Труды сотрудников ИЛ им. В.Н. Сукачева СО РАН

/ N. V. Ekimova, E. N. Muratova, P. P. Silkin // Russian Journal of Genetics: Applied Research. - 2012. - Vol. 2, Is. 2. - P105-109, DOI 10.1134/S2079059712020037 . - ISSN 2079-0597
Аннотация: Chromosome numbers for some species of Central Asia steppe shrubs are given: Rhamnus erythroxylon Pall. (Rhamnaceae), Caragana buriatica Peschk. (Fabaceae), Amygdalus pedunculata Pall., Armeniaca sibirica (L.) Lam. (Rosaceae), Atraphaxis pungens (Bieb.) Jaub. et Spach, and A. frutescens (L.) C. Koch (Polygonaceae). Chromosome numbers of some species were determined for the first time. A comparative analysis of adaptive properties of polyploidy and diploid species has been conducted. It was established that natural polyploids are more adaptive to existence in extreme conditions. They possess a high potential for survival and are characterized by a higher level of intraspecific polymorphism, abundant flowering and fruitification, ability to propagate both via generative and vegetative means, and high seed germination. В© 2012 Pleiades Publishing, Ltd.

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Держатели документа:
Siberian Federal University, Krasnoyarsk, Russian Federation
V.N. Sukachev Institute of Forestry, Siberian Branch, Russian Academy of Sciences, Krasnoyarsk, Russian Federation

Доп.точки доступа:
Ekimova, N.V.; Muratova, E.N.; Silkin, P.P.

[Текст] : материалы временных коллективов / Н. В. Екимова, Е. Н. Муратова, П. П. Силкин // Экологическая генетика. - 2011. - Т. 9, № 1. - С. 15-20. - Библиогр. в конце ст.
Аннотация: Приведены числа хромосом для некоторых видов степных кустарников Центральной Азии: Rhamnus erythroxylon Pall. (Rhamnaceae), Caragana buriatica Peschk. (Fabaceae), Amygdalus pedunculata Pall., Armeniaca sibirica (L.) Lam. (Rosaceae), Atraphaxis pungens (Bieb.) Jaub. et Spach. и A. frutescens (L.) C. Koch (Polygonaceae). Числа хромосом ряда видов определены впервые. Проведен сравнительный анализ адаптивных свойств полиплоидных и диплоидных видов. Установлено, что естественные полиплоиды являются более приспособленными к существованию в экстремальных условиях. Они обладают высоким потенциалом для выживания и характеризуются более высоким уровнем внутривидового полиморфизма, обильным цветением и плодоношением, способностью размножаться не только генеративным, но и вегетативным способом, высокой всхожестью семян.


Доп.точки доступа:
Муратова, Елена Николаевна; Muratova, Elena Nikolayevna; Силкин, Павел Павлович; Silkin, Pavel Pavlovich; Yekimova N.V.

[Текст] : материалы временных коллективов / Н. И. Кириченко, М. А. Томошевич // Известия Санкт-Петербургской лесотехнической академии. - Санкт-Петербург : СПбГЛТА, 2012. - Вып. 200. - С. 185-196. - Библиогр. в конце ст.
Аннотация: Работа посвящена изучению разнообразия насекомых-филлофагов и листовых микромицетов, осваивающих европейские и евроазиатские виды древесных растений в дендрариях и в насаждениях городов Сибири. Подобные исследования могут иметь ценность для своевременного обнаружения серьезных вредителей и возбудителей заболеваний, которые могут причинить серьезный ущерб своим новым растениям-хозяевам. Материалы и методы. Работа проводилась в сибирских дендрариях и городских насаждениях Красноярска, Томска и Новосибирска в 1997–2011 гг. на европейских и евразиатских видах древесных растениях из 15 семейств и 25 родов: Aceraceae (Acer), Adoxaceae (Viburnum), Berberidaceae (Berberis), Betulaceae (Betula, Alnus), Caprifoliaceae (Lonicera), Cornaceae (Cornus), Fabaceae (Caragana, Chamaecytisus), Fagaceae (Quercus), Grossulariaceae (Ribes), Malvaceae (Tilia), Oleaceae (Syringa), Rhamnaceae (Rhamnus), Rosaceae (Crataegus, Malus, Potentilla, Prunus, Rosa, Rubus, Spiraea, Sorbus), Salicaceae (Salix, Populus) и Ulmaceae (Ulmus). Насекомых и образцы инфицированных листьев собирали в гербарий и определяли. Европейские и евроазиатские растения сравнивали по таксономическому разнообразию насекомых-филлофагов и листовых фитопатогенов с помощью непараметрического теста Манна-Уитни для независимых выборок (Statistica 8.0 for Windows). Результаты и обсуждение. В ходе исследований было обнаружено 163 вида насекомых-филлофагов, относящихся к шести отрядам: Lepidoptera (73 вида), Hemiptera (30 видов), Coleoptera (30 видов), Hymenoptera (22 вида) и Diptera (8 видов). В большинстве случаев насекомые имели евроазиатское распространение. Значительный вред растениям наносили единичные виды насекомых. Наибольшее число видов насекомых найдено на растениях из семейств Salicaceae и Rosaceae (по 35 видов). 64 % всех видов насекомых являлись открытоживущими филлофагами, остальные – скрытоживущими (в основном, минирующими насекомыми). Три вида молей-минеров: Gracillaria syringella, Phyllonorycter issikii, Ph. lantanella (Gracillariidae, Lepidoptera) ранее не фиксировались в изученном регионе. Все они – известные вредители в своих естественных местообитаниях. На листьях растений было выявлено 65 видов возбудителей заболеваний, среди которых около 90 % видов – известны в Европе и инфицируют там те же растения, что и Сибири, или же другие растения. Доминировали грибы, вызывающие пятнистости листьев (44 вида). Обнаружено 5 видов листовых микромицетов, которые пока не встречаются в Европе: Cylindrosporium betulae (на березе повислой Betula pendula), C. canadense (на спирее зверобоелистной Spiraea hypericifolia), Septoria guevillensis (на спирее дубровколистной. chamaedryfoli), C. salicinum (на иве белой Salix alba) и Mycopappus alni (на ольхе черной Alnus glutinosa и ольхе серойincana). Последние два вида грибов наносили серьезный вред своим растениям-хозяевам в отдельные годы наблюдений.Таксономическое разнообразие насекомых-филлофагов и микромицетов было достоверно выше на евроазиатских видах растений в сравнении с европейскими растениями.

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Доп.точки доступа:
Томошевич, Мария Анатольевна; Tomoshevich M.A.; Kirichenko, Natal'ya Ivanovna

[Text] / N. Kirichenko [et al.] // ZooKeys. - 2016. - Is. 579. - P99-156, DOI 10.3897/zookeys.579.7166. - Cited References:68. - We are grateful to the team at the Biodiversity Institute of Ontario, University of Guelph, Ontario, Canada for their great assistance in the production of DNA barcodes. Funding for DNA barcoding and sequence analysis was partly provided by the Government of Canada through Genome Canada and the Ontario Genomics Institute in support of the International Barcode of Life project, and by NSERC. Genetic analyses were also partly funded by INRA, UR0633 Zoologie Forestiere's core funding. Our work was also aided by the BOLD informatics platform whose development is funded by the Ontario Ministry of Economic Development and Innovation. NK was supported by a fellowship of LE STUDIUM (R), France and the Russian foundation for basic research (grant No 15-29-02645). . - ISSN 1313-2989. - ISSN 1313-2970РУБ Zoology

Аннотация: During a DNA barcoding campaign of leaf-mining insects from Siberia, a genetically divergent lineage of a gracillariid belonging to the genus Micrurapteryx was discovered, whose larvae developed on Caragana Fabr. and Medicago L. (Fabaceae). Specimens from Siberia showed similar external morphology to the Palearctic Micrurapteryx gradatella and the Nearctic Parectopa occulta but differed in male genitalia, DNA barcodes, and nuclear genes histone H3 and 28S. Members of this lineage are re-described here as Micrurapteryx caraganella (Hering, 1957), comb. n., an available name published with only a brief description of its larva and leaf mine. Micrurapteryx caraganella is widely distributed throughout Siberia, from Tyumen oblast in the West to Transbaikalia in the East. Occasionally it may severely affect its main host, Caragana arborescens Lam. This species has been confused in the past with Micrurapreryx gradatella in Siberia, but field observations confirm that M. gradatella exists in Siberia and is sympatric with M. caraganella, at least in the Krasnoyarsk region, where it feeds on different host plants (Vicia amoena Fisch. and Vicia sp.). In addition, based on both morphological and molecular evidence as well as examination of type specimens, the North American Parectopa occulta Braun, 1922 and Parectopa albicostella Braun, 1925 are transferred to Micrurapteryx as M. occulta (Braun, 1922), comb. n. with albicostella as its junior synonym (syn. n.). Characters used to distinguish Micrurapteryx from Parectopa are presented and illustrated. These findings provide another example of the potential of DNA barcoding to reveal overlooked species and illuminate nomenclatural problems.

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Держатели документа:
Sukachev Inst Forest SB RAS, Akademgorodok 50-28, Krasnoyarsk 660036, Russia.
Siberian Fed Univ, 79 Svobodny Pr, Krasnoyarsk 660041, Russia.
INRA, Zool Forestiere UR0633, F-45075 Orleans, France.
Museo Civ Storia Nat, Lungadige Porta Vittoria 9, I-37129 Verona, Italy.
Univ Oulu, Dept Genet & Physiol, POB 3000, FI-90014 Oulu, Finland.
Agr & Agri Food Canada, Ottawa Res & Dev Ctr, Cent Expt Farm, Ottawa, ON K1A 0C6, Canada.
Univ Tours, Inst Rech Biol Insecte, CNRS UMR 7261, UFR Sci & Tech, F-37200 Tours, France.

Доп.точки доступа:
Kirichenko, Natalia; Triberti, Paolo; Mutanen, Marko; Magnoux, Emmanuelle; Landry, Jean-Francois; Lopez-Vaamonde, Carlos; Government of Canada through Genome Canada; Ontario Genomics Institute; NSERC; INRA [UR0633]; Ontario Ministry of Economic Development and Innovation; LE STUDIUM(R), France; Russian foundation for basic research [15-29-02645]

/ N. Kirichenko, P. Triberti, C. Lopez-Vaamonde // ZooKeys. - 2019. - Is. 835. - P17-41, DOI 10.3897/zookeys.835.33166. - Cited References:43. - We thank Svetlana V Gorokhova (Russia) for organizing the field work in the Russian Far East, Svetlana V Baryshnikova (Russia) for checking the collection of the Zoological Institute, Russian Academy of Science for the presence of P. caraganella from its type location and for the fruitful discussions, Erik J van Nieukerken (The Netherlands), Ales Lastuvka, Zdenek Lastuvka (Czech Republic), Alain Cama (France), and Gerfried Deschka (Austria) for sharing specimens and/or DNA barcodes of some Fabaceae-feeding Phyllonorycter with us, Irina A Mikhailova (Russia) for the map construction, Vyacheslav I Zyryanov (Russia) for consultations on Photoshop, and Yuri N Baranchikov (Russia) for his support at different stages of the study. Special thanks to Erik J van Nieukerken, Camiel Doorenweerd (Hawaii, USA) and Zdenek Lastuvka for insightful comments and revision of the manuscript. NK was supported by the Russian Foundation for Basic Research (project No. 15-29-02645), LE STUDIUM (R) fellowship program, Institute for advanced studies - Loire Valley (Orleans, France) and the French Embassy in Russia, Bourse Metchnikov (grant No. 908981L, Campus France), and the EU program COST Action FP1401 "Global Warning: A Global Network of Nurseries as Early Warning System against Alien Tree Pests". . - ISSN 1313-2989. - ISSN 1313-2970РУБ Zoology

Аннотация: During a DNA barcoding campaign of leaf-mining Gracillariidae from the Asian part of Russia, a new species of Phyllonorycter Hubner, feeding on the Siberian pea shrub, Caragana arborescens Lam. (Fabaceae) was discovered in Siberia. Here, this taxon is described as Phyllonorycter ivani sp. n. Among Fabaceae-feeding Phyllonorycter, so far only P. caraganella (Ermolaev) has been known to develop on Caragana. Phyllonorycter ivani and P. caraganella show a large divergence in morphology (external and male genitalia) and barcode region of the mtDNA-COI gene (8.6%). They feed on different host plants species and have different ranges in Russia. We show that DNA barcode data weakly supports the Fabaceae-feeding species groups. In addition, we show that morphologically (strongly) and genetically (weakly), P. ivani has affinity to the haasi species group, a West Palearctic group with asymmetrical male genitalia.

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Держатели документа:
SB RAS, Sukachev Inst Forest, Akademgorodok 50-28, Krasnoyarsk 660036, Russia.
Siberian Fed Univ, 79 Svobodny Pr, Krasnoyarsk 660041, Russia.
INRA, Zool Forestiere UR0633, F-45075 Orleans, France.
Museo Civ Storia Nat, Lungadige Porta Vittoria 9, I-137129 Verona, Italy.
Univ Tours, UFR Sci & Tech, CNRS UMR 7261, Inst Rech Biol Insecte, F-37200 Tours, France.

Доп.точки доступа:
Kirichenko, Natalia; Triberti, Paolo; Lopez-Vaamonde, Carlos; Vaamonde, Carlos Lopez; Russian Foundation for Basic Research [15-29-02645]; LE STUDIUM(R) fellowship program, Institute for advanced studies - Loire Valley (Orleans, France); French Embassy in Russia; Bourse Metchnikov (Campus France) [908981L]; EU program COST Action [FP1401]

/ N. I. Kirichenko, E. N. Akulov, P. Triberti, S. A. Belokobylskij // ZooKeys. - 2021. - Is. 1061. - P131-163, DOI 10.3897/zookeys.1061.70929. - Cited References:49. - We thank Jean-Francois Landry (Canada) and Charley Eiseman (USA) for fruitful discussions on Thermopsis-feeding Micrurapteryx and the comments on M. occulta and "Parectopa" thermopsella, Svetlana V. Shishova and Ekaterina A. Kirichenko (Krasnoyarsk, Russia) for assistance in the field, Dmitry R. Kasparyan and Andrei I. Khalaim (St. Petersburg, Russia) for consultation and determination of Campopleginae, Marko Mutanen (Finland), Torbjorn Ekrem (Norway), Evgeny V. Zakharov (Canada), Tatsiana Lipinskaya (Belarus), Caroline Chimeno (Germany) for allowing us to use the sequences of parasitoid species, Irina A. Mikhailova (Krasnoyarsk, Russia) for helping with mapping, and Olga V. Kuznetsova (Siberian Federal University, Krasnoyarsk, Russia) for English language checking. Special thanks to Erik J van Nieukerken (the Netherlands), Camiel Doorenweerd (USA), and Tengteng Liu (China) for thoughtful revision of the manuscript. NK was partially supported by the Russian Foundation for Basic Research (project No. 1904-01029-a) [field sampling, morphological and molecular genetic analysis] and the basic project of Sukachev Institute of Forest SB RAS, Krasnoyarsk, Russia (project No. 0287-2021-0011) [indoor rearing]. SAB received support from the Russian Foundation for Basic Research (project No. 19-04-00027) and the Russian State Research Project (No. AAAA-A19-119020690101-6). We also thank the team at the Biodiversity Institute of Ontario, University of Guelph (Ontario, Canada) for their great assistance in the production of DNA barcodes. . - ISSN 1313-2989. - ISSN 1313-2970РУБ Zoology

Аннотация: A new species of leaf-mining moth described here as Micrurapteryx baranchikovi Kirichenko, Akulov & Triberti, sp. nov. was detected in large numbers feeding on Thermopsis lanceolata (Fabaceae) in the Republic of Khakassia (Russia) in 2020. A morphological diagnosis of adults, bionomics and DNA barcoding data of the new species are provided. The developmental stages (larva, pupa, adult), male and female genitalia, as well as the leaf mines and the infestation plot in Khakassia are illustrated; the pest status of the new species in the studied region is discussed. Additionally, parasitism rate was estimated, the parasitoid wasps reared from pupae of the new species were identified (morphologically and genetically) and illustrated . Among them, one ichneumonid, Campoplex sp. aff. borealis (Zetterstedt) and two braconids, Agathis fuscipennis (Zetterstedt) and Illidops subversor (Tobias et Kotenko), are novel records for the Republic of Khakassia. Furthermore, they are all documented as parasitoids of Gracillariidae for the first time. The DNA barcode of A. fuscipennis is newly obtained and can be used as a reference sequence for species identification.

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Держатели документа:
Russian Acad Sci, Fed Res Ctr, Krasnoyarsk Sci Ctr SB RAS, Sukachev Inst Forest, Akademgorodok 50-28, Krasnoyarsk 660036, Russia.
Siberian Fed Univ, Svobodny Pr 79, Krasnoyarsk 660041, Russia.
All Russian Plant Quarantine Ctr, Krasnoyarsk Branch, Zhelyabova Str 6-6, Krasnoyarsk 660020, Russia.
Museo Civ Storia Nat, Lungadige Porta Vittoria 9, I-37129 Verona, Italy.
Russian Acad Sci, Zool Inst, Univ Skaya Nab 1, St Petersburg 199034, Russia.
Polish Acad Sci, Museum & Inst Zool, 64 Wilcza, PL-00679 Warsaw, Poland.

Доп.точки доступа:
Kirichenko, Natalia, I; Akulov, Evgeny N.; Triberti, Paolo; Belokobylskij, Sergey A.; Russian Foundation for Basic ResearchRussian Foundation for Basic Research (RFBR) [1904-01029-a, 19-04-00027]; Sukachev Institute of Forest SB RAS, Krasnoyarsk, Russia [0287-2021-0011]; Russian State Research Project [AAAA-A19-119020690101-6]