Бiологiчний всник МДПУ iMeHi Богдана Хмельницького 6 (3), стор. 283-289, 2016 Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 6 (3), pp. 283-289, 2016
ARTICLE UDC 595.786
CONTRIBUTION TO THE KNOWLEDGE OF THE LEPIDOPTERA IN THE NORTHERN CISOKHOTIA, RUSSIA
Matjaz Cernila1, 2
Slovenian Museum of Natural History, Presernova 20, 1001 Ljubljana, Slovenia 2Vilka Ro^ica 1, 1241 Kamnik, Slovenia E-mail: [email protected]
An annotated list of species of Lepidoptera collected in the Kawa-Chelomdzhinsky cluster of Magadan Nature Reserve is given. Eight species: Macaria artesiaria ([Denis & Schiffermuller], 1775), Epione repandaria (Hufnagel, 1767), Dysstroma latefasciata (Prout, 1914), Coenocalpe lapidata (Hubner, 1809), Clostera (albosigma) curtuloides (Erschoff, 1870), Hypena proboscidalis (Linnaeus, 1758), Apamea crenata (Hufnagel, 1766) and Amphipoea lucens (Freyer, 1845) are reported from the Magadan Oblast for the first time.
Key words: East Siberia, Magadan Nature Reserve, Noctuidae, Notodontidae, Geometridae, Nymphalidae.
Citation:
Cernila, M. (2016). Contribution to the knowledge of the Lepidoptera in the Northern Cisokhotia, Russia. Biological Bulletin
of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 6 (3), 283—289.
Поступило в редакцию / Submitted: 23.10.2016
Принято к публикации / Accepted: 27.11.2016
crossref http://dx.doi.org/10.15421/201696
© Cernila, 2016
Users are permitted to copy, use, distribute, transmit, and display the work publicly and to make and distribute derivative works, in any digital medium for any responsible purpose, subject to proper attribution of authorship.
This work is licensed under a Creative Commons Attribution 3.0. License
INTRODUCTION
Until the year 2008, 435 species of Lepidoptera were registered for North Okhotsk region, Magadan area (Sinev, 2008). After publishing the catalogue one new species for science, Dodia maja Rekelj & Cesanek, 2009 (Erebidae: Arctiinae), was described from the territory. During our expedition 44 species were registered on the area of a quarter of a kilometre in five days of effective collecting in August. With the exception of eight species not yet included in the present list of species for Magadan region we registered a little more than 8 % of known fauna. Eight newly registered species therefore represents almost 2 % increase of registered species. These results show that Lepidoprea fauna of Magadan region needs further exploration.
The territory of Magadan Oblast is situated in the North-Eastern part of the Palearctic, east of the Sakha (Yakutia) Republic, from the coast of Sea of Okhotsk in the south, to the Chersky Range, extending from arctic to subarctic, in the northwest, bordering Kamchatka Territory and Chukotka in the North-East. The vast territory of 461 400 km2 is mostly uninhabited, with very little road network. That is probably the main reason that Lepidopteran fauna is relatively poorly explored and therefore particularly interesting.
Friendly acquaintance with biologists from Magadan Nature Reserve and Institute of the Biological Problems of the North, Far Eastern Branch of the Russian Academy of Sciences resulted this article.
MATERIAL AND METHODS
Study area
The Kava-Chelomdjinsky cluster of Magadan Nature Reserve covers mostly lowland basin of protected rivers — Kava and Chelomdja, which at the confluence forms river Tauy, the largest river system in the Tauisk Bay. Chelomdja originating in the upper reaches of the Okhotsk-Kolyma range, has a length of 215 km and is a part of the reserve entirely (Published collective monograph: Flora and Fauna..., 2011) (Figure 1).
Study area was limited to cordon Moldot in Kava-Chelomdjinsky cluster of Magadan Nature Reserve at the geographical coordinates: 059°58'48"N, 148°04'54"E, at altitude 100 m a.s.l.
Figure 1. Clusters of the Magadan Nature Reserve (source: http://www.magterra.ru/HHTepaKTHBHafl-KapTa.html).
Four sampling sites (locality 01-01c) with most typical microhabitats were chosen. Characteristic predominant plant groups in microhabitat of each selected sampling site were: Betula-Populus-Alnus forest near the pond (locality 01: Figure 2), Larix-Vaccinium forest (locality 01a: Figure 3), Saix-Populus river bank (locality 01b: Figure 4) and Larix-Vaccinium-Cladonia-Cetraria thin larch forest (locality 01c: Figure 5). The distance between sampling sites was a few hundred meters.
Figure 2. Locality 01 — Betula-Populus-Alnus forest near Figure 3. Locality 01a — Larix-Vaccinium forest (Photo: the pond (Photo: N. Tridrih). N. Tridrih).
Bimoiirnuu eicHUK MAnY Men Bozdam XMeAbn^bKoio 6 (3), 2016
Figure 4. Locality 01b — Salix-Populus river bank Figure 5. Locality 01c — Larix-Vaccinium-Cladonia-Cetra-(Photo: M. Cernila). ria thin larch forest (Photo: N. Tridrih).
Data collection
The entomological material was collected by four methods (Table 1): manual collection on pyramidal shaped white sheet screen with two 12V/8W UV (black light) fluorescent tubes (Figure 6), automatic light trap with UV cold cathode light kit switched on/off by timer (Figure 7), collecting by net and observation.
Figure 6. Mlt —pyramidal shaped white sheet screen Figure 7. Alt — automatic light trap with UV cold with two 12V/8W UV (black light) fluorescent tubes cathode light switched on/off by timer (Photo: (Photo: N.Tridrih) N.Tridrih)
Table 1. Microhabitat types and collecting methods used in each chosen locality
Locality Microhabitat type code
01 Betula-Populus-Alnus forest near the pond
01a Larix-Vaccinium forest
01b Salix-Populus river bank
01c Larix-Vaccinium-Cladonia-Cetraria thin larch forest
M.lt M.lt
Collecting methods
A.lt A.lt
Net Net
Net Obs.
Mlt — manual collection on pyramidal shaped white sheet screen with two 12V/8W UV (black light) fluorescent tubes; Alt — automatic light trap with UV cold cathode light kit switched on/off by timer; Net — collecting by net; Obs. — observation. Data was collected from August 3th until August 8th 2016.
Data analysis
All specimens were pinned, set and dried. Identification was conducted by comparison of external morphology with specimens in the authors personal collection (Kamnik, Slovenia) and studying literature sources (Fibiger, 1993; Goater et al., 2003; Kononenko, 2005; Mikkola et al., 1987; Pekarsky, 2014; Volynkin, 2012; Dubatolov & Vasilenko, 1988, Vasilenko, 1990, 1991).
The areals of species were verified in literature and Internet sources (Sinev, 2008; Kononenko, 2005; Beljaev & Vasilenko, 2002; Burnasheva & Beljaev, 2011; Beljaev & Burnasheva, 2014; Vasilenko, 1998; Kamchatka Branch of the Pacific Institute of Geography FEB RAS, 2009, http://lepbarcoding.org/northamerica/species_checklists.php).
Specimens from genus Dysstroma (Geometridae) was dissected and determined by the shape of cornuti bundle on the everted vesica (Hausmann & Viidalepp, 2012).
RESULTS
Annotated list of species
LYCAENIDAE Lycaeninae
1. Plebeius optilete (Knoch, 1781) - 01c: Obs, 1$.
NYMPHALIDAE Nymphalinae
2. Aglais urticae (Linnaeus, 1758) — 01: Net, 1$
3. Polygonia c-album (Linnaeus, 1758) — 01: Net, 2$
4. Nymphalis xanthomelas (Esper, 1781) — 01: Net, 1$
GEOMETRIDAE Ennominae
5. Macaria (wauaria) halituaria (Guenee, 1858) — 01: Mlt, 2$, 4$; 01b: Mlt, 6$
6. *Macaria artesiaria ([Denis & Schiffermüller], 1775) — 01a: Mlt, 2$
7. Itame brunneata (Thunberg, 1784) — 01: Mlt, 1$, 3$; 01a: Mlt,
8. Itame bricaria (Eversmann, 1837) — 01: Mlt, 3$; 01a: Mlt, 4$; 01b: Alt, 4$
9. *Epione repandaria (Hufnagel, 1767) — 01: Mlt, 8$
10. Cabera exanthemata (Scopoli, 1763) — 01: Mlt, 1$ Larentiinae
11. Xanthorhoe abrasaria (Herrich-Schäffer, 1855) — 01: Mlt, 1$
12. Entephria caesiata ([Denis & Schiffermüller], 1775) — 01: Mlt; 01a: Mlt, 2$, 8$
13. Eulithisprunata leucoptera (Djakonov, 1929) — 01: Mlt, 4$; 01a: Mlt, 2$, 5$
14. Euithis testata (Linnaeus, 1761) — 01a: Mlt, 1$, 5$
15. Eulithispopulata (Linnaeus, 1758) — 01b: Alt, 2$
16. Dysstroma infuscatum (Tengström, 1869) — 01a: Mlt, 1$, 2$
17. Dysstroma citrata (Linnaeus, 1761) — 01: Mlt, 2$, 2$; 01a: Mlt, 1$, 5$
18. *Dysstroma latefasaata (Prout, 1914) — 01: Mlt, 3$; 01a: Mlt, 2$, 4$; 01b: Alt, 1$
19. Plemyria rubiginata ([Denis & Schiffermüller], 1775) — 01: Mlt, 4$; 01a: Mlt, 1$, 2$
20. Hydriomena furcata (Thunberg, 1784) — 01: Mlt, 6$, 8$; 01a: Mlt, 8$
21. *Coenocalpe lapidata (Hübner, 1809) — 01a: Mlt, 2$
BioAoiirnuü eicHUK MMAnY Men Boidana XMeAbn^bKoio 6 (3), 2016
22. Carsiasororiata (Hubner, 1813) - 01: Mlt, 1$; 01a: Mlt, 3$, 5$; 01c: Alt, Net, 1$, 15$
NOTODONTIDAE
Pygaerinae
23. *Clostera (albosigma) curtuloides (Erschoff, 1870) — 01: Mlt, 1$
EREBIDAE
Calpinae
24. Scoliopteryx libatrix (Linnaeus, 1758) — 01: Mlt, 4$; 01a: Mlt, 4$; 01c: Alt, 1$, 1$
Hypeninae
25. *Hypenaproboscidalis (Linnaeus, 1758) — 01b: Alt, 1$
NOCTUIDAE
Plusiinae
26. Polychrysia esmeralda (Oberthur, 1880) — 01: Mlt, 1$
27. Autographa buraetica (Staudinger, 1892) — 01: Mlt, 1$
28. Syngrapha interrogations transbaikalensis (Staudinger, 1892) — 01: Mlt, 1$; 01b: Alt, 3$; 01c: Alt, Net, 7$
Hadeninae
29. Caradrina montana (Bremer, 1861) — 01b: Alt, 7$
30. Parastichtis suspecta (Hubner, 1817) — 01b: Alt, 2$
31. Cirrhia icteritia (Hufnagel, 1766) f. flavescens Esper — 01b: Alt, 1$
32. Mniotype bathensis (Lutzau, 1901) — 01: Mlt, 1$
33. *Apamea crenata (Hufnagel, 1766) — 01: Mlt, 1$; 01a: Mlt, 1$; 01b: Alt, 1$
34. *Amphipoea lucens (Freyer, 1845) — 01c: Net, 1 $
35. Mythimna impura (Hubner, 1808) — 01b: Alt, 1$, 2$
Noctuinae
36. Chersotis juncta (Grote, 1878) — 01b: Alt, 1 $
37. Eurois occulta (Linnaeus, 1758) — 01: Mlt, 1$, 2$; 01a: Mlt, 1$
38. Graphiphora augur (Fabricius, 1775) — 01a: Mlt, 1$, 2$; 01b: Alt, 3$, 5$
39. Xestiafuscogrisea Kononenko, 1984 — 01a:Mlt, 3$, 24$
40. Xestia subgrisea (Staudinger, 1897) — 01: Mlt, 3$; 01a: Mlt, 2$
41. Xestia c-nigrum (Linnaeus, 1758) — 01: Mlt, 4$, 1$
42. Xestia baja ([Denis & Schiffermuller], 1775) — 01: Mlt, 5$, 8$; 01a: Mlt, 1$, 2$
43. Anaplectoidesprasina ([Denis & Schiffermuller], 1775) — 01a: Mlt, 1$
44. Protolampra sobrina (Duponchel, 1843) — 01a: Mlt, 1$; 01b: Alt, 4$
* The species is reported here for the Magadan Oblast for the first time.
DISCUSSION
In northern territories with polar day or white nights it is almost impossible to use standard methods of light trapping for collecting Lepidoptera active at night due to the lack of dark period, from the very beginning of spring until late summer. In the period of our expedition the totally dark period of night was approximately four hours, from 23 p.m. until 3 a.m. local time. We were able to use standard light trapping methods only during limited period, which resulted in a relatively high number of collected specimens. We did not use method of 'sugar bite' for attracting Noctuidae and species of some other families because of the danger from the large number of brown bears living on the studied area. The largest number of specimens was collected during totally cloudy and even rainy nights probably because of higher air temperature and less temperature drop after sunset. The average daily air temperature was from 12 °C in a cloudy or rainy days, to 22 °C in the warmest sunny day. The average air temperature at totally cloudy or rainy nights was almost the same as it was during cloudy or rainy days (10—14 °C), while during clear nights the temperature fell to 7—3 °C.
In spite the fact that in general the number of collected specimens was small, because of the short sampling time and very limited area of collecting, considering that many Lepidopteran species are closely related to their habitats and imagos of majority of species have limited seasonal occurrence, an interesting type of lepidopteran fauna was found on the research area. Nine species are recorded for the first time from Magadan Oblast (Sinev, 2008). Eight of nine newly recorded species for Magadan Oblast are Euro-Siberian, except Clostera albosigma Fitch, 1856 which have Holarctic distribution. The known areal of distribution of five species is extended to the NE: Macaria artesiaria ([Denis & Schiffermuller], 1775) with up to now known NE border of distribution in the
mid-Amur region, Epione repandaria (Hufnagel, 1767) with up to now known NE border of distribution in the Yakutia south of Viluy and Aldan rivers, Dysstroma latefasciata (Prout, 1914) with up to now known NE border of distribution in the SW Yakutia (Averensky et al., 2006; Burnasheva & Beljaev, 2011) and mid-Amur region, and Clostera (albosigma) curtuloides (Erschoff, 1870) with up to now known NE border of distribution in the Yakutia south of Viluy and Aldan rivers, the Lower Amur region south of Khabarovsk Krai and Sakhalin island. Closer to the areal of the nominotypical subspecies distributed in North America. The blank spots in known areal of distribution of four species are filled in and connected in the North with Kamchatka region: Coenocalpe lapidata (Hubner, 1809) to the North-East Yakutia, Hypena proboscidalis (Linnaeus, 1758) to the Sakhalin Island, South Kuril region, Apamea crenata (Hufnagel, 1766) to the Yakutia south of Viluy and Aldan rivers and Amphipoea lucens (Freyer, 1845) to the South Yakutia region. Plemyria rubiginata ([Denis & Schiffermuller], 1775) was cited as newly recorded species for the Magadan region in Annals of nature for the year 2012 of Magadan Nature Reserve.
All are inhabitants of temperate-climate ecoregions. Studied area is located at lowland river basin with relatively rich vegetation, at the southwestern part of the Magadan Oblast territory and linked with the Khabarovsk Territory temperate-climate ecoregions. Therefore, presence of these species on studied area is not a surprise. The partial information and some photographs of collected species and locality stored in our Internet database can be seen in our E-Book:
http://188.121.60.140/playground/Matjaz/Magadan/Lepidoptera_ParkMagadan.php
All the collected specimens are stored in the authors private collection and are available for scientific study.
ACKNOWLEDGMENTS
The author thanks Nikolay Tridrih for outstanding cooperation and organization of the expedition, director of Magadan Nature Reserve Yuri Ivanovich Berezhnoy for permission to work on the territory of national park and for making available technical resources, Irina Genadyevna Utekhina for constructive dialogue and offered participation in the inventarisation of the nature reserve fauna, Alexey Aleksandrovich Stepanov for safe transfer, protection against bears and friendly accommodation in the park station, Elena Maximova Sedlovskaya for warm reception and excellent presentation of our work on the nature reserve Internet site and Yuri Marusik for valuable instructions for witting the article and introducing me to local biologists.
REFERENCES
Annals of Nature. Book number 30 (for the year 2012). (2013). Ministry of Natural Resources and Environment,
Russian Federation, Federal State Institution State Natural Reserve Magadan (in Russian). Beljaev, E.A., Burnasheva A.P. (2014). New data on the fauna of geometrid moths (Lepidoptera, Geometridae)
of Yakutia. II. Amurian Zoological Journal, VI(1), 57—62 (in Russian). Beljaev, E.A., Vasilenko, S.V. (2002). An annotated checklist of geometrid moths (Lepidoptera: Geometridae)
from the Kamchatka Peninsula and adjacent islands. Entomologica Fennica, 195—235. Burnasheva, A.P., Beljaev, E.A. (2011). New data on the fauna of geometrid moths (Lepidoptera, Geometridae)
of Yakutia. I. Proceed. Russian Entomological Society. St. Petersburg (in Russian). Dubatolov, V.V. & Vasilenko, S.V. (1988). Some new and little known Lepidoptera (Macrolepidoptera) from Yakutia (pp 60—68). In: Nasekomye lugovo-tayozhnykh biotseno%ov Yakutii. Yakutsk: Yakutia Branch Academy of Sciences of USSR (in Russian). Fibiger, M. (1993). Noctuidae Eumpaeae. Vol. 2. Noctuinae II. Soro: Entomological Press. Flora and Fauna of the Reserve Magadansky. (2011). Magadan (in Russian).
GEF Project 2009. (2009). Conservation of biodiversity of Kamchatka and coastal waters. Proceed. X Int. Conf. Petropavlovsk-Kamchatsky.
Goater, B., Ronkay, L., Fibiger, M. (2003). Noctuidae Europaeae. Vol. 10. Catocalinae and Plusiinae. Soro: Entomological Press.
Hausmann, A., Viidalepp, J. (2012). The Geometrid Moths of Europe. Vol. 3. Larentiinae I. Apollo Books. Kononenko, V.S. (1984). New subspecies from the genus Xestia Hb. (Lepidoptera, Noctuidae) from eastern
Siberia and the Far East. Entomologicheskoe obo%renie, LXIII, 3 (in Russian). Kononenko, V.S. (2005). Noctuidae Sibiricae. Vol. 1. An annotated Check list of the Noctuidae (s. l.) (Lepidoptera, Noctuoidea: Nolidae, Erebidae, Micronoctuidae, Noctuidae) of the Asian part of Russia and the Ural region. Sor0: Entomological Press. Mikkola, K., Lafontaine, J.D., Grotenfelt, P. (1987). A revision of the holarctic Chersotis andereggii complex
(Lepidoptera, Noctuidae). Nota lepidopterologica (n.f), 10(3), 140—157. Pekarsky, O. (2014). Contribution to the knowledge of Noctuidae fauna of Bering island. Fibigeriana supplement: volume 2, 177-200.
Birnoziwuu eicnuK MAnY Men Bozdana XMeAbm^mzo 6 (3), 2016
Rekelj, J., Cesanek, (2009). Dodia maja sp. n., a new tiger moth from the Magadan territory, Russia (Lepidoptera,
Arctiidae). Acta Zoologica Academiae Scientiarum Hungaricae, 55(3), 275—282. Sinev, S.Y. (Ed.) (2008). Catalogue of Lepidoptera of Russia. Saint Petersburg & Moscow: Association of scientific editions KMK.
Vasilenko, S.V. (1990). Review of the species group Entephria polata Dup. (Lepidoptera, Geometridae), pp. 78—89.
In: Taksonomiya nasekomykh igel'mintov. Novosibirsk: Nauka Press (in Russian). Vasilenko, S.V. (1991). A new species of the genus Entephria (Lepidoptera, Geometridae) from the NorthEastern Siberia (pp. 84—86). In: Novostifaunistiki i sistematiki. Kiev: Naukova Dumka (in Russian). Vasilenko, S.V. (1998). New and rare geometer-moths (Lepidoptera, Geometridae) in Siberia and the Far East.
Zoologicheskii %hurnal, 77(10), 1137—1142 (in Russian). Volynkin, A.V. (2012). Noctuidae of the Russian Altai (Lepidoptera). Proceedings of the Tigirek State Natural Reserve, 5. Barnaul: Tigirek State Reserve.