Melanobaris laticollis (Marsham, 1802)

Tamutis, Vytautas, Balalaikins, Maksims, Alekseev, Vitalii, Pūtys, Žilvinas & Telnov, Dmitry, 2024, An annotated checklist of supertribe Bariditae Schoenherr, 1836 (Coleoptera, Curculionidae, Conoderinae) in southeastern Baltic region, Ecologica Montenegrina 71, pp. 144-164 : 157-164

publication ID

https://doi.org/ 10.37828/em.2024.71.14

persistent identifier

https://treatment.plazi.org/id/2C6D87E3-4A1D-FFF3-48E4-FB23ACEEF9D7

treatment provided by

Felipe

scientific name

Melanobaris laticollis (Marsham, 1802)
status

 

Melanobaris laticollis (Marsham, 1802) View in CoL

Materials examined. LITHUANIA – Jonava • Paskutškiai , 54°59'54"N, 024°13'50"E; alt. 68 m; 02. GoogleMaps V.2004; leg. V. T.; 1 spec.; garden, from Raphanus sativus ; KZM, IC-71495 – Kaunas • Braziūkai , 54°54'8"N, 23°29'2"E; alt 73 m; 08. GoogleMaps V.2005; leg. V. T.; 1 spec.; garden, from Raphanus sativus ; KZM, IC-71494 • ibid; 05. GoogleMaps VI.2008; leg. V. T.; 1 spec.; KZM, IC-71493 • ibid; 10. GoogleMaps VI.2005; leg. V. T.; 3 spec.; KZM, IC-71492-1; IC-71492-2, IC-71492-3 • Ežerėlis , 54°52'50"N, 023°37'16"E; alt. 71 m; 30. GoogleMaps V.2023; leg. V. T.; 3 spec.; xerothermic meadow, from Armoraciae rusticana ; KZM, IC-71714 (1-3) • ibid; 08. GoogleMaps VI.2023; leg. V. T.; 3 spec.; from Armoraciae rusticana ; KZM, IC-71715 (1-3) Kupiškis • Uoginiai , 55°53'13"N, 024°47'10"E; alt. 72 m; 16.IV.1999 GoogleMaps ; obs. R. Pa.; 1 spec. • Uoginiai , 55°53'15"N, 024°46'25"E; alt. 66 m; 06. GoogleMaps V.1999; obs. R.Pa.; 1 spec. KALININGRAD REGION Zelenogradsk • Siniavino , 54°54′17″N, 19°56′4″E; alt. 24 m; 24. GoogleMaps V.2022; leg. V.A.; 1 spec.; APC .

Identification. The representatives of the genus are characteristic due to black or slightly brownish, glabrous body and truncate base of pronotum ( Zaslavskij 1956). Melanobaris laticollis is one of smallest species of the genus, adult body length is 2.2–4 mm. This species is easily distinguishable from the similar congeners due to the pronotal disc much more sparsely and finely punctate than lateral sides of pronotum ( Zaslavskij 1956; Smreczyński 1974; Lohse 1983). External sexual dimorphism is inconspicuous, males have slightly shorter, thicker, and more strongly curved rostrum. Melanobaris laticollis can be distinguished from the similar species by the shape of aedeagus ( Lohse 1983) ( Figure 3 View Figure 3 : E, F).

Published local records. The only historical record available for Livonia [Livland] ( Seidlitz 1891) is ‘ Baris nitens Fbr. ’ without detailed locality information and thus unclear, is the record referring to the present-day Latvia or Estonia. A single detailed record from Kaunas vicinity was mentioned in a card index (handwritten ‘database’) of Alfonsas Palionis ( Pileckis 1960; Ferenca 2006). This species was considered rare and distributed only in central part of Lithuania ( Pileckis & Monsevičius 1997). In the northern part of the former Eastern Prussia, according to Bercio & Folwaczny (1979), it was reported from Neuhäuser and Rauschen.

General distribution. This species is distributed in southern and central part of Europe, also reported from Algeria, Morocco, and Syria ( Alonso-Zarazaga et al. 2023). The distribution range boundary extends northwards to the southern Sweden ( Liljeblad 2022), Belarus ( Alexandrovich et al. 1996), and Republic of Mordovia (European Russia) ( Mazurov et al. 2022).

Notes on biology. This is an oligophagous species that feeds on various Brassicaceae , prefering Brassica oleracea , Cakile maritima , Diplotaxis muralis , Erysimum cheiranthoides , E. cheiri , E. hieraciifolium , Matthiola incana , Raphanus raphanistrum , R. sativus , Sinapis arvensis , Sisymbrium officinale , S. altissimum ( Burakowski et al. 1995) . Larvae develop in lower parts of stems or in roots tunnelling its tissues. Adults emerge in July-August and overwinter in the soil ( Smreczyński 1974).

Local occurrence and phenology. Possibly it is localy distrubuted in the study region, recorded only from three administrative units of Lithuania and a single one in Kaliningrad Region; no records from Latvia are known. The adults were collected mainly in non-natural (disturbed), relatively dry habitats in some cases together with Aulacobaris lepidii on Armoracia rusticana . Maximum number of adults recorded in May; the earliest record: April 16, the latest: June 10.

Discussion

The adult Bariditae weevils are rather uniform morphologically and are known for their cryptic lifestyle. Possible for this reason the Bariditae received comparatively little attention by entomologists in the Baltic Region. Superficial knowledge of the biology and distribution of these weevils has resulted in several erroneous records in the earlier publications and checklists. During our studies we were unable to confirm the presence of six species previously mentioned for the study area ( Table 1). As it turned out during the studies, two species, Aulacobaris coerulescens and Malvaevora timida , were included to the local faunistic lists based on misinterpretations of historical published records.

Aulacobaris coerulescens was reported as a representative of the Lithuanian fauna by Pileckis (1976) and Pileckis & Monsevičius (1997) based on the information given in Arnoldi et al. (1974) and Smreczyński (1974) who both indicated that this species is a widespread potential pest of some Brassicaceae crops in the European part of the former USSR and Poland. Due to the incorrect interpretation of the synonymy of Baris chloris (Panzer, 1794) and Baris coerulescens (Scopoli, 1763) ( ‘ chloris Fbr. = coerulescens Scop. ’) and a record from Königsberg (the former Eastern Prussia) in Seidlitz (1872), Baris (Aulacobaris) coerulescens was included to the checklist of the Kaliningrad Region ( Russia) Curculionoidea ( Alekseev 2016). Indeed, the species epithet Baris chloris is a junior synonym of Baris chlorizans (Germar, 1824) according to Prena (2008) and not that of coerulescens . It remains therefore unclear which of the two species was actually reported by Seidlitz (1872) for Königsberg. Aulacobaris coerulescens is distributed in western part of the Palaearctic Region; its distribution range mainly includes southern and central Europe, northern Africa, and Central Asia ( Alonso-Zarazaga et al. 2023). Its distribution northwards extends to the northern Germany ( Bleich et al. 2021), Poland ( Burakowski et al. 1995), Ukraine ( Yunakov et al. 2018), and Chuvash Republic ( Russia) ( Isaev 2007). The distribution of this species is poorly known in Eastern Europe, particularly at the northern extent of its range. The presence of this species in the southeastern Baltic region is therefore considered possible.

Including Malvaevora timida in the lists of the Latvian fauna ( Telnov et al. 1997; Telnov 2004) has a similar context. It was happened because of the Olivier’s (1807) misinterpretation of the synonymy of Baris nitens (Fabricius, 1793) and Malvaevora timida (Rossi, 1792) (‘ Curculio timidus Rossi = Curculio nitens Fab. ’) and based on the records from ‘Livland’ in Seidlitz (1891) and Rathlef (1905) (‘ Baris timida Rossi = Baris nitens Fbr. ’). Indeed, the species Baris nitens [originally Curculio ] (Fabricius, 1793) is a junior synonym of Melanobaris (originally Curculio ) laticollis (Marsham, 1802) according to Prena (2008). Thus, it appears to be convenient to attribute the historical Latvian record to Melanobaris laticollis instead of M. timida .

It is rather difficult to explain the reason why Melanobaris carbonaria was included in the local lists of beetles in both Latvia and Lithuania ( Pileckis 1976; Pileckis & Monsevičius 1997; Telnov et al. 1997; Telnov 2004). The species first appears in the list of beetles of the eastern Baltic region ( Rathlef 1905) without any locality data; however, in an earlier monograph Seidlitz (1891) did not mention exact locality for this species in the Baltic Region but only a species name with the following note: ‘in southern Russia and by us not common’ (translated from German; Seidlitz (1891)). Subsequent listing of M. carbonaria as a representative of Lithuanian fauna by Pileckis (1976) and Pileckis & Monsevičius (1997) and even listing it among potential cabbage pests of ( Pileckis et al. 1983) was likely based on the information in Arnoldi et al. (1974), similarly like in the case with Aulacobaris coerulescens (see above). Melanobaris carbonaria is distributed in southern and central part of Europe, also recorded from Afghanistan ( Alonso-Zarazaga et al. 2023) and northern Caucasus (Muhtarova et al. 2022). Its distribution range northwards extend to Czechia, Slovakia ( Benedikt et al. 2010), Rivne Region in the northern Ukraine ( Yunakov et al. 2018) and Kirov Oblast in central European Russia ( Dedyukhin 2012). Considering the distribution range of M. carbonaria , its occurrence in the southeastern Baltic region appears unlikely.

Unfortunately, we were unable to confirm the presence of Aulacobaris picicornis (Marsham, 1802) in the study area due to the lack of recent faunistic information. Only a historical record of this species, as ‘ Baridius abrotani Germ. ’ is known from Lentz (1879) for Kaliningrad [Königsberg]. However, this information was omitted by Seidlitz (1872, 1891) and later has been considered dubious by Bercio & Folwaczny (1979). Nevertheless, the species was included to the checklist of Curculionoidea of Kaliningrad Region ( Russia) ( Alekseev 2016). Aulacobaris picicornis appears to be monophagous and develop in roots of Reseda lutea ( Smreczyński 1974) . It is distributed in southern and central part of Europe, also recorded from Armenia, Morocco, Syria, and Turkey ( Alonso-Zarazaga et al. 2023), and recently discovered in Iran ( Ghahari & Legalov 2018). Its distribution range northwards extends towards the southern Sweden (Malmö) ( Lundberg 2006), Poland (Włodawa) ( Wanat 2017), western Ukraine (Volhynian Upland) ( Mazur 2002), and central European Russia (Saratov Region) ( Sazhnev et al. 2022). The host plant of this species, Reseda lutea , is diffuse throughout the whole studied territory, especially in xerothermic habitats along railway, in waste-lands, xeric slopes and roadsides ( Rasiņš et al. 1993; Gudžinskas 1999), therefore, the presence of Aulacobaris picicornis in the southeastern Baltic region is likely.

The previous records of Baris spitzyi Hochhuth, 1847 from Lithuania ( Ivinskis et al. 2015) and Melanobaris dalamatina (Brisout de Barneville, 1870) from Latvia ( Barševskis 1993) are based on misidentifications and correspond to Baris nesapia Faust, 1887 and B. artemisae (Panzer, 1794) , respectively.

We confirmed the presence of the following six Bariditae species within four genera for the territory of the southeastern Baltic region ( Table 1): Limnobaris dolorosa , L. t-album , Aulacobaris lepidii , Baris artemisiae , B. nesapia , and Melanobaris laticollis . According to the detailed faunistic data, six species were confirmed for Lithuania and four each for Latvia and the Kaliningrad Region of Russia. Only historical information on the presence of Melanobaris laticollis is available for Latvia ( Seidlitz 1891) and Aulacobaris lepidii for Kaliningrad Region ( Bercio & Folwaczny 1979). However, considering the range of both species, it is likely that both occur all across the study area. The record of Baris nesapia from Lithuania is the first for the southeastern Baltic region but does not appear to be the northernmost one since the species is likely occurring also in Estonia. We hypothesize that the previous record of Baris spitzyi from Estonia ( Miländer 1993) refers to Baris nesapia . Unfortunately, we were unable to examine the voucher material of this interesting record.

Although examined specimens were collected from 51 administrative units (45 % of all mapped units) in the region, this is not good enough to objectively describe the local distribution and abundance of the studied species. Considering the number of available records, we can declare that three species of Bariditae , namely Limnobaris dolorosa , L. t-album and Baris artemisiae , are relatively common and widespread in the southeastern Baltic region. Limnobaris dolorosa and L. t-album appear to be associated with sedges ( Cyperaceae ) and occur usually in natural wetlands and banks of diverse waterbodies. Such types of habitats comprised at least five percents of the territory ( Kurlavičius, 2010), however only five species of sedges: Carex acutiformis , C. rostrata , C. versicaria , Schoenoplectus lacustris , and Scirpus silvaticus , noted as possible host plants of Limnobaris species, are frequent in the study region ( Kuusk et al. 2003). Furher human pressure in these areas, such as melioration and habitat transformation can cause population decrease of these two species. In contrary, in the study area Baris artemisiae is oligophagous on Artemisia plants and usually bound to disturbed or ruderal habitats, where is mainly connected with mugwort ( Artemisia vulgaris ). A mugwort commonly has been identified as an aggressive weed abundant in the open habitats and wastelands, along roadsides and river banks, very often forming dense colonies ( Barney et al. 2005; Judzentiene & Budiene 2018) and is widespread in the study region ( Kuusk et al. 2003). The tendency of human driven transformations of natural habitats likely has a positive effect on the Baltic population of Baris artemisae . Likely, this species is much more widespread than is presently known.

Rather interesting ecological niches are occupied by three other species, Aulacobaris lepidii , Baris nesapia and Melanobaris laticollis . Aulacobaris lepidii and M. laticollis are typical oligophagous species on Brassicaceae (crucifers) with clear preference to relatively dry habitat conditions. Although these species are mentioned by some authors as potential pests of cruciferous vegetables ( Arnoldi et al. 1974; Bouseman et al. 1978b; Pileckis et al. 1983), their ‘damage’ is not yet known to be economically significant. During the study we observed these species on Armoracia rusticana , Raphanus sativus and Rorippa spp. According to our observations, Baris nesapia appears to be monophagous on Artemisia campestris and prefer xerothermic, sandy habitat with sparce vegetation. Artemisia campestris is common and widespread plant species in the study area ( Kuusk et al. 2003); thus, the wide abundance of a host plant should be favorable for the B. nesapia population in the Baltic region. We believe, that the low number of known records of Aulacobaris lepidii , Baris nesapia and Melanobaris laticollis is a reflection of insufficient studies on entomofauna of the region, and the situation likely change with the increasing number of studies.

During our fieldwork and the following review, the number of species confirmed for the study area had not increased as it is often the case, but, on the contrary, decreased from twelve to six. The reasons of the previous overestimations of faunal diversity can be various and the several possible cases are discussed above. The possible accumulation of erroneous and irrelevant information (including that on hostplants) during nearly two centuries of the faunal studies in a region should always be considered critically when performing similar studies. Sampling and careful preservation of well-labelled entomological collections appears crucial for the biodiversity research and monitoring of faunal changes within the time.

Acknowledgements

We are grateful to all collectors and observers who shared their material and observations for analysis and also to Mr. Kazimieras Martinaitis and Dr. Romas Ferenca for preparing some photographs. Aleksandrs Balodis (Rīga, Latvia), Dr. Christoffer Fägerström (Biological Museum, Lund University, Lund, Sweden), Dr. Mārtiņš Kalniņš (Daugavpils University, Daugavpils, Latvia), Mr. Alexander

Napolov (Rīga National zoo, Rīga, Latvia) and UĢis Piterāns (Latvian National museum of natural history, Rīga, Latvia) are thanked for sharing the faunistic records used in the present paper.

References

Alexandrovich, O.R., Lopatin, I.K., Pisanenko, A.D., Tsinkevitch, V.A. & Snitko, S.M. (1996) A catalogue of Coleoptera (Insecta) of Belarus. FFR RB, Minsk, 103 pp.

Alekseev, V.I. (2010) Fauna and ecology of water beetles (Coleoptera) of the Kaliningrad region. FGOU VPO KGTU, Kaliningrad, 380 pp. [in Russian].

Alekseev, V.I. (2016) Checklist of Curculionoidea (Insecta: Coleoptera) of the Kaliningrad Region (Russia). Zoology and Ecology, 26 (3), 191–226.

http://dx.doi.org/10.1080/21658005.2016.1189716

Alonso-Zarazaga, M.A. & Lyal, C.H.C. (1999) A world catalogue of families and genera of Curculionoidea (Insecta: Coleoptera) (Excepting Scolytidae and Platypodidae). Entomopraxis S.C.P, Barcelona, 315 pp.

Alonso-Zarazaga, M.A., Barrios, H., Borovec, R., Bouchard, P., Caldara, R., Colonelli, E., Gültekin, L., Hlaváč, P., Korotyaev, B., Lyal, C.H.C., Machado, A., Meregalli, M., Pierotti, H., Ren, L., Sánchez-Ruiz, M., Sforzi, A., Silfverberg, H., Skuhrovec, J., Trýzna, M., Velázquez de Castro, A.J. & Yunakov, N.N. (2023) Cooperative catalogue of Palaearctic Coleoptera Curculionoidea. 2nd Edition. Monografías electrónicas, 14, 780 pp.

Arnoldi, L.V., Zaslavskij, V.A. & Ter-Minasyan, M.E. (1965) Fam. Curculionidae – the weevils. In: Gurjeva, E.L. & Kryzhanovski, O.L. (Eds.) Key to insects of European part of USSR. Volume 2, Beetles and twisted-wing insects. Nauka, Moscow, Leningrad, pp. 485–621. [in Russian].

Arnoldi, L.V., Ter-Minasyan, M.E. & Solodovnikova, V.S. (1974) Fam. Curculionidae – the weevils. In: Kryzhanovski, O.L. (Ed.), Insects and mites agricultural pests. Volume 2, Beetles. Nauka, Leningrad, pp. 218–293. [in Russian].

Barney, J.N., Hay, A.G., Weston, L.A. (2005) Isolation and characterization of allelopathic volatiles from mugwort (Artemisia vulgaris). Journal of Chemical Ecology, 31 (2), 247–265.

http://dx.doi.org/10.1007/s10886-005-1339-8

Barševskis, A. (1993) Austrumlatvijas vaboles. Saule, Daugavpils, 221 pp. [in Latvian]

Barševskis, A. (1997) Materiali par Latvijas vabolem (Coleoptera). Acta Coleopterologica Latvica, 1 (2): 63–71. [in Latvian]

Barševskis, A., Savenkovs, N., Evarts-Bunders, P., Daniele, I., Pētersons, G., Pilāts, V., Zviedre, E., Pilāte, D., Kalniņš, M., Vilks, K. & Poppels, A. (2002) Silenes dabas parka fauna, flora un veĢetācija. Baltijas koleopteroloĢijas institūts, Daugavpils, 107 pp. [in Latvian]

Benedikt, S., Borovec, R., Fremuth, J., Krátký, J., Schön, K., Skuhrovec, J. & Trýzna M. (2010) Annotated checklist of weevils (Coleoptera: Curculionoidea excepting Scolytinae and Platypodinae) of the Czech Republic and Slovakia. Part 1. Systematics, faunistics, history of research on weevils in the Czech Republic and Slovakia, structure outline, checklist. Comments on Anthribidae, Rhynchitidae, Attelabidae, Nanophyidae, Brachyceridae, Dryophthoridae, Erirhinidae and Curculionidae: Curculioninae, Bagoinae, Baridinae, Ceutorhynchinae, Conoderinae, Hyperinae. Klapalekiana, 46, 1–363.

Bercio, H. & Folwaczny, B. (1979) Verzeichnis der Käfer Preussens. Parzeller & Co, Fulda, 369 pp.

Bouseman, J.K., Sherrod, D., Eastman, C., Luckmann, W.H., Randell, R., & White, C. (1978 a) Notes on the establishment in Illinois of Baris lepidii, a destructive European weevil. Bulletin of the Entomological Society of America, 24 (4), 407–408.

Bouseman, J. K, Irwin, B., Eastman, C. & Sherrod D. (1978 b) A bibliography of the imported crucifer weevil, Baris lepidii (Coleoptera: Curculionidae). Bulletin of the Entomological Society of America, 24 (4), 409–411.

Bleich, O., Gürlich, S. & Köhler, F. (2021) Verzeichnis und Verbreitungsatlas der Käfer Deutschlands. Available from: www.coleokat.de [accessed: November 12, 2023]

Burakowski, B., Mroczkowski, M. & Stefańska J. (1995) Chrząszcze Coleoptera – Ryjkowce Curculionidae.Część 2. Katalog Fauny Polski, 23 (20). Warszawa, 310 pp.

Cawthra, E.M. (1957) Notes on the biology of a number of weevils (Col., Curculionidae) occurring in Scotland. Entomologist’s Monthly Magazine, 93, 204–207.

Dedyukhin, S. V. (2012) The beetles weevils (Coleoptera, Curculionoidea) of the Vyatka-Kama interfluve: fauna, distribution, ecology. Udmurt University, Izhevsk, 340 p. [in Russian]

Dieckmann, L. (1988) Die Baris spitzyi -Gruppe (Insecta, Coleoptera, Curculionidae, Barinae). Reichenbachia, 25 (33), 165–167.

Faust, J. (1889) Notizen über Rüsselkäfer. Entomologische Zeitung (Stettin), 50, 227–234.

German, C., Bahr, F., Braunert, C. & Link, A. (2022) Die Rüsselkäfer Griechenlands. Katalog der Curculionoidea Griechenlands (Coleoptera). Le Charançon. Catalogues & Keys No. 3, Curculio-Institute, Mönchengladbach. Available from: https://curci.site.at [accessed: Dezember 30, 2022]

Ferenca, R. (2006) A. Palionio vabalų rinkiniai. In: Ivinskis, P. & Rimšaitė, J. (Eds), Entomologas Alfonsas Palionis (1905–1957). Vilnius, 162–216. [in Lithuanian]

Ghahari, H. & Legalov, A.A. (2018) New records of weevils (Coleoptera: Curculionidae) from Iran. Far Eastern Entomologist, 366, 24-28. https://doi.org/10.25221/fee.366.3

Gudžinskas Z. (1999). Conspectus of alien plant species of Lithuania. 9. Cannabaceae, Cucurbitaceae, Euphorbiaceae, Malvaceae, Moraceae, Resedaceae, and Tiliaceae. Botanica Lithuanica, 5 (1), 13-25.

Hoffmann, A. (1955) Faune de France, Volume 59: Coléoptères Curculionides (Deuxieme Partie). Librairie de la Faculte de Sciences, Paris, 720 pp.

Isaev, A.Yu. (2007) A key to beetles of Middle Volga region (part 3. Polyphaga – Phytophaga). In: Shustov, M.V. (Ed.), Series „The nature of Ulyanovsk region”, No 14, Ulyanovsk, 313 pp.

Ismailova, M.Sh., Korotyaev, B.A., Abdurakhmanov, G.M. & Mukhtarova, G.M. (2007) Weevils (Coleoptera: Apionidae, Nanophyidae, Brachyceridae, Dryophthoridae, Erirhinidae, Curculionidae) of the North-Eastern Caucasus (fauna, ecology, zoogeography). Yupiter, Makhachkala, 300 pp.

Ivinskis, P., Meržijevskis, A. & Rimšaitė, J. (2009) Data on new and rare for the Lithuanian fauna species of Coleoptera. New and rare for Lithuania insect species, 21, 45–63.

Ivinskis, P., Rimšaitė, J. & Meržijevskij, A. (2015) New species and new records of rare species of beetles (Coleoptera) from Lithuania. New and rare for Lithuania insect species, 27, 24–34.

Judzentiene, A., Budiene, J. (2018). Chemical Polymorphism of essential oils of Artemisia vulgaris) growing wild in Lithuania. Chemistry and Biodiversity, 15, (1-13) e1700257. DOI: 10.1002/cbdv.201700257

Korotyaev, B.A., Filimonov, R.V. & Isaev, A.Yu. (2001) Host plants of Baris spitzy i Hochhuth and B. nesapia Faust (Coleoptera: Curculionidae). Zoosystematica Rossica, 9 (2), 408.

Kurlavičius, P. (2010) Agrarinė aplinkosauga. Baltijos aplinkos forumas, Gamtos pasaulis. Lithuania, 180 pp. [in Lithuanian]

Kuusk, V., Tabaka, L., Jankevičienė, R. (Eds.) (2003). Flora of the Baltic countries. Compendium of Vescular plants. Part 3. Estonian Agricultural University Institute of Botany, Tartu, 405 pp.

Lackschewitz, T. & Mikutowicz, J. (1939) Zur Koleopterenfauna des ostbaltischen Gebietes, II. Korrespondenzblatt des Naturforscher-Vereins zu Riga, 63, 48–76.

Legalov, A.A. (2018) Annotated key to weevils of the world. Part 3. Subfamily Conoderinae (Coleoptera, Curculionidae). Ukrainian Journal of Ecology, 8 (4), 494–503.

Legalov, A.A. (2020) Revised checklist of weevils (Coleoptera: Curculionoidea) excluding Scolytidae and Platypodidae) from Siberia and the Russian Far East. Acta Biologica Sibirica, 6, 437–549. https://doi.org/10.3897/abs.6.e59314

Lentz, F.L. (1879) Catalog der Preussischen Käfer neu bearbeitet. Beiträge zur Naturkunde Preussens, 4, 1–64.

Liljeblad, J. (2022) Artportalen (Swedish Species Observation System). Version 92.293. SLU Artdatabanken. Available from: https://doi.org/10.15468/kllkyl [accessed: January 06, 2023]

Lindberg, H. (1932) Käfer, gesammelt in Lettland 1931. Folia zoologica et hydrobiologica, 4 (2), 163– 166.

Lohse, G.A. (1983) Unterfamilie: Barinae. In: Freude, H., Harde, K.W. & Lohse, G.A. (Eds.) Die Kāfer Mitteleuropas. Band 11. Goecke & Evers, Krefeld, pp. 171–178.

Lundberg, S. & Gustavsson, B. (1995) Catalogus coleopterorum Sueciae. Natural History Museum, Stockholm, 302 pp.

Lundberg, S. (2006) Nytillkomna och strukna skalbaggsarter sedan 1995 års Catalogus Coleopterorum Sueciae. Entomologisk Tidskrift, 127 (3), 101–111.

Mazur, M. (2002) The distribution and ecology of weevils (Coleoptera, Nemonychidae, Attelabidae, Apionidae, Curculionidae) in western Ukraine. Acta Zoologica Cracoviensia, 45 (3), 213–244.

Mazurov, S., Ruchin, A., Urbanus, Y., Egorov, L. & Artaev, O. (2022). Coleoptera of Lipetsk region (Russia). Version 1.1. Available from: https://doi.org/10.15468/9dh2gy [accessed: January 06, 2023]

Mikutowicz, J. (1905) Zur Koleopterofauna der Ostseeprovinzen Russlands, I. Korrespondenzblatt des Naturforscher-Vereins zu Riga, 48, 73–92.

Miländer, G. (1993) Hiiumaa mardikalisted (Coleoptera). Pirrujaak, 120 pp. [in Estonian]

Mīlenders, G. & Varzinska, R. (1979) Smecernieki Rīgas jūras līča piejūras zonas zālājos. Latvijas Entomologs, 22, 5–19. [in Latvian]

Morimoto, K., Yoshihara, K. (1996) On the genera of the Oriental Baridinae (Coleoptera, Curculionidae). Esakia, 36, 1–59.

Mukhtarova, G.M., Bekshokova, P.A., Nakhibasheva, G.M. & Guseynova, N.O. (2022) Ecologicalfaunistic and zoogeographic characteristics of weevils of the tribe Baridini Schoencherr, 1836 of Dagestan. South of Russia: ecology, development, 17 (1), 24–35.

https://doi.org/10.18470/1992‐1098‐2022‐1‐24‐35

Olivier, A. G. (1807) Entomologie, ou Histoire Naturelle des Insectes. Coleopteres, Vol. 5. Baudonin, Paris, 612 pp.

Palm, T. (1957) Till fragan om de svenska Limnobaris-arterna (Col., Curculionidae). Entomologisk Tidskrift Stockholm, 78, 143–148.

Pileckis, S. (1960) Indėlis į Lietuvos vabalų (Coleoptera) faunos pažinimą. LŽŪA mokslo darbai, 7 (3), 303–336. [in Lithuanian]

Pileckis, S. (1968) Naujos ir mažai žinomos vabalų (Coleoptera) rūšys Lietuvos TSR faunoje. LŽŪA mokslo darbai, 15 (2), 29–37. [in Lithuanian]

Pileckis, S. (1976) Lietuvos vabalai. Mokslas, Vilnius, 244 pp. [in Lithuanian]

Pileckis, S., Repšienė, D., Vengeliauskaitė, A., Žuklienė, R. & Žuklys, L. (1983) Daržo augalų kenkėjai ir ligos. Vilnius, 423 pp. [in Lithuanian]

Pileckis, S. & Monsevičius, V. (1997) Lietuvos fauna. Vabalai. Tomas 2. Mokslas, Vilnius, 216 pp. [in Lithuanian]

Prena, J. (2008) On the identity of European Baridini (Coleoptera, Curculionoidea) named before 1832. Deutsche Entomologische Zeitschrift, 55 (2), 263–275.

https://doi.org/10.1002/mmnd.200800027

Prena, J., Colonnelli, E., Hespenheide, H.A. (2014 a). Conoderinae Schoenherr, 1833. Arthropoda: Insecta. Handbook of Zoology. Tb. 40: Coleoptera (Beetles). Vol. 3: Morphology and Systematics (Phytophaga). Editor(s): R.A.B. Leschen and R.G. Beutel, 577–589.

Prena, J., Korotyaev, B.A., Wang, Z., Ren, L., Liu, N. & Zhang, R. (2014 b) A taxonomic revision of Limnobaris Bedel in the strict sense (Coleoptera, Curculionidae, Baridinae), with particular emphasis on the species found in China. ZooKeys, 416, 41–66.

https://doi.org/10.3897/zookeys.416.7164

Prena, J., Yang, J., Ren, L., Wang, Z., Liu, N., Zhang, R. (2014 c) Nomenclatural changes, new country records and range extensions of Baridina (Coleoptera, Curculionidae) from China. ZooKeys, 3841 (3), 339–363. http://dx.doi.org/10.11646/zootaxa.3841.3.2

Rasiņš, A., Laasimer, L., Lekavičius, A. (1993) Resedaceae S. F. Gray. In: Laasimer, L., Kuusk, V., Tabaka, L. & Lekavičius, A. (Eds.) Flora of the Baltic countries, Compendium of vescular plants. Vol. 1. Estonian Academy of Sciences, Tartu, pp. 343-344.

Rassi, P., Karjalainen, S., Clayhills, T., Helve, E., Hyvärinen, E., Laurinjarju, E., Malmberg, S., Mannerkoski, I., Martikainen, P., Mattila, J., Muona, J., Pentinsaari, M., Rutanen, I., Salokannel, J., Siitonen, J. & Silfverberg, H. (2015) Kovakuoriaisten maakuntaluettelo 2015. Sahlbergia, 21 (1): 1–164.

Rathlef von, H. (1905) Coleoptera Baltica. Käfer-Verzeichniss der Ostseeprovinen nach den Arbeiten von Ganglbauer und Reitter. C. Mattiesen, Dorpat, 199 pp.

Roosileht, U. (2015) Estonian additions to Silfverberg’s “Enumeratio renovata Coleopterorum Fennoscandiae, Daniae et Baltiae” Coleoptera catalog. Sahlbergia, 21 (2), 6–39.

Sazhnev, A., Dedyukhin, S., Egorov, L., Suleymanova, G., Anikin, V. & Ruchin, A. (2022). Coleoptera of the National Park “Kvalynsky” (Saratov region, Russia). Version 1.3. Available from: https://doi.org/10.15468/eeubua [accessed: November 28, 2023]

Seidlitz, G. (1872) Fauna Baltica. Die Käfer (Coleoptera) der Ostseeprovinzen Russlands. Laakmann, Dorpat, 560 pp.

Seidlitz, G. (1891). Fauna Baltica. Die Kaefer (Coleoptera) der Deuchen Ostprovinzen Russlands. Zweite neu Bearbeitete Auflage mit 1 Tafel. Hartungsche Verlagsdruckerei, Königsberg, 818 pp.

Sherrod, D.W., White, C.E. & Eastman, C.E. (1982) Temperature-related development of the imported crucifer weevil, Baris lepidii (Coleoptera: Curculionidae), in the laboratory and field. Environmental Entomology, 11 (4), 897–900.

Smreczyński, S. (1974) Ryjkowce – Curculionidae. Podrodzina Curculioninae. Plemiona: Barini, Coryssomerini, Ceutorhynchini. Klucze do oznaczania owadów Polski, cz. XIX, z. 98e, Warszawa, 180 pp. [in Polish]

Stanionis, D. & Petrikas, T. (2011) New and rare Coleoptera species in Lithuania. New and rare for Lithuania insect species, 21, 39–48.

Tamutis, V. (2003) Eighty-two new for Lithuania beetle (Coleoptera) species. New and rare for Lithuania insect species, 15, 54–62.

Tamutis, V., Tamutė, B. & Ferenca, R. (2011) A catalogue of Lithuanian beetles (Insecta: Coleoptera). ZooKeys, 121, 1–494. https://doi.org/10.3897/zookeys.121.732

Telnov, D., Barševskis, A., Savich, F., Kovalevsky, F., Berdnikov, S., Doronin, M., Cibuļskis, R. & Ratniece, D. (1997) Check-List of Latvian Beetles (Insecta: Coleoptera). Mitteilungen des Internationalen Entomologischen Vereins, Supplementum 5, 1–141.

Telnov, D. (2004) Check-List of Latvian Beetles (Insecta: Coleoptera). Second edition. In: Telnov, D. (Ed.) Compendium of Latvian Coleoptera. Volume 1. Rīga, Petrovskis un Ko, 114 pp.

Thurston, G.S., Slater, A., Nei, I., Roberts, J., McLachlan Hamilton, K., Sweeney, J.D., Kimoto, T. (2022) New Canadian and provincial records of Coleoptera resulting from annual Canadian food inspection agency surveillance for detection of non-native, potentially invasive forest insects. Insects, 13 (8), 708. https://doi.org/10.3390/insects13080708

Yunakov, N., Nazarenko, V., Filimonov, R. & Volovnik, S. (2018) A survey of the weevils of Ukraine (Coleoptera: Curculionidae). Zootaxa, 4404 (1), 1–494.

https://doi.org/10.11646/zootaxa.4404.1.1

Wanat, M. (2017). Curculionoidea of Poland. Wrocław University, Museum of Natural History. Available from: https://doi.org/10.15468/e0xk3s [accessed: November 28, 2023]

Zajančkauskas, P. & Pileckis, S. (1968) Coleoptera of the Žuvintas Nature Reserve. In: Zajančkauskas, P. (Ed), The Žuvintas Nature Reserve. Vilnius, 264–282.

Zaslavskij, V.A. (1956) Revision of the genus Baris Germ. weevils fauna in the Soviet Union and neighboring countries. Trudy Vsesojuznogo Entomologicheskogo Obschestva, 45: 343–347. [in Russian]

V

Royal British Columbia Museum - Herbarium

T

Tavera, Department of Geology and Geophysics

VI

Mykotektet, National Veterinary Institute

R

Departamento de Geologia, Universidad de Chile

Kingdom

Animalia

Phylum

Arthropoda

Class

Insecta

Order

Coleoptera

Family

Curculionidae

Genus

Melanobaris

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