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Fiala, T.; Holuša, J. Phloeotribus rhododactylus. Encyclopedia. Available online: https://encyclopedia.pub/entry/3443 (accessed on 20 April 2024).
Fiala T, Holuša J. Phloeotribus rhododactylus. Encyclopedia. Available at: https://encyclopedia.pub/entry/3443. Accessed April 20, 2024.
Fiala, Tomáš, Jaroslav Holuša. "Phloeotribus rhododactylus" Encyclopedia, https://encyclopedia.pub/entry/3443 (accessed April 20, 2024).
Fiala, T., & Holuša, J. (2020, December 09). Phloeotribus rhododactylus. In Encyclopedia. https://encyclopedia.pub/entry/3443
Fiala, Tomáš and Jaroslav Holuša. "Phloeotribus rhododactylus." Encyclopedia. Web. 09 December, 2020.
Phloeotribus rhododactylus
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This entry is adapted from the peer-reviewed paper 10.3390/insects11120856

The bark beetle Phloeotribus rhododactylus feeds mainly on the shrub Cytisus scoparius. The range of P. rhododactylus extends from Spain in the south to southern Sweden, Denmark, and Scotland in the north. Its range to the east extends to Poland, Slovakia, and Hungary, but single localities are known further east in Romania, Bulgaria, and Greece. It is clear that the range of the beetle matches that of its main host. C. scoparius is adapted to Mediterranean and coastal climates, and its range is limited by low winter temperatures. P. rhododactylus is, therefore, rare in Central Europe. It infests either individuals of C. scoparius that have been damaged by mammalian herbivores or snow or that are drought-stressed. Although C. scoparius is an invasive plant in agricultural and natural ecosystems, P. rhododactylus has not been found in any of the areas where C. scoparius has invaded.

Phloeotribus rhododactylus Scolytinae bark beetle

1. Introduction

Scolytinae (Coleoptera: Curculionidae) includes both bark and ambrosia beetles and represents species of major economic and ecological importance in forests worldwide [1][2]. Most scolytine species feed on recently cut or injured tissues of woody plants, and such feeding can cause massive tree mortality depending on both tree health and beetle abundance [3][4][5].

Although weakened trees (i.e., wind-fallen, fire-injured, water-stressed, or trees damaged by other biotic factors) are highly attractive to Scolytinae, healthy trees are rarely attacked [6], and less than 1% of scolytine species regularly kill healthy standing trees [7]. Scolytinae affect forest dynamics by contributing to decomposition and nutrient cycling [3][8].

The absolute majority of Scolytinae beetles perforate the bark of trees and dig galleries near the cambium, but bark and ambrosia beetles differ in their feeding strategies. Bark beetles are mostly monophagous or oligophagous species that feed directly on phloem tissues (i.e., phloemophagy), whereas ambrosia beetles are polyphagous species that feed on fungi that they introduce and cultivate in their galleries (i.e., xylomycetophagy) and on xylem [6][9][10][11]. The lack of host specificity contributes to the invasiveness of ambrosia beetles in many forest ecosystems [12][13].

Scolytinae have been studied more than any other group of forest insects, but most investigations have been restricted to only a few pest species; see [14]. The abundance of scolytids is generally explained by resource-related parameters. In contrast to their abundance, the pest status of scolytids was previously found to be significantly related to species-specific traits, such as body size and maximum number of generations per year [14]. The latter study did not include the bark beetle Phloeotribus rhododactylus (Marsham, 1802) because information on its hosts was lacking [14].

Phloeotribus rhododactylus feeds mainly on the shrub Cytisus scoparius (L.) Link, 1822. Other host plants include Spartium junceum L., 1753; Cytisus sp., Ulex europaeus L., 1753; Calicotome sp.; Coronilla emeroides Boiss. & Spruner, 1843; Genista florida L., 1759; Adenocarpus complicatus (L.) J. Gay ex Gren. & Godr., 1848; and Ficus carica L., 1753 [15][16][17]. This bark beetle was previously reported to occur mainly in Western Europe and, to a lesser degree, in Central Europe, where its occurrence diminishes to the east [15]. Although C. scoparius is known to occur in most areas in Central Europe, P. rhododactylus has been considered rare in Central Europe [18][19].

2. Geographic Range of Phloeotribus rhododactylus

The occurrence of P. rhododactylus has been already known in Western and Central Europe for a long time. In most countries, the first records date back to the 1950s, and only in few countries has it been reported later in the second part of the 20th century (Figure 1A,B), something that could be potentially associated with the low abundance of the insect. Even in one of the most comprehensive works on bark beetles based on extensive research by the author [20][21], the records of P. rhododactylus were mainly concentrated in Western Europe, being significantly rarer in the east [15].

Throughout the natural distribution of P. rhododactylus, we found records of its occurrence at 357 specific localities (Table 1). The number of localities is much greater for Western Europe (Great Britain, Germany, and France) than for Central or Eastern Europe (Figure 1A).

Table 1. Known localities of Phloeotribus rhododactylus in Europe. Data and localities are summarized based on the literature available from Google Scholar, Zobodat, Biodiversity Heritage Library, and www.gbif.org.

Country Localities (County) and References
Austria Karnburg [22]; Donnerskirchen, Eisenstadt, Gars, Gemeinlebarn, Horn, Stein an der Donau, Winden, Yois [23]; Niederdonau [24]; Helenental, Kalksburg [25]; Mitterberg [26]
Belgium Antwerpen, Baileux, Borsbeek, Breuvanne, Cerfontaine, Cielle, Cour-sur-Heure, Dourbes, Eupen, Grandglise, Furnaux, Hantes-Wihéries, Hermeton-Sur-Meuse, Henripont, Jamiolle, Jamoigne, Lambermont, Marchienne-Au-Pont, Marloie, Meeuwen, Mont-Gauthier, Neeroeteren, Neufmoulin, Nivelet, Odrimont, Oignies-en-Thiérache, Rachecourt, Robelmont, Roelen, Samrée, Sosoye, Vodecée, Wauthier-Braine, Wilsele-Dorp, Zeveneken [27]
Bulgaria Kaspichan [27]
Croatia Draga, Krapina, Križevci, Orehovica, Sljeme, Trakoščan, Zagreb [28]
Denmark Allinggård, Funder, Nørholm, Vejle [29]; Fuglsǿ [27]
France Albaran, Avignon, Bassin de la Seine, Bois du Rouvray, Brout-Vernet, Corse, Env. de Rodez, Grocy, Hyères, Iles de la Loire, Isdes, Marcilly-en-Vilette, Marseille, Mers, Montfaucon, Montpellier, Mt. Ventoux, Murles, Peille, Sle.Maxime, Vosges [30]; Abzac, Belin-Béliet, Lège-Cap-Ferret, Le Verdon-Sur-Mer, Queyrac, Quinsac, Saucats [31]; Anost, Arandon, Archail, Arnières-sur-Iton, Beaumont du Ventoux, Bionville, Blagon, Bonnée, Brantes, Braux, Chambry, Champagne-sur-Seine, Champsecret, Chapeau, Chemilly, Cheval-Blanc, Cruzille, Eckartswiller, Eschbourg, Fontbelle, Héches, Henrichemont, La Borne, La Javie, La Môle, Lavault-de-Frétoy, Le Bourgneuf, L’Épine, Le Vallée Heureuse, Les Bréviaires, Les Choux, Les Ferrands, Les Mayons, Le Poët-Célard, Le Valtin, Maisse, Ménerbes, Méolans-Revel, Mijanés, Milly-la-Forêt, Mimizan, Monferran-Savès, Mongausy, Mons, Montigny-lès-Cormeilles, Mozac, Neuvy-sur-Barangeon, Nohédes, Orcemont, Ouzouer-sur-Loire, Raon-sur-Plaine, Revalies, Rotis, Sagy-le-Bas, Saint-Béat, Sainte-Geneviève-des-Bois, Saint Estéve, Sainte-Tulle, Saint-Floren, Saint-Lys, Saint-Pierre-du-Lorouër, Saintry-sur-Seine, Salerm, Sare, Saurat, Savigny-le-Temple, Sermoyer, Sotteville-lès-Rouen, Tartonne, Vergons, Vineuil-Saint-Firmin [27]
Germany Nördlinger [32]; Bokelsberg, Göhrde [33]; Hamburg, Mecklenburg, Oldenburg, Pommern, Sachsen, Thüringen, Westfalen [34]; Baden, Bayern, Hessen, Nassau, Wurtemberg [35]; Lindenberg, Sasbachwalden [36]; Bad Herrenalb [37]; Freiburg in Breisgau [38]; Blankenburg, Halberstadt [39]; Bluno, Döberitz, Terra Nova [40]; Boostedt, Eilsdorf, Flittard, Heenes, Kleinraschütz, Nettekoven, Niederhausen, Pfeifenkrug [27]
Greece Zachlorou [41]
Hungary Budapest [42]; Szöce [43]; Vas [44]
Ireland Cork, Dublin, Kerry, Wexford, Wicklow [45]
Italy Vallombrosa [46]; Sardegna [47]; Sicilia [48]; Nuoro, Porta [49]; Fennhals, Oberfennberg [26]; Montegiovi [27]
Luxembourg Goebelsmühle, Nordwestl. Altrier, N. Troisvierges, Südwestlich Berchem [50]; Hoscheid, Wahlhausen [51]; Luxembourg, Michelau, Rodenbourg, Sassel [27]
Netherlands Huizen [52]; Amerongen, Baarn, Partij [27]
Poland Gorzów Wielkopolski [53]; Pomorz Zachodni [54]; Brójce, Glińsk, Ołobok, Przygubiel, Rzeczyca [55]; Eastern Sudets Mts., Lower Silesia, Polanow, Trzebnica Hills, Western Beskid Mts. [56]; Kędrzyno [57]
Portugal Pelados [58]
Romania Domogled [42]
Russia—Kaliningrad Gurevsky district [59]
Slovakia Slovenský Búr [15]; Mlýňany [19]
Spain Galicia [17]; Andorra, Barcelona, Valle de Arán [60]; País Vasco [61]; Salamanca [62]
Sweden Norje, Vanneberga [27]
Switzerland Mittelland [63]; Arbedo, Capolago, Caviano, Chiasso, Lavigny, Loco, Lugano, Morges [27]
Turkey Antalya [64]
United Kingdom Bewdley Forest, Birch Wood, Chatham, Coombe Wood, Darenth, Dartford, Durham, Eastbourne, Forth, Herefordshire, Liverpool, Mickleham, Monmouthshire, Moray, New Forest, Northumberland, Reigate, Rusper, Scarborough, Sheerness, Shirley, Shirley Warren, Southampton, Southend, Southsea, Tay, Tweed, West Wickham, Whitstable, Wimbledon, Woking [65]; Aberdeen [66]; Ainsdale-on-Sea, Aldridge, Annan, Ashford, Ashtead, Aycliff, Aylesford, Barston, Bermuda, Bewbush, Binley Woods, Bishop’s Castle, Blackborough End, Blythburg, Botcherby, Brancaster, Bredgar, Castle Rising, Charleston, Chithurst, Claydon, Coventry, Dale, Derwen Fawr, Dinas Dinlle, Donnigton, Dordon, Downside, Dungeness, Eyke, Eythorne, Ferndown, Foel, Frodesley, Garboldisham, Gladestry, Glan-yr-afon, Gooderstone, Great Hockham, Gretna, Great Wenham, Gumley, Gwbert, Hales Place, Hartfield, Hornton, Hoylake, Kidderminster, Kingston upon Thames, Knockin, Lakenheath, Langwathby, Llangaffo, Longfield, Maltby, Marholm, Moriah, Muddles Green, Mundford, Nantmel, Narborough, Newcastle, Newton, Newton St. Faith, North Wootton, Orford, Pennparcau, Pennrhos Garnedd, Petworth, Port Talbot, Priors Hardwick, Red Lodge, Richings Park, Riddlesworth, Ruthin, Ruyton-XI-Towns, Seale, Sea Palling, Selattyn, Stratford-upon-Avon, Swansea, Tankersley, Tattingstone, Thetford, Ullenhall, Undley, Upper Whiston, Walsall, Walton, Washington, Wealden, West Bay, Whitwell, Wimborne Minster, Winchelsea, Wolverhampton, Woolston, Wootton [27]

The range of P. rhododactylus extends to Spain (probably northern Spain) in the south and to southern Sweden, Denmark, and Scotland in the north. The range to the east extends to Poland, Slovakia, and Hungary, but single localities are known further to the east in Romania, Bulgaria, and Greece (Figure 1A). It is likely that the small number of sites in south and east Europe is due to a lack of literary resources and not to the natural absence of beetles in these countries. Occurrences in Latvia and Macedonia have been reported but without designation of the specific locality [67].

Although P. rhododactylus occurs throughout Europe (Figure 2A) [67], it appears to be a Euro-Mediterranean species [68]. It is also widespread in non-European countries, such as Algeria, Egypt, Libya, Morocco, Madeira, Tunisia, and Iran [67]. Its abundance is highest Western Europe and decreases to the north and east. Its current distribution (Figure 1A) appears to be similar to that reported in 1955 [15].

The range of P. rhododactylus matches that of its main host, C. scoparius. C. scoparius is adapted to milder climates and its range is limited by cold winter temperatures. Although adult plants are relatively hardy, the seeds, seedlings, and young shoots of C. scoparius are sensitive to frost [69][70][71]. Its occurrence to the east (Russia and Ukraine) is sporadic [72].

C.scoparius has become an ecologically destructive invasive species in grasslands, shrublands, woodlands, and other habitats in India, South America, western North America, Australia, and New Zealand [73]. P. rhododactylus has not been found in any of the areas invaded by C. scoparius [3][74].

Figure 1. Localities (or countries and counties) where Phloeotribus rhododactylus has been reported to occur in Europe with annual mean temperature (A) (see Table 1); periods of its first reports in countries (B); occurrence of Phloeotribus rhododactylus with Cytisus scoparius in the Czech Republic (https://portal.nature.cz/nd/) (C,D) in a recent study in western Bohemia, reported here (List of localities where Phloeotribus rhododactylus was not found in the study conducted by T. Fiala in 2020 in western Bohemia: Bečov na Teplou (50.0858942 N, 12.8625314 E); Blovice (49.5961411 N, 13.5222964 E); Dolní Žandov (50.0175272 N, 12.5845317 E); Dolní Žandov—Manský dvůr (50.0356972 N, 12.5319819 E); Kfely (50.1607864 N, 12.8421089 E); Mariánské Lázně (49.9555339 N, 12.6991647 E), NR Lazurový vrch (49.9135836 N, 12.7724494 E); NR Údolí Teplé (50.0554547 N, 12.8287328 E); Valy (49.9824786 N, 12.6813111 E); Vodná (50.1106978 N, 12.8631644 E)). NR—Natural Reserve.

3. Conclusions

Phloeotribus rhododactylus seems to have a stable range that is centred in Western Europe and extends to Eastern Europe. Its abundance is highest in Western Europe and decreases to the east, which coincides with the distribution of the host tree, C. scoparius. P. rhododactylus is a rare species in Central Europe. It occupies trees or shrubs that have been damaged or that are drought-stressed. It is possible that weak pheromone communication and weak interactions with fungi also contribute to its rare occurrence.

As is the case for abundance of most bark beetles [14], the abundance of P. rhododactylus can apparently be explained by resource-related parameters.

References

  1. Raffa, K.F.; Aukema, B.H.; Bentz, B.J.; Carroll, A.L.; Hicke, J.A.; Turner, M.G.; Romme, W.H. Cross-scale Drivers of Natural Disturbances Prone to Anthropogenic Amplification: The Dynamics of Bark Beetle Eruptions. Bioscience 2008, 58, 501–517.
  2. Weed, A.S.; Ayres, M.P.; Hicke, J.A. Consequences of climate change for biotic disturbances in North American forests. Ecol. Monogr. 2013, 83, 441–470.
  3. Wood, S.L. The bark and ambrosia beetles of North and Central America (Coleoptera: Scolytidae), a taxonomic monograph. Great Basin Nat. Mem. 1982, 6, 1–1359.
  4. Kausrud, K.; Økland, B.; Skarpaas, O.; Grégoire, J.-C.; Erbilgin, N.; Stenseth, N.C. Population dynamics in changing environments: The case of an eruptive forest pest species. Biol. Rev. 2011, 87, 34–51.
  5. Harvey, B.J.; Donato, D.C.; Turner, M.G. Recent mountain pine beetle outbreaks, wildfire severity, and postfire tree regeneration in the US Northern Rockies. Proc. Natl. Acad. Sci. USA 2014, 111, 15120–15125.
  6. Wood, S.L. The Bark and Ambrosia Beetles of South America (Coleoptera: Scolytidae); Brigham Young University: Provo, UT, USA, 2007; p. 900.
  7. Kirkendall, L.R.; Biedermann, P.H.W.; Jordal, B.H. Evolution and diversity of bark and ambrosia beetles. In Bark Beetles: Biology and Ecology of Native and Invasive Species; Vega, F.E., Hofstetter, R.W., Eds.; Elsevier: San Diego, CA, USA, 2015; pp. 85–156.
  8. Ronque, M.U.V.; Flechtmann, C.A.; Lopes, J. Scolytidae (Coleoptera) in forest fragment of semideciduous tropical forest and reforestation of riparian vegetation in southern of Brazil. In Proceedings of the 49th Annual Meeting of The Association for Tropical Biology and Conservation, Bonito, Brazil, 18–22 June 2012; p. 1.
  9. Atkinson, T.H.; Equihua-Martinez, A. Biology of Bark and Ambrosia Beetles (Coleoptera: Scolytidae and Platypodidae) of a Tropical Rain Forest in Southeastern Mexico with an Annotated Checklist of Species. Ann. Èntomol. Soc. Am. 1986, 79, 414–423.
  10. Hulcr, J.; Kolařík, M.; Kirkendall, L.R. A new record of fungus- beetle symbiosis in Scolytodes bark beetles (Scolytinae, Curculionidae, Coleoptera). Symbiosis 2007, 43, 151–159.
  11. Hulcr, J.; Atkinson, T.H.; Cognato, A.I.; Jordal, B.H.; McKenna, D.D. Morphology, taxonomy, and phylogenetics of bark beetles. In Bark Beetles: Biology and Ecology of Native and Invasive Species; Vega, F.E., Hofstetter, R.W., Eds.; Elsevier: San Diego, CA, USA, 2015; pp. 41–84.
  12. Kirkendall, L.R.; Cortivo, M.D.; Gatti, E. First record of the ambrosia beetle, Monarthrum mali (Curculionidae, Scolytinae) in Europe. J. Pest Sci. 2008, 81, 175–178.
  13. Kirkendall, L.R.; Faccoli, M. Bark beetles and pinhole borers (Curculionidae, Scolytinae, Platypodinae) alien to Europe. ZooKeys 2010, 56, 227–251.
  14. Bussler, H.; Bouget, C.; Brustel, H.; Brändle, M.; Riedinger, V.; Brandl, R.; Müller, J. Abundance and pest classification of scolytid species (Coleoptera: Curculionidae, Scolytinae) follow different patterns. For. Ecol. Manag. 2011, 262, 1887–1894.
  15. Pfeffer, A. Fauna ČSR. Svazek Kůrovci—Scolytoidea (Řád: Brouci–Coleoptera); Československá Akademie Věd: Praha, Czech Republic, 1955; p. 340.
  16. Pfeffer, A. Revision der Gattung Phloeophthorus Wollaston (Coleoptera, Scolytidae). Acta Entomol. Bohemoslov. 1972, 69, 23–45.
  17. Lombardero, M.J. Plantas huésped y escolítidos (Col.: Scolytidae) en Galicia (Noroeste de la Península Ibérica). Bol. Sanid. Veg. Plagas 1995, 21, 357–370.
  18. Pfeffer, A. Kůrovci (Scolytoidea)—Fauna ČSR 6—Dodatek. Acta Entomol. Bohemoslov. 1965, 62, 61–66.
  19. Pfeffer, A. Kůrovcovití Scolytidae a Jádrohlodovití Platypodidae; Academia: Praha, Czech Republic, 1989; p. 137.
  20. Pfeffer, A. Insekten als Indikatoren von Veränderungen in der Bestandzusammensetzung der südböhmischen Moore. Quaest. Geobiol. 1976, 16, 75–98.
  21. Pfeffer, A. Taxonomischer Status von Pityogenes bistridentatus (Eichhoff) und die an Schwarzkiefer (Pinus nigra) lebenden Borkenkäfer (Coleoptera, Scolytidae). Acta Entomol. Bohemoslov. 1984, 81, 271–279.
  22. Prossen, T.I. Nachtrag zum Verzeichnisse der bisher in Kärnten beobachteten Käfer. Carinthia II 1913, 103, 74–85.
  23. Wichmann, H.E. Ueber die geographische Verbreitung der Ipiden (Col.) II. Die Ipidenfauna Niederösterreichs und des nördlichen Burgenlandes. Koleopterol. Rundsch. 1927, 13, 42–80.
  24. Pittioni, E. Die Käfer von Niederdonau. Die Curti-Sammlung im Museum des Reichsgaues Niederdonau. Cerambycidae-Scolytidae. Niederdonau Nat. Kult. 1943, 23, 131–189.
  25. Holzschuh, C. Bemerkenswerte Käferfunde in Österreich. Ein Beitrag zur Faunistik und Ökologie mitteleuropäischer Käfer. Mitt. Forstl. Bundes-Vers. Wien 1971, 94, 3–65.
  26. Hellrigl, K. Forstliche Aspekte und Faunistik der Borkenkäfer Südtirols (Coleoptera, Scolytidae). For. Obs. 2012, 6, 139–180.
  27. Phloeotribus rhododactylus Marsham. Available online: https://www.gbif.org/species/1204366 (accessed on 6 April 2020).
  28. Langhoffer, A. Scolytidae Croatiae. Entomol. Bl. 1915, 7–9, 154–159.
  29. Hansen, V. Barkbiller Med et Biologisk Afsnit; G.E.C. Gads Forlag: København, Denmark, 1956; p. 196.
  30. Balachowsky, A. Faune de France Coléopteres Scolytides; Librairie de la Faculte des Sciences: Paris, France, 1949; p. 320.
  31. Lessieur, D. Contribution à la liste des Curculionidae (Coleoptera Curculionidae) observés récemment en Gironde. Bull. Soc. Linn. Bordx. 2017, 45, 1–21.
  32. Redtenbacher, L. Fauna Austriaca. Die Käfer; Verlag von Carl Gerold: Wien, Austria, 1849; p. 883.
  33. Hagedorn, M. Neue Käfer der Niederelbfauna. Verh. Ver. Naturwissensch. Unterhalt. Hambg. 1904, 12, 101–102.
  34. Kleine, R. Die geograpische Verbreitung der Ipiden. Entomol. Bl. 1912, 12, 298–308.
  35. Kleine, R. Die geograpische Verbreitung der Ipiden. II. Das paläarktische europäisch-sibirische Fauneugebiet. Entomol. Bl. 1912, 10/11, 261–270.
  36. Lauterborn, R. Faunistische Beobachtungen aus dem Gebiete des Oberrheins und des Bodensees. Mitt. Badischen Landesver. Nat. Nat. Freibg. Breisgau 1922, 4, 233–244.
  37. Kamp, H.J. Zur Insekten-Faunistik Südwestdeutschlands Coleoptera: Scolytidae und Platypodidae. Mitt. Entomol. Ver. Stuttg. 1978, 13, 1–9.
  38. Kamp, H.J. Borkenkäfer aus dem Museum für Naturkunde in Freiburg i.Br. (Coleoptera, Scolytidae). Mitt. Badischen Landesver. Nat. Nat. Freibg. Br. 1985, 13, 409–413.
  39. Jung, M. Coleopterologische Neu- und Wiederfunde in Sachsen-Anhalt. Entomol. Nachr. Ber. 2001, 45, 37–46.
  40. Reike, H.-P.; Sobczyk, T. Aktuelle Situation der Borkenkäfer (Coleoptera: Curculionidae: Scolytinae) in Sachsen. Sächs. Entomol. Z. 2007, 2, 55–76.
  41. Schedl, K.E. Die Borkenkäfer von Griechenland und Cypern. Beitrag zur Morphologie und Systematik der Scolytoidea. Not. Entomol. 1967, 47, 65–76.
  42. Endrödi, S. Fundortsangaben über die Borkenkäfer (Scolytidae) des Karpatenbeckens. Folia Entomol. Ung. 1958, 11, 21–43.
  43. Podlussány, A. Curculionoidea (Coleoptera) of Örség Landscape Conservation Area. Natural History of Orség Landscape Conservation Area II. Sav. Múz. Szombh. 1996, 23, 203–273.
  44. Podlussány, A.; György, Z. A Mátra Múzeum bogárgyüjteménye. Coleoptera: Curculionoidea: Anthribidae, Apionidae, Attelabidae, Curculionidae, Nanophyidae, Rhynchitidae, Scolytidae, Urodontidae. Folia Hist. Nat. Musei Matra. 2008, 32, 183–200.
  45. O’Connor, J.P.; Winter, T.G.; Good, G.A. A review of the irish Scolytidae (Insecta: Coleoptera). Irish Nat. J. 1991, 23, 403–409.
  46. Cecconi, G. Illustrazione di quasti operati da animali su piante legnose italiane. III. Parte. Stazioni Sper. Agrar. Ital. 1906, 39, 945–992.
  47. Russo, G. Contributo alla conoscenza degli Scolitidi. II. Ilesini dell´olivo. Boll. Lab. Zool. Portici 1932, 26, 89–114.
  48. Colonnelli, E. A revised checklist of italian Curculionoidea (Coleoptera). Zootaxa 2003, 337, 1–142.
  49. Gatti, E. I Coleotteri Scolitidi e Platipodidi dela Sardegna (Coleoptera: Scolytidae, Platypodidae). Conserv. Habitat Invertebr. 2011, 5, 609–639.
  50. Gerend, R. Nachweise neuer und bemerkenswerter Käfer für die Fauna Luxemburgs (Insecta, Coleoptera). Bull. Soc. Nat. Luxemb. 2008, 109, 107–132.
  51. Braunert, C. Die Rüsselkäferfauna (Coleoptera, Curculionoidea) der Silikatmagerrasen im nördlichen Luxemburg. Ferrantia 2017, 76, 1–51.
  52. Cuppen, J.G.M. Entomofauna van de Gooi- en Vechtstreek. Entomol. Ber. 2012, 72, 151–174.
  53. Gerhardt, J. Neue Fundorte seltenerer schlesischer Käfer aus dem Jahre 1898 und Bemerkungen. Z. Entomol. Breslau 1898, 24, 4–13.
  54. Nunberg, M. Klucze do Oznaczania Owadów Polski. Część XIX. Chrząszcze—Coleoptera. Korniki—Scolytidae, Wyrynniki—Platypodidae; Państwowe wydawnictwo naukowe: Warszawa, Poland, 1981; p. 115.
  55. Konwerski, S.; Mleczak, M. New records of Phloeotribus rhododactylus (Marsham, 1802) (Coleoptera: Scolytidae) from Poland. Wiadomości. Entomol. 2001, 20, 88.
  56. Mokrzycki, T.; Hilszczański, J.; Borowski, J.; Cieślak, R.; Mazur, A.; Miłkowski, M.; Szołtys, H. Faunistic review of Polish Platypodinae and Scolytinae (Coleoptera: Curculionidae). Pol. J. Èntomol. 2011, 80, 343–364.
  57. Byk, A.; Gazurek, T.; Borowski, Z.; Bidas, M.; Doktór, D.; Matusiak, A.; Minkina, Ł.; Plewa, R. New localities of Limarus maculatus (Sturm, 1800) (Coleoptera: Scarabaeidae: Aphodiinae) in Poland. Entomol. News 2016, 35, 240–242.
  58. Germann, C.; Braunert, C.; Colonnelli, E.; Müller, G.; Müller, U. Beitrag zur Kenntnis der Rüsselkäfer-Fauna der Algarve, Portugal (Coleoptera: Curculionoidea). Entomol. Austriaca 2020, 27, 23–50.
  59. Alekseev, V.I. Checklist of Curculionoidea (Insecta: Coleoptera) of the Kaliningrad Region (Russia). Zool. Ecol. 2016, 26, 191–226.
  60. Riba, M.J. Inventario de los Scolytidae (Coleoptera) del NE España. Bol. Asoc. Esp. Entomol. 1996, 20, 63–74.
  61. Romero, S.L.; Ochoa, P.R.; Bilbao, J.C.I.; Lafuente, A.G. Los Escolítidos de las Coníferas del País Vasco; Eusko Jaurlaritzaren Argitalpen Zerbitzu: Vitoria-Gasteiz, Spain; Nagusia = Servicio Central de Publicaciones del Gobierno Vasco: Vitoria-Gasteiz, Spain, 2007; p. 198.
  62. Ramilo, P.; Galante, E.; Micó, E. Intra-annual patterns of saproxylic beetle assemblages inhabiting mediterranean oak forests. J. Insect Conserv. 2017, 21, 607–620.
  63. Germann, C. Die Rüsselkäfer (Coleoptera, Curculionoidea) der Schweiz—Checkliste mit Verbreitungsangaben nach biogeografischen Regionen. Mitt. Schweiz. Entomol. Ges. 2010, 83, 41–118.
  64. Selmi, E. The Hylesininae of Turkey. Forestist 1987, 37, 67–88.
  65. Fowler, M.A. The Coleoptera of the British Islands; L. Reeve and Co.: London, UK, 1891; p. 490.
  66. Watson, A.O.C. Coleoptera in the Aberdeen district. In The Entomologist´s Monthly Magazine; Second Series No. 299; Guerney & Jackson: London, UK, 1914; pp. 254–258.
  67. Alonso-Zarazaga, M.A.; Barrios, H.; Borovec, R.; Caldara, R.; Colonnelli, E.; Gültekin, L.; Hlaváč, P.; Korotyaev, B.; Lyal, C.H.C.; Machado, A.; et al. Cooperative Catalogue of Palaearctic Coleoptera Curculionoidea. Version 2. Available online: http://weevil.info/content/palaearctic-catalogue (accessed on 4 October 2020).
  68. Baselga, A.; Novoa, F. Coleópteros del Parque Natural de las Fragas del Eume (Galicia, noroeste de la Península Ibérica), II: Scarabaeoidea, Buprestoidea, Byrrhoidea, Elateroidea, Bostrichoidea, Lymexyloidea, Cleroidea, Cucujoidea, Tenebrionoidea, Chrysomeloidea y Curculionoidea. Bol. Asoc. Esp. Entomol. 2004, 28, 121–143.
  69. Blamey, M.; Grey-Wilson, C. Illustrated Flora of Britain and Northern Europe; Hodder & Stoughton: London, UK, 1989; p. 544.
  70. Vedel, H.; Lange, J. Trees and Bushes; Metheun: London, UK, 1960; p. 224.
  71. Bean, W.J. Trees and Shrubs Hardy in the British Isles; John Murray: London, UK, 1978; p. 784.
  72. Potter, K.J.B.; Kriticos, D.J.; Watt, M.S.; Leriche, A. The current and future potential distribution of Cytisus scoparius: A weed of pastoral systems, natural ecosystems and plantation forestry. Weed Res. 2009, 49, 271–282.
  73. Zarri, A.A.; Rahmani, A.R.; Behan, M.J. Habitat modifications by Scotch broom Cytisus scoparius invasion of grasslands of the Upper Nilgiris in India. J. Bombay Nat. History Soc. 2006, 103, 356–365.
  74. Pullen, K.R.; Jennings, D.; Oberprieler, R.G. Annotated catalogue of Australian weevils (Coleoptera: Curculionoidea). Zootaxa 2014, 3896, 1–481.
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