the Pyrenees, east through the Alps, Balkan Peninsula and Poland towards European Russia, also known from Scotland (Speight, 2020; van Steenis et al., 2020). It was formerly recognized to be Holarctic, but Skevington et al. (2019) showed that Nearctic populations belong to a separate, underscribed species, according to DNA evidence (Skevington et al., 2019). Larvae of Hammerschmidtia are saproxylic, lasting for 2-3 years while developing in wet, decaying sap under the bark of recent dead trees and logs of Populus tremula L. (Rotheray et al., 2009; Speight, 2020; van Steenis et al., 2020). When fallen wood is scarce, H. ferruginea depends on sap flows for breeding, helping the species to survive but at reduced population levels (Rotheray et al., 2009). Due to the high microhabitat specificity of H. ferruginea larva, this species is particularly vulnerable to climate change and to habitat modifications (van Steenis et al. 2021). For example, the number of localities with detectable populations of H. ferruginea in the British Isles is known to suffer ups and downs, probably related to fluctuations in the amount of available dead wood (Rotheray et al., 2009).

In the Iberian Peninsula, P. tremula is a protected tree species with a northern distribution, occurring sparsely in the northern mountain ranges and points of the Iberian and Central Systems (MITECO, 2011). On the eastern part of the Posets-Maladeta Natural Park, the Salenques beech forest is a mixed forest dominated by Fagus sylvatica L., part of the Natural Fluvial Reserve of the river Salenques (MITECO and Confederación Hidrográfica del Ebro, 2017). According to the MITECO biodiversity viewer, P. tremula may occur in isolation in this locality or in forest patches close to Salenques. Due to the high habitat specificity of H. ferruginea larva, we hypothesize that the adult found in Salenques beech forest may come from one of these isolated patches of P. tremula, where this species may be developing. Otherwise, H. ferruginea had been reported from the French Pyrenees (van Steenis et al., 2020) and its presence in the Spanish side of the Pyrenees was expected.

We would like to stress the importance of a proper management of dead wood in the Salenques forest and vicinities, as some true saproxylic species such as H. ferruginea are highly dependent on the availability of this resource (Rotheray et al., 2009, 2014; van Steenis et al., 2020). Rotheray et al. (2014) insisted on the importance of the availability of enough dead wood for the development of saproxylic species, as their dispersal ability depends on population density, and their population density depends on an optimal amount of dead wood. Authors have also recommended some conservation management techniques, such as maintaining breeding habitat continuity by fulfilling gaps in dead wood, or creating new habitat by planting P. tremula patches every 5 kilometres, as authors determined this longitude as the optimum dispersal ability distance for H. ferruginea. As an example of this proper management, a pilot project in the Natural Park of 'Andía-Urbasa' was carried out in the context of adaptation planning and management in the face of climate change. One of the actions carried out under this project was to promote an increase in the availability of large dead wood pieces (mainly Fagus sylvatica), while preserving old trees, maintaining a mosaic of the different stages of the sylvo-genetic cycle of beech forest (Gil et al., 2017). These management actions could also be carried out in Populus stands for the benefit of H. ferruginea and other saproxylic organisms, provided that the extent of the patch is sufficiently large, but also close to other patches.

The genus Megasyrphus comprises six species worldwide, Megasyrphus erraticus being the only species found in Europe (Skevington et al., 2019; Vujić et al., 2022). The genus is closely related to Didea Macquart, 1834 and Eriozona Schiner, 1860 (Wong et al., 2023), as all three were formerly treated under the same genus due to its morphological similarities (Speight, 2020). Megasyrphus can be distinguished from Didea by the black and yellow lateral margin of tergum III and IV, entirely black in Didea (Thompson and Rotheray, 1998; Skevington et al., 2019). Megasyrphus can be also separated from Eriozona by the presence of yellow fasciae on tergum II and III, while absent in Eriozona, as well as the general appearance, that in Eriozona is bumble-bee like, and in Megasyrphus is more reminiscent of a wasp (van Veen, 2004; Bartsch et al., 2009). Megasyrphus erraticus occurs mainly in northern and Central Europe, from Fennoscandia to the Pyrenees and from Ireland eastwards to European Russia, Siberian far east, central Asia and Japan (Barkalov and Mutin, 2019; Nedeljković and Ricarte, 2021). As for H. ferruginea, M. erraticus had also been reported from the French Pyrenees (Sarthou and Speight, 1997). Larva of M. erraticus has been found feeding on aphids on Pinus and Picea, also on Hordeum (Rojo et al., 2003; Skevington et al., 2019), and reared by Kula (1982) as overwintering among leaf litter on the floor of spruce (Picea) forest. The presence of Pinus and Hordeum in Sant Joan de Toran makes the presence and the breeding of the species very likely, as the habitat has the host plants of the known aphid prey required to complete its life cycle.

Fig. 2. Megasyrphus erraticus, male from Lleida, Spain: A, dorsal view; B, lateral view.
Fig. 2. Megasyrphus erraticus, macho de Lleida, España: A, vista dorsal; B, vista lateral.

After the finding in the MNCB collection, we also highlight here the importance of the scientific collections as a fundamental resource in providing valuable information about the distribution and population trends of insect species. This record plus our recent field finding of the same species suggest that the species has been developing for more than half a century in the Spanish Pyrenees, even though the ecological requirements of the species, as well as the conservation status of its populations has not been assessed in this geographic context yet. The region of the 'Vall d'Aran' (Lleida, Cataluña), where M. erraticus was caught, has recently been recognised as a Biosphere Reserve by the UNESCO (Ministerio de Asuntos Exteriores, Unión Europea y Cooperación, 2024). The recent finding of this species, rare in southern Europe, is yet another reason to promote the conservation of biological diversity in this UNESCO Reserve, whose declaration is devoted to this and other aims.

Acknowledgements

Special thanks to Dr. Javier Quinto and Dr. Sandra Martínez-Pérez for helping with the surveys and sharing with us some of their ideas, thoughts and time. Thanks are due to Berta Caballero for facilitating the access to the MCNB collection. Thanks to Menno van Zuijen for the valuable comments regarding Hammerschmidtia ferruginea. Financial support was provided by the Ministerio de Ciencia, Innovación y Universidades (Project PGC2018-095851-A-C65) and the European Union [project Terrestrial Fauna and Seabirds (native and invasive alien species): Improving knowledge of the state of Conservation" (C04.I01.P01.02.05): Recovery, Transformation and Resilience Plan-NextgenerationEU-Subproject: Improvement of the knowledge of the conservation status of the terrestrial and continental fauna of Spain (native and invasive alien species): continental invertebrates, six-yearly reports on Article 17 (Habitats Directive) and Article 24 (Invasive Species) and updating of Atlas and Red Books (TEC00006094)]. Part of the financial support was provided by the ‘Consellería de Innovación, Universidades, Ciencia y Sociedad Digital’ (Generalitat Valenciana)(Project CIAICO/2022/177). The visit to the MCNB collection by Antonio Ricarte was funded with the project 'Instigating a National Reference Collection for Spain's Threatened Pollinators (INC-STEP, Ref. 1/T1)' through the EU mechanism Financial Support for Third Parties, FSTP-cascade funding (3PP TETTRIs call, Horizon Europe). This scientific note is part of the PhD studies of the first author.

References

Barkalov, A. V., Mutin, V. A., 2019. Checklist of the hover-flies (Diptera, Syrphidae) of Russia. Euroasian Entomological Journal, 17(1): 466-512. DOI: 10.15298/euroasentj.17.6.12
Bartsch, H., Binkiewicz, E., Rådén, A., Nasibov, E., 2009. Blomflugor: Syrphinae. In: Nationalnyckeln till Sveriges flora och flora, DH53a: 1-478 (U. Sehlberg, Ed.). SLU Artdatabanken, Uppsala.
Chu, X-P., 1994. A new species of Syrphidae. Acta Entomologica Sinica, 37: 494-496. DOI: 10.16380/J.KCXB.1994.04.020 (in Chinese, English Summary).
Doyle, T., Hawkes, W. L. S., Massy, R., Powney, G. D., Menz, M. H. M., Wotton, K. R., 2020. Pollination by hoverflies in the Anthropocene. Proceedings of the Royal Society B: Biological Sciences, 287: 20200508. DOI: 10.1098/rspb.2020.0508
Gil, T., Saura, F., Atauri, J. A., 2017. Las áreas protegidas en el contexto del cambio global. Incorporación de la adaptación al cambio climático en la planificación y gestión. Caso piloto: Plan de gestión ZEC ‘Urbasa y Andía’. Objetivos y medidas de adaptación para la ZEC Urbasa-Andía. Oficina Técnica EUROPARC-España, Fundación Fernando González Bernáldez, Ministerio para la Transición Ecológica, Madrid, Spain.
Kula, E., 1982. The syrphid flies (Syrphidae, Diptera) of spruce forest. Folia Facultatis Scientiarum Naturalium Universitatis Purkynianae Brunensis, Biologia, 23(7): 61-64. CABI databases, https://www.cabidigitallibrary.org/doi/full/10.5555/19830505130
MITECO (Ministerio para la Transición Ecológica), 2011. Populus tremula. Available online at: https://www.miteco.gob.es/content/dam/miteco/es/biodiversidad/temas/inventarios-nacionales/Populus_tremula_tcm30-200485.pdf [Accessed on 15 july 2024]
MITECO (Ministerio para la Transición Ecológica), Confederación Hidrográfica del Ebro, 2017. Reserva Natural Fluvial del Río Salenca desde su nacimiento hasta la cola del Embalse de Baserca. Propuesta de medidas de gestión. Available online at: https://www.miteco.gob.es/content/dam/miteco/es/agua/temas/delimitacion-y-restauracion-del-dominio-publico-hidraulico/rnf_es091rnf130_riosalenca_tcm30-504244.pdf [Accessed on 18 july 2024]
Ministerio de Asuntos Exteriores, Unión Europea y Cooperación, 2024. Reservas de la Biosfera. Available online at: https://www.exteriores.gob.es/RepresentacionesPermanentes/unesco/es/UNESCO%20en%20Espana/Paginas/Inscripciones%20UNESCO/Reservas-de-la-Biosfera.aspx [Accessed on 25 July of 2024]
Nedeljković, Z., Ricarte, A., 2021. Eriozona erratica (Europe assessment). The IUCN Red List of Threatened Species 2021: e.T149167658A149167661. DOI: 10.2305/IUCN.UK.2021-3.RLTS.T149167658A149167661.en
Ricarte, A., Marcos-García, M. A., 2017. A checklist of the Syrphidae (Diptera) in Spain, Andorra and Gibraltar. Zootaxa, 4216(5): 401-440. DOI: 10.11646/zootaxa.4216.5.1
Rojo, S., Gilbert, F., Marcos-García, M. A., Nieto, J. M., Mier, M. P., 2003. A World Review of Predatory Hoverflies (Diptera, Syrphidae: Syrphinae) and Their Prey. Centro Iberoamericano de la Biodiversidad, Alicante, Spain.
Rotheray, E. L., Bussière, L. F., Moore, P., Bergstrom, L., Goulson, D., 2014. Mark recapture estimates of dispersal ability and observations on the territorial behaviour of the rare hoverfly, Hammerschmidtia ferruginea (Diptera, Syrphidae). Journal of Insect Conservation, 18(2): 179–188. DOI: 10.1007/s10841-014-9627-7
Rotheray, E. L., MacGowan, I., Rotheray, G. E., Sears, J., Elliott, A., 2009. The conservation requirements of an endangered hoverfly, Hammerschmidtia ferruginea (Diptera, Syrphidae) in the British Isles. Journal of Insect Conservation, 13(6): 569-574. DOI: 10.1007/s10841-008-9204-z
Sarthou, J.-P., Speight, M. C. D., 1997. Inventaire faunistique des Diptères Syrphidae et Microdontidae de sud-ouest de la France. Bulletin de la Société entomologique de France, 102(5): 457-480. https://www.persee.fr/doc/bsef_0037-928x_1997_num_102_5_17374
Skevington, J. H., Locke, M. M., Young, A. D., Moran, K., Crins, W. J., Marshall, S. A., 2019. Field Guide to the Flower Flies of North-eastern North America. Princeton Field Guides. Princeton University Press, Princeton, Oxford. DOI: 10.2307/j.ctv7xbrvz
Speight, M. C. D., 2020. Species accounts of European Syrphidae 2020. In: Syrph the Net, the database of European Syrphidae (Diptera), 104: 1-314 (M. C. D. Speight, E. Castella, J.-P. Sarthou, C. Vanappelghem, Eds.). Syrph the Net Publications, Dublin.
Thompson, F. C., Rotheray, G., 1998. Family Syrphidae. In: Contributions to a Manual of Palaearctic Diptera, 3: 81-139 (L. Papp, B. Darvas, Eds.). Science Herald, Budapest. http://hdl.handle.net/10088/17140
Van Eck, A., 2011. A checklist of the hoverflies of Portugal (Diptera, Syrphidae). Boletín de la Sociedad Entomológica Aragonesa, 49: 127-144. http://sea-entomologia.org/Publicaciones/PDF/BOLN_49/127144BSEA49SyrphidaePortugal.pdf
Van Eck, A., 2016. Hoverflies (Diptera, Syrphidae) new to the fauna of mainland Portugal, with an updated hoverfly checklist. Boletín de la Sociedad Entomológica Aragonesa, 59: 187-203. http://www.sea-socios.com/Boletines/PDF/Boletin59/187203BSEA59SyrphidaePortugal.pdf
van Steenis, J., van Steenis, W., van der Ent, L.-J. 2021. Hammerschmidtia ferruginea (Europe assessment). The IUCN Red List of Threatened Species 2021: e.T149171130A149171133. DOI: 10.2305/IUCN.UK.2021-3.RLTS.T149171130A149171133.en
van Steenis, J., van Zuijen, M. P., Bot, S., van der Ent, L., Barkalov, A., van Eck, A., Fleury, J., Földesi, R., Heimburg, H., Hadrava, J., Koch, B., Lutovinovas, L., Mazanek, L., Van de Meutter, F., Mielczarek, L., Palmer, C. J., Popov, G., Radenković, S., Reemer, M., Ssymanck, A., van Steenis, W., Tóth, S., Vujić, A., Wakkie, B., 2020. Faunistical overview of the European species of the genera Brachyopa Meigen, 1822 and Hammerschmidtia Schummel, 1834 (Diptera: Syrphidae). Bonn Zoological Bulletin, 69(2): 309-366. DOI: 10.20363/BZB-2020.69.2.309     
van Veen, M. P. 2004. Hoverflies of Northwest Europe: identification keys to the Syrphidae. KNNV Publishing, Utrecht.
Vujić, A., Gilbert, F., Flinn, G., Englefield, E., Ferreira, C. C., Varga, Z., Eggert, F., Woolcock, S., Böhm, M., Mergy, R., Ssymank, A., van Steenis, W., Aracil, A., Földesi, R., Grković, A., Mazanek, L, Nedeljković, Z., Pennards, G. W. A., Pérez, C., Radenković, S., Ricarte, A., Rojo, S., Ståhls, G., van der Ent, L.-J., van Steenis, J., Barkalov, A., Campoy, A., Janković, M., Likov, L., Lillo, I., Mengual, X., Milić, D., Miličić, M., Nielsen, T., Popov, G., Romig, T., Šebić, A., Speight, M., Tot, T., van Eck, A., Veselić, S., Andric, A., Bowles, P., De Groot, M., Marcos-García, M. A., Hadrava, J., Lair, X., Malidžan, S., Nève, G., Obreht Vidakovic, D., Popov, S., Smit, J. T., Van De Meutter, F., Veličković, N., Vrba, J., 2022. Pollinators on the Edge: our European Hoverflies. The European Red List of Hoverflies. European Commission, Brussels, Belgium. https://data.europa.eu/doi/10.2779/359875
Wong, D., Norman, H., Creedy, T. J., Jordaens, K., Moran, K. M., Young, A., Mengual, X., Skevington, J. H., Vogler, A. P., 2023. The phylogeny and evolutionary ecology of hoverflies (Diptera: Syrphidae) inferred from mitochondrial genomes. Molecular Biology and Evolution, 184: 107759. DOI: 10.1016/j.ympev.2023.107759

 

Contenido reseñado en: