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Journal articles on the topic 'Dendrolimus sibiricus'

Author: Grafiati
Published: 27 July 2024
Last updated: 31 July 2025

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1

Mikkola, Kauri, and Gunilla Ståhls. "Morphological and molecular taxonomy of Dendrolimus sibiricus Chetverikov stat.rev. and allied lappet moths (Lepidoptera: Lasiocampidae), with description of a new species." Entomologica Fennica 19, no. 2 (2008): 65–85. http://dx.doi.org/10.33338/ef.84417.

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The populations of the well-known forest pest, Dendrolimus sibiricus Chetverikov, 1908 stat.rev., were sampled in the European foothills of the Ural Mountains, Russia. D. sibiricus is a species distinct from the Japanese taxon D. superans (Butler, 1877). Another taxon from the Southern Urals, taxonomically close to D. pini (Linnaeus), is described here as D. kilmez sp.n. The synthetic female pheromones prepared for D. pini and D. sibiricus attracted equally well all three taxa present, and thus cannot be used to identify these species. The Ural populations of D. sibiricus show differences in e
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2

Kirichenko, Natalia I., Alexander A. Ageev, Sergey A. Astapenko, et al. "The Diversity of Parasitoids and Their Role in the Control of the Siberian Moth, Dendrolimus sibiricus (Lepidoptera: Lasiocampidae), a Major Coniferous Pest in Northern Asia." Life 14, no. 2 (2024): 268. http://dx.doi.org/10.3390/life14020268.

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The Siberian moth, Dendrolimus sibiricus Tschetv., 1908 (Lepidoptera: Lasiocampidae) is a conifer pest that causes unprecedented forest mortality in Northern Asia, leading to enormous ecological and economic losses. This is the first study summarizing data on the parasitoid diversity and parasitism of this pest over the last 118 years (1905–2022). Based on 860 specimens of freshly reared and archival parasitoids, 16 species from two orders (Hymenoptera and Diptera) were identified morphologically and/or with the use of DNA barcoding. For all of them, data on distribution and hosts and images o
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3

Демидко, Д. А., А. А. Горошко, С. М. Сультсон, Н. Н. Кулакова, and П. В. Михайлов. "Weather data-based prediction of Siberian moth Dendrolimus sibiricus Tschetv.: a case study." Сибирский экологический журнал 31, no. 3 (2024): 427–43. http://dx.doi.org/10.15372/sej20240305.

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Одним из важнейших этапов предотвращения дефолиации лесов является его прогнозирование. Значительную роль в формировании массовых размножений лесных дефолиаторов играет погода. Именно с использованием погодных данных в качестве предикторов был построен ряд моделей, более или менее успешно работающих. Мы предприняли такую попытку для сибирского шелкопряда (Dendrolimus sibiricusTschetv.) – одного из наиболее опасных филлофагов южной тайги Сибири. Для модельной территории (южная тайга и подтайга Томской и Кемеровской областей, Красноярского края) построена модель на основе градиентного спуска (ал
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Malashin, Ivan, Igor Masich, Vadim Tynchenko, et al. "Forecasting Dendrolimus sibiricus Outbreaks: Data Analysis and Genetic Programming-Based Predictive Modeling." Forests 15, no. 5 (2024): 800. http://dx.doi.org/10.3390/f15050800.

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This study presents an approach to forecast outbreaks of Dendrolimus sibiricus, a significant pest affecting taiga ecosystems. Leveraging comprehensive datasets encompassing climatic variables and forest attributes from 15,000 taiga parcels in the Krasnoyarsk Krai region, we employ genetic programming-based predictive modeling. Our methodology utilizes Random Forest algorithm to develop robust forecasting model through integrated data analysis techniques. By optimizing hyperparameters within the predictive model, we achieved heightened accuracy, reaching a maximum precision of 0.9941 in foreca
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Кобзарь, В. Ф., Н. И. Колесова та А. А. Петрик. "Карантинные и другие вредители, выявленные в лесах Иркутской области". Plant Health and Quarantine, № 4 (15 грудня 2021): 37–48. http://dx.doi.org/10.69536/fkr.2021.23.52.001.

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В статье приведены результаты 2-летнего (2019–2020 гг.) исследования энтомофауны основных вредителей лесных пород деревьев, проведенного авторами на территории лесов некоторых районов Иркутской области. Главной целью был сбор энтомологического материала на всех стадиях развития для формирования энтомологической коллекции, преимущественно – насекомых, повреждающих деревья хвойных пород. Выявлены: сибирский шелкопряд Dendrolimus sibiricus Tschetverikov, 1908 в Качугском, Баяндаевском, Слюдянском, Шелеховском, Иркутском, Ольхонском районах, непарный шелкопряд Lymantria dispar (Linnaeus, 1758) в О
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Antipova, T. V., V. P. Zhelifonova, B. P. Baskunov, et al. "Formation of biologically active compounds by Siberian <I>Cordyceps militaris</I> (L.) Fr. strains." Microbiology 93, no. 6 (2024): 785–96. https://doi.org/10.31857/s0026365624060099.

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Fungal strains isolated in the Krasnoyarsk Territory from dead caterpillars of the Siberian silkworm Dendrolimus sibiricus Tschetverikov, found in the litter and crown of Abies sibirica Ledeb., based on morphological and genetic methods, were assigned to the species Cordyceps militaris (L.) Fr. The strains are highly active producers of bioactive compounds such as polysaccharides (PS), adenosine and cordysinin B. Cordysinin B was first discovered in the species C. militaris. It was found that the production of PS was more influenced by the method of growing mushrooms than by the carbon substra
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Ostrauskas, Henrikas, and Povilas Ivinskis. "Moths trapped during the search for Dendrolimus sibiricus (Lepidoptera, Lasiocampidae) in Lithuania." Acta Zoologica Lituanica 20, no. 4 (2010): 232–37. http://dx.doi.org/10.2478/v10043-010-0037-0.

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8

Klun, Jerome A., Yuri N. Baranchikov, Victor C. Mastro, et al. "A Sex Attractant for the Siberian Moth Dendrolimus superans sibiricus (Lepidoptera: Lasiocampidae)." Journal of Entomological Science 35, no. 2 (2000): 158–66. http://dx.doi.org/10.18474/0749-8004-35.2.158.

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Field trapping experiments were conducted against the Siberian moth, Dendrolimus superans sibiricus Butler, in Siberia, Russia, using traps baited with a virgin female moth or 100 μg synthetic mixtures of C12 straight chain-length aldehydes, alcohols, and acetates alone or in combinations on rubber septa. Traps baited with a 1:1 blend of aldehydes and alcohols captured many males. The capture rate was similar to the rate of capture seen in traps baited with virgin females. The mixture of aldehydes and alcohols (64% Z,E-5,7-dodecadienal, 10% Z-5-dodecenal, 18% E-7-dodecenal, 8% E-6-dodecenal) a
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Denisova, N. B., A. A. Sobolev, and U. S. Shipinskaya. "Study results of siberian moth (Dendrolimus sibiricus Tschetw.) outbreak foci in Vasyugan forestry of Tomsk region." FORESTRY BULLETIN 24, no. 6 (2020): 65–72. http://dx.doi.org/10.18698/2542-1468-2020-6-65-72.

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This article presents the results of the inventory of outbreak foci of D. sibiricus in the Vasyugan forestry, Tomsk region. The purpose of the article was reflecting the state of the pest population and assessing a threat of defoliation of forests. Pests were measured by caterpillars using the method of knocking on model trees. According to the results, 29 isolated foci were identified, including 9 foci requiring actions to target pests. The threat of defoliation of forest areas in these foci was 76,3 %. The article gave us the examples of calculation of population characteristics determinatio
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Demidko, D. A., A. A. Goroshko, S. M. Sultson, N. N. Kulakova, and P. V. Mikhaylov. "Weather Data-Based Prediction of the Siberian Moth Dendrolimus sibiricus Tschetv.: A Case Study." Contemporary Problems of Ecology 17, no. 3 (2024): 379–92. http://dx.doi.org/10.1134/s1995425524700215.

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11

Sultson, S. M., P. V. Mikhailov, A. A. Goroshko, et al. "Ecological characteristics of the siberian silkmoth (Dendrolimus sibiricus) (Insecta, Lasiocampidae) habitat in the Sayan montane conifer forests ecoregion." Povolzhskiy Journal of Ecology, no. 1 (March 23, 2024): 64–78. http://dx.doi.org/10.35885/1684-7318-2024-1-64-78.

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The article is devoted to studying the siberian silkmoth ( Dendrolimus sibiricus Tschetverikov, 1908) outbreaks, which is highly relevant today. The study was aimed at improving the system of forest pathology monitoring by revealing factors contributing to forest stand resistance to the pest attacks. We analyze the habitat conditions that are favorable for the siberian silkmoth in the early stages of its development and during the outbreak in dark coniferous taiga in the mountains of Southern Siberia (particularly, the Krasnoyarsk region). The research was based on remote sensing data combined
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12

Enkhnasan, Davaadorj, Dorjsuren Altanchimeg, Galsandorj Naranbaatar, and Galbadrakh Mainjargal. "Habitat modeling and future trends for the outbreak of the Siberian moth (Dendrolimus sibiricus Tschetv.) in Mongolia." Proceedings of the Institute of Biology 39, no. 2 (2023): 77–92. http://dx.doi.org/10.5564/pib.v39i2.3328.

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The Siberian moth, Dendrolimus sibiricus Tschetverikov, 1908 (Family Lasiocampidae), is recognized as the most destructive defoliator of Mongolia’s conifer forests. Our study was conducted at 14 locations within the Khentii mountain range, a known hotspot for moth outbreaks. Here, we measured various body sections of the caterpillars and calculated their population density. To model the habitat and potential outbreak tendency of this species, we utilized local weather data, global climate variables (Bio19), and other environmental layers. Our findings reveal a significant correlation between t
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13

Bulakhova, N. A., E. N. Meshcheryakova, A. P. Burnasheva, Yu V. Ermakova, N. N. Vinokurov, and D. I. Berman. "Cold hardiness and overwintering conditions of larvae of the Siberian moth, <i>Dendrolimus sibiricus</i> (Lepidoptera, Lasiocampidae) from Central Yakutia’s population." Zoologičeskij žurnal 103, no. 10 (2024): 55–71. https://doi.org/10.31857/s0044513424100043.

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The Siberian moth, Dendrolimus sibiricus Tschetverikov 1908, is a dangerous pest of the conifer family Pinaceae that inhabits the Asian part of Russia, northern Kazakhstan, Mongolia, China and the Korean Peninsula. Its range is gradually expanding both westwards and northwards: the species is currently recorded at 46°–47° E over the Eastern European Plain, around 60° N in the Krasnoyarsk Krai and at 63° N in the Republic of Sakha (Yakutia). A number of studies have been devoted to predicting further dispersal of D. sibiricus, but the assessment of the pest’s invasion potential is hampered, amo
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Romanova, Maria, Andrey Goroshko, Svetlana Sultson, Nadezhda Kulakova, Natalia Khizhniak, and Pavel Mikhailov. "Algorithm for predicting Siberian silkmoth outbreaks in taiga forests of Krasnoyarsk Krai." BIO Web of Conferences 113 (2024): 04004. http://dx.doi.org/10.1051/bioconf/202411304004.

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Forests disturbances by pests and diseases remains one of the major problems for forestry. These factors, combined with logging, fires and other human impacts, lead to degradation of forest ecosystems. Nowadays, forest health in Russia is assessed using forest inventory data and state forest health monitoring data. At the beginning of the 2020s, the Siberian silkmoth (Dendrolimus superans sibiricus Tscetv.) population continues to rise and damage taiga forests. The present study is dedicated to one of the methods for improving forest health monitoring. The method is based on remote sensing (in
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15

Pavlov, I. N., Y. A. Litovka, D. V. Golubev, S. A. Astapenko, and P. V. Chromogin. "New Outbreak of Dendrolimus sibiricus Tschetv. in Siberia (2012–2017): Monitoring, Modeling and Biological Control." Contemporary Problems of Ecology 11, no. 4 (2018): 406–19. http://dx.doi.org/10.1134/s1995425518040054.

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16

Баранчиков, Ю. Н. "What one can’t do, can be done together: joint project of the Russian Academy of Sciences and the Federal Forestry Agency on development and implementation of the Siberian moth monitoring system." Известия СПбЛТА, no. 236 (September 20, 2019): 212–27. http://dx.doi.org/10.21266/2079-4304.2021.236.212-227.

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Оптимизированная система мониторинга сибирского шелкопряда Dendrolimus sibiricus Tchetverikov (Lepidoptera: Lasiocampidae) была разработана в ходе выполнения международного проекта «Лесные ресурсы и технологии» (ФОРЕСТ), профинансированного Агентством США по международному развития (USAID) в 2001-2005 гг. Она включает последовательные стадии лесопатологического районирования субъектов федерации, отдельных лесхозов, организации феромонного мониторинга разреженных популяций шелкопряда и лишь при фиксации ловушками подъема численности (выше 100 бабочек/ловушку/сезон) - перехода к учету гусениц. В
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Soukhovolsky, Vladislav, Anton Kovalev, Yulia Ivanova, and Olga Tarasova. "Autoregression, First Order Phase Transition, and Stochastic Resonance: A Comparison of Three Models for Forest Insect Outbreaks." Mathematics 11, no. 19 (2023): 4212. http://dx.doi.org/10.3390/math11194212.

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Three models of abundance dynamics for forest insects that depict the development of outbreak populations were analyzed. We studied populations of the Siberian silkmoth Dendrolimus sibiricus Tschetv. in Siberia and the Far East of Russia, as well as a population of the pine looper Bupalus piniarius L. in Thuringia, Germany. The first model (autoregression) characterizes the mechanism where current population density is dependent on population densities in previous k years. The second model considers an outbreak as analogous to a first-order phase transition in physical systems and characterize
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Yudina, M. A., V. V. Dubatolov, R. A. Bykov, and Yu Yu Ilinsky. "Wolbachia infection in populations of the coniferous forest pest Dendrolimus superans sibiricus Tschetverikov, 1908 (Lepidoptera: Lasiocampidae)." Vavilov Journal of Genetics and Breeding 20, no. 6 (2016): 899–903. http://dx.doi.org/10.18699/vj16.208.

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Demidko, Denis A., Andrey A. Goroshko, Olga A. Slinkina, Pavel V. Mikhaylov, and Svetlana M. Sultson. "The Role of Forest Stands Characteristics on Formation of Exterior Migratory Outbreak Spots by the Siberian Silk Moth Dendrolimus sibiricus (Tschetv.) during Population Collapse." Forests 14, no. 6 (2023): 1078. http://dx.doi.org/10.3390/f14061078.

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The characteristics of Abies sibirica Ledeb.- and Pinus sibirica Du Tour dominated forests stands in outbreak spots formed during a Dendrolimus sibiricus outbreak in 2014–2017 were studied at the stage of population collapse (east of the West Siberian Plain and western foothills of the Yenisei Range). The research was based on the data obtained during ground surveys conducted in 2016 when stands characteristics, the Siberian silk moth population density, and defoliation level were recorded. We classified the studied stands using decision trees and random forest algorithms to identify the key c
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Soukhovolsky, Vladislav, Anton Kovalev, Olga Tarasova, and Yulia Ivanova. "Forest Insect Outbreak Dynamics: Fractal Properties, Viscous Fingers, and Holographic Principle." Forests 14, no. 12 (2023): 2459. http://dx.doi.org/10.3390/f14122459.

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During the growth of a forest insect outbreak epicenter, there are processes that involve the formation and expansion of the primary epicenter of forest damage, as well as secondary epicenters—both connected and unconnected to the primary one. This study characterizes outbreak epicenters in terms of their fractal dimensions and “viscous finger” parameters at the epicenter boundary, highlighting their significance in the context of forest insect management. Local outbreak epicenters were found to be characterized by fractal dimension D = 1.4–1.5, and the boundaries of the epicenters were descri
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Чалкин, А. А., Д. Ф. Зинников, С. Н. Лябзина та О. В. Синкевич. "Вредители и болезни лесных биоценозов особо охраняемых природных территорий Республики Карелии". Plant Health and Quarantine, № 2 (15 червня 2021): 9–19. http://dx.doi.org/10.69536/fkr.2021.30.26.001.

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Представлены результаты четырехлетнего (2017–2020 гг.) исследования фитосанитарного состояния лесных биоценозов особо охраняемых природных территорий (ООПТ) Республики Карелии. Проведена комплексная научно-исследовательская работа в 2 заповедниках («Кивач» и «Костомукшский») и 2 национальных парках («Водлозерский» и «Паанаярви»). Во всех ООПТ зафиксировано присутствие короеда-типографа Ips typographus (Linnaeus, 1758) с его наибольшей численностью на участках леса с нарушенной устойчивостью (пожарища и ветровалы). Черные усачи рода Monochamus Dejean, 1821 также отмечены во всех ООПТ, но наибол
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Ostrauskas, Henrikas, and Povilas Ivinskis. "Moths caught in pheromone traps during search for Dendrolimus pini and D. sibiricus (Lepidoptera, Lasiocampidae) in Lithuania." Acta Zoologica Lituanica 21, no. 3 (2011): 238–43. http://dx.doi.org/10.2478/v10043-011-0027-x.

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Gninenko, Yu I., and A. D. Orlinskii. "Dendrolimus sibiricus in the coniferous forests of European Russia at the beginning of the twenty-first century." EPPO Bulletin 32, no. 3 (2002): 481–83. http://dx.doi.org/10.1046/j.1365-2338.2002.00593.x.

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Slepneva, I. A., V. V. Glupov, S. V. Sergeeva, and V. V. Khramtsov. "EPR Detection of Reactive Oxygen Species in Hemolymph of Galleria mellonella and Dendrolimus superans sibiricus (Lepidoptera) Larvae." Biochemical and Biophysical Research Communications 264, no. 1 (1999): 212–15. http://dx.doi.org/10.1006/bbrc.1999.1504.

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ОНУЧИН, А. А., В. А. СОКОЛОВ та О. П. ВТЮРИНА. "О ВОСПРОИЗВОДСТВЕ ЛЕСОВ В КРАСНОЯРСКОМ КРАЕ". Сибирский лесной журнал, № 6 (30 грудня 2024): 10–16. https://doi.org/10.15372/sjfs20240602.

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За последние два десятилетия ежегодно в Сибири вырубалось около 600 тыс. га лесов, примерно столько же уничтожалось лесными пожарами, а также повреждалось вредителями леса (сибирским шелкопрядом - Dendrolimus sibiricus Tschetverikov, полиграфом уссурийским - Polygraphus proximus Blandford и др.), а также ветровалами и промышленными эмиссиями. Сложные изменения в лесном покрове свидетельствуют об ухудшении качественного состава лесов. Причины этого - не глобальное потепление климата, а и вполне предсказуемые антропогенные и природные факторы: рубки леса, пожары и очаги вредителей леса, естестве
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Kovalev, A. V., and P. E. Tsikalova. "Predictors of Insect Damage to Forest Stands According to Satellite Data on Example of Siberian Silkmoth Dendrolimis Sibiricus Tschetv." Лесоведение, no. 2 (March 1, 2023): 150–60. http://dx.doi.org/10.31857/s002411482302002x.

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Population outbreaks of such species as Dendrolimus sibiricus Tschetv., in Siberian taiga forests begin with areas of several hectares and develop up to hundreds of thousands of hectares, resulting in significant damage to forests. Boundaries of foci change with time depending on external factors, population dynamics, and the state of forage trees. In this regard, it is important to determine the beginning of an outbreak and the affected area in advance as predictors of increasing pest numbers. To assess necessary conditions for an outbreak, a method for assessing state of forest stands is pro
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Sul’tson, S. M., P. V. Mikhaylov, S. S. Kulakov, and A. A. Goroshko. "Opportunities for assessing the risk of an outbreak of Siberian silkworm (Dendrolimus superans sibiricus Tschetv.) in taiga forests." IOP Conference Series: Earth and Environmental Science 548 (September 2, 2020): 052051. http://dx.doi.org/10.1088/1755-1315/548/5/052051.

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Soukhovolsky, Vladislav, Anton Kovalev, Andrey A. Goroshko, Yulia Ivanova, and Olga Tarasova. "Monitoring and Prediction of Siberian Silk Moth Dendrolimus sibsiricus Tschetv. (Lepidoptera: Lasiocampidae) Outbreaks Using Remote Sensing Techniques." Insects 14, no. 12 (2023): 955. http://dx.doi.org/10.3390/insects14120955.

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The feasibility of risk assessment of a Siberian silk moth (Dendrolimus sibiricus Tschetv.) outbreak was analyzed by means of landscape and weather characteristics and tree condition parameters. Difficulties in detecting forest pest outbreaks (especially in Siberian conditions) are associated with the inability to conduct regular ground surveillance in taiga territories, which generally occupy more than 2 million km2. Our analysis of characteristics of Siberian silk moth outbreak zones under mountainous taiga conditions showed that it is possible to distinguish an altitudinal belt between 400
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Быков, Р. А., Г. В. Юрлова, М. А. Деменкова та ін. "Высокий уровень встречаемости эндосимбионта Wolbachia в популяциях сибирского шелкопряда Dendrolimus superans sibiricus Tschetverikov, 1908 (Lepidoptera: Lasiocampidae) на территории России". Журнал общей биологии 81, № 5 (2020): 387–93. http://dx.doi.org/10.31857/s0044459620050036.

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Jin, Qi, Lauri Valsta, Kari Heliövaara, Jing Li, Youqing Luo, and Juan Shi. "Effects of Catastrophic Insect Outbreaks on the Harvesting Solutions of Dahurian Larch Plantations." International Journal of Forestry Research 2015 (2015): 1–12. http://dx.doi.org/10.1155/2015/421858.

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Optimal harvesting under pest outbreak risk was studied on a set of even-aged Dahurian larch (Larix gmelinii) stands in northeastern Inner Mongolia, China. The effects of catastrophic pest outbreaks caused by the Siberian moth (Dendrolimus sibiricus) on the economic harvesting plan are compared through both deterministic and stochastic cases. Stand simulation is based on an individual-tree growth system. A scenario approach is applied when simulating the effects of catastrophic pest outbreaks. Insect damage is assumed to be a Poisson process with an average rate of 0.1 per year. One hundred sc
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Ponomarev, Evgenii I., Evgeny G. Shvetsov, Nikita D. Yakimov, et al. "Remote Sensing Assessment and Modeling of the Spatial Dynamics of Tree Stand Disturbance after the Impact of Siberian Silk Moth (Dendrolimus sibiricus)." Forests 14, no. 2 (2023): 261. http://dx.doi.org/10.3390/f14020261.

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In this study, we have analyzed tree stand disturbance by hthe Siberian Silk Moth (Dendrolimus sibiricus Tschetverikov (Lepidoptera: Lasiocampidae)) in Central Siberia (Krasnoyarsk region, Russia) in 2015–2020. We considered two plots that experienced silk moth outbreaks in 2015–2018 and 2018–2020 and used satellite data (Terra/MODIS, Landsat/ETM/OLI), field forest inventory data, a meteorological data set, and a vegetation cover vector layer. Silk moth-disturbed areas were classified using NDVI, which was calculated for each 15-day period during the growing season (April–September). We obtain
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32

Akhanaev, Yuriy B., Sergey V. Pavlushin, Daria D. Kharlamova, et al. "The Impact of a Cypovirus on Parental and Filial Generations of Lymantria dispar L." Insects 14, no. 12 (2023): 917. http://dx.doi.org/10.3390/insects14120917.

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Recently, we found that the spongy moth Lymantria dispar L. is susceptible to infection by a Dendrolimus sibiricus cytoplasmic polyhedrosis virus (DsCPV-1). In the present study, we evaluated the pathogenicity of DsCPV-1 against L. dispar larvae and its impact on surviving insects after the infection. Offspring of virally challenged insects were tested for susceptibility to a stress factor (starvation). In addition, we used light microscopy and quantitative polymerase chain reaction (qPCR) to test the ability of DsCPV-1 to be transmitted vertically. We found insect mortality of the L. dispar p
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33

Sultson, Svetlana M., Andrey A. Goroshko, Sergey V. Verkhovets, et al. "Orographic Factors as a Predictor of the Spread of the Siberian Silk Moth Outbreak in the Mountainous Southern Taiga Forests of Siberia." Land 10, no. 2 (2021): 115. http://dx.doi.org/10.3390/land10020115.

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This research is dedicated to solving an urgent problem associated with the large-scale destruction of taiga forests by Siberian silk moth (Dendrolimus sibiricus) outbreaks. The dynamics of the damage to dark coniferous forest stands induced by the Siberian silk moth outbreaks in mid-altitude mountains were studied. A hypothesis was formulated based on the fundamental influence of the orography on the phytophage’s dispersal within the landscape, along with the climate, which acts as a secondary predictor—a catalyst for outbreaks. The study was carried out using Landsat−8 satellite imagery time
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34

Nifontov, S. V., A. A. Savchenko, and A. N. Gridnev. "Monitoring the development and forecasting of the mass reproduction (gradation) outbreaks of the Dendrolimus sibiricus Tschetv. in the Khabarovsk region." IOP Conference Series: Earth and Environmental Science 316 (September 23, 2019): 012043. http://dx.doi.org/10.1088/1755-1315/316/1/012043.

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35

Sultson, Svetlana M., Andrey A. Goroshko, Denis A. Demidko, Pavel V. Mikhaylov, Olga A. Slinkina, and Nadezhda N. Kulakova. "Analysis of the spatial distribution of the Siberian silk moth outbreak area based on terrain features in the Siberian mountain southern taiga forests." Siberian Journal of Life Sciences and Agriculture 17, no. 1 (2025): 282–307. https://doi.org/10.12731/2658-6649-2025-17-1-1054.

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Background. The degradation of coniferous forests dominated by siberian fir (Abies sibirica Ledeb.) as a consequence of outbreaks of the Siberian silkmoth (Dendrolimus sibiricus Tschetv.) gives rise to considerable environmental and economic damage at the regional level. An improved understanding of the ecology of the pest population in mountainous terrain will facilitate the development of a more effective monitoring system and the use of a digital terrain model to predict the spread of the outbreak. This will allow the implementation of timely active forest protection measures. Purpose. This
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36

Goroshko, Andrey A., Svetlana M. Sultson, Evgenii I. Ponomarev, et al. "Risk Modeling for the Emergence of the Primary Outbreak Area of the Siberian Moth Dendrolimus sibiricus Tschetv. in Coniferous Forests of Central Siberia." Forests 16, no. 1 (2025): 160. https://doi.org/10.3390/f16010160.

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In the southern taiga of Siberia, periodic outbreaks of the Siberian moth Dendrolimus sibrircus Tschetv. have been observed. The outbreaks result in the defoliation of Siberian fir Abies sibirica Ledeb. and Siberian pine Pinus sibirica Du Tour. stands across approximately one million hectares, leading to dieback of the affected forests. This is largely attributable to the inability to promptly identify the onset of the pest population growth in a timely manner, particularly in the context of expansive forest areas with limited accessibility. It is feasible to enhance the efficacy of monitoring
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37

Sultson, S. M., P. V. Mikhailov, A. A. Goroshko, et al. "Ecological Characteristics of the Siberian Silk Moth (Dendrolimus sibiricus) (Insecta, Lasiocampidae) Habitat in the Altai–Sayan Mountain–Boreal Coniferous Forests Region." Biology Bulletin 51, no. 10 (2024): 3129–36. https://doi.org/10.1134/s1062359024700912.

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38

Kovalev, Anton, and Vladislav Soukhovolsky. "Analysis of Forest Stand Resistance to Insect Attack According to Remote Sensing Data." Forests 12, no. 9 (2021): 1188. http://dx.doi.org/10.3390/f12091188.

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Methods for analyzing the resistance of large woodlands (such as Siberian taiga forests) to insect attacks based on remote sensing data are proposed. As an indicator of woodland’s resistance, we suggest a function of normalized difference vegetative index (NDVI) susceptibility to changes in the land surface temperature (LST). Both NDVI and LST are obtained via the TERRA/AQUA satellite system. This indicator function was calculated as the spectral transfer function of the response in the integral equation connecting the changes in NDVI and LST. The analysis was carried out for two test sites, b
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ФАРБЕР, С. К., В. В. СОЛДАТОВ, and Н. С. КУЗЬМИК. "DETERMINATION OF DAMAGE TO FOREST ECOSYSTEMS DISTURBED BY SIBERIAN SILK MOTH." Сибирский лесной журнал, no. 2 (April 30, 2024): 21–33. http://dx.doi.org/10.15372/sjfs20240203.

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Рассмотрены вопросы последовательности расчета ущерба южно-таежным лесам Енисейского, Нижне-Енисейского, Северо-Енисейского лесничеств Красноярского края после вспышки массового размножения сибирского шелкопряда ( Dendrolimus sibiricus Tschetverikov) в 2016-2018 гг. Площадь с различной степенью поражения насаждений составила 803 983 га при общей площади лесотаксационных выделов, на которых зафиксирована гибель древостоя, 2 034 665 га. Принимается положение, что размер ущерба равен разности стоимости насаждения до и после внешнего воздействия. Задача определения ущерба сводится к выявлению стои
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40

Camarero, Jesús Julio, Tatiana A. Shestakova, and Manuel Pizarro. "Threshold Responses of Canopy Cover and Tree Growth to Drought and Siberian silk Moth Outbreak in Southern Taiga Picea obovata Forests." Forests 13, no. 5 (2022): 768. http://dx.doi.org/10.3390/f13050768.

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The consecutive occurrence of drought and insect outbreaks could lead to cumulative, negative impacts on boreal forest productivity. To disentangle how both stressors affected productivity, we compared changes in tree canopy cover and radial growth after a severe outbreak in Siberian spruce (Picea obovata) southern taiga forests. Specifically, we studied the impacts of the 2012 severe drought followed by a Siberian silk moth (Dendrolimus sibiricus, hereafter SSM) outbreak, which started in 2016, on spruce forests by comparing one non-defoliated site and two, nearby fully defoliated sites, usin
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41

Soukhovolsky, V. G., Yu D. Ivanova, and A. V. Kovalev. "The Development of Outbreaks of Forest Insects on Different Spatial Scale." Лесоведение, no. 2 (March 1, 2023): 174–89. http://dx.doi.org/10.31857/s0024114823020092.

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The work is dedicated to the discussion of the possibilities of describing the dynamics of the forest insect outbreaks development on different spatial scales. The properties of outbreaks were considered on a microspatial scale, where the distribution patterns of individuals across different food sources within the boundaries of a local territory or a stand were analysed, and on a macrospatial scale, where the focus of the analysis were the indicators of the photosynthetic apparatus (leaves or needles) removal over the entire territory of the locus, including primary, secondary and migratory l
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42

Kirichenko, Natalia, Julie Flament, Yuri Baranchikov, and Jean-Claude Grégoire. "Larval performances and life cycle completion of the Siberian moth, Dendrolimus sibiricus (Lepidoptera: Lasiocampidae), on potential host plants in Europe: a laboratory study on potted trees." European Journal of Forest Research 130, no. 6 (2011): 1067–74. http://dx.doi.org/10.1007/s10342-011-0495-3.

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43

Tokarev, Yuri, Darya Kireeva, Anastasia Ignatieva, et al. "Ecological vs physiological host specificity: the case of the microsporidium Nosema pyrausta (Paillot) Weiser, 1961." Acta Biologica Sibirica 8 (September 9, 2022): 297–316. https://doi.org/10.5281/zenodo.7703384.

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The microsporidium&nbsp;<em>Nosema pyrausta&nbsp;</em>(Paillot) Weiser, 1961 plays an important role in the mortality of the European corn borer&nbsp;<em>Ostrinia nubilalis&nbsp;</em>(H&uuml;bner, 1796), and shows high virulence to the beet webworm&nbsp;<em>Loxostege sticticalis&nbsp;</em>(Linnaeus, 1761). In contrast, the greater wax moth&nbsp;<em>Galleria mellonella&nbsp;</em>(Linnaeus, 1758) and the gypsy moth&nbsp;<em>Lymantria dispar&nbsp;</em>(Linnaeus, 1758) are referred to as resistant hosts, slightly susceptible to this microparasite. The goal of the present study was to test&nbsp;<em
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44

Kovalev, Anton, Olga Tarasova, Vladislav Soukhovolsky, and Yulia Ivanova. "Is It Possible to Predict a Forest Insect Outbreak? Backtesting Using Remote Sensing Data." Forests 15, no. 8 (2024): 1458. http://dx.doi.org/10.3390/f15081458.

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In this study, methods are proposed for analyzing the susceptibility of forest stands to attacks by forest insects on the basis of Earth remote sensing data. As an indicator of the state of forest stands, we proposed to use a parameter of the sensitivity of a vegetation index (normalized difference vegetation index; NDVI) during a vegetative period to changes in the radiative temperature of the territory (land surface temperature; LST) determined from satellite data of the Terra/Aqua system. The indicator was calculated as a spectrum of a response function in an integral equation linking chang
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45

Rusetskaya, G. D., and L. P. Baldanova. "Problems of Ecology and Forest Protection in the Irkutsk Region." Ecology and Industry of Russia 24, no. 4 (2020): 42–45. http://dx.doi.org/10.18412/1816-0395-2020-4-42-45.

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The main causes of drying out and loss of forest stands in the Irkutsk region are identified, the dynamics of losses of forest territories over a tenyear period from 2007 to 2017 is presented. It was revealed that the main causes affecting the state of forest plantations are fires, diseases of woody plants, in particular coniferous bacteriosis (bacterial dropsy of Siberian cedar pine (Pinus sibirica)) and dendrophage insects (Siberian cocoonworm (Dendrolimus superans Butler)). Suggestions have been made to improve the organization and conduct of forest protection and forestry activities.
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46

Bulakhova, Nina A., Zoya A. Zhigulskaya, Lyudmila P. Gashkova, and Daniil I. Berman. "On cold hardiness of the egg parasitoid wasp Telenomus tetratomus (Thomson, 1861) (Hymenoptera, Scelionidae) – a population regulator of the Siberian moth." Journal of Hymenoptera Research 91 (June 30, 2022): 27–39. https://doi.org/10.3897/jhr.91.83765.

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Among the factors contributing to the initiation of outbreaks of the Siberian moth, a dangerous pest of the coniferous forests of Northern Eurasia, it is considered important to reduce the regulatory impact of entomophages. One of the most effective regulators of the pest abundance is the egg parasitoid wasp Telenomus tetratomus (Thomson, 1861). There is an established opinion that T. tetratomus is less cold-resistant than caterpillars of the Siberian moth, and outbreaks of the pest are provoked by cold winters, during which conditions (low temperatures and low snow cover depth) are tolerated
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47

Kovalev, A. V., and P. E. Tsikalova. "Predictors of Insect Damage to Forest Stands According to Satellite Data Using the Siberian Silkmoth Dendrolimis Sibiricus Tschetv as an Example." Russian Journal of Ecology 54, no. 6 (2023): 602–10. http://dx.doi.org/10.1134/s1067413623070081.

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48

"Dendrolimus sibiricus and Dendrolimus superans." EPPO Bulletin 35, no. 3 (2005): 390–95. http://dx.doi.org/10.1111/j.1365-2338.2005.00878.x.

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49

"Dendrolimus superans sibiricus. [Distribution map]." Distribution Maps of Plant Pests, No.June (August 1, 2007). http://dx.doi.org/10.1079/dmpp/20073108411.

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Abstract A new distribution map is provided for Dendrolimus superans sibiricus (Tschetv). Lepidoptera: Lasiocampidae. Hosts: Khingan, Sakhalin and Siberian fir (Abies nephrolepis, Abies sachalinensis, Abies sibirica), Dahurian and Siberian larch (Larix gmelinii, Larix sibirica), Yeddo and Siberian spruce (Picea jezoensis, Picea obovata), fruit pine (Pinus korainensis) and Pinus sibirica. Information is given on the geographical distribution in Europe (Russia, Central Russia, Eastern Siberia, Far East and Western Siberia) and Asia (China, Heilongjiang, Jilin, Liaoning, Nei Menggu, Kazakhstan, K
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50

Jeger, Michael, Claude Bragard, David Caffier, et al. "Pest categorisation of Dendrolimus sibiricus." EFSA Journal 16, no. 6 (2018). http://dx.doi.org/10.2903/j.efsa.2018.5301.

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