Publications for:
pest = Ips typographus
crop = Spruce (Picea)
for the years 2006-2023 (descending)
found 76 publications:
2023
Drought and stand susceptibility to attacks by the European spruce bark beetle: A remote sensing approach
Agricultural and Forest Entomology (2023) 25 (1), 119-129
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pestinfo wikiEvolutionary ecology of the bark beetles
Ips typographus and
Pityogenes chalcographusBulletin of Entomological Research (2023) 113 (1), 1-10
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pestinfo wikiPatterns, drivers and detectability of infestation symptoms following attacks by the European spruce bark beetle
Journal of Pest Science (2023) 96 (1), 403-414
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pestinfo wikiAddressing a century-old hypothesis – do pioneer beetles of
Ips typographus use volatile cues to find suitable host trees?
New Phytologist (2023) 237 (5), 1762-1770
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pestinfo wiki2022
Thermal sum requirements for development and flight initiation of new-generation spruce bark beetles based on seasonal change in cuticular colour of trapped beetles
Agricultural and Forest Entomology (2022) 24 (3), 405-421
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pestinfo wikiWeak population genetic structure in Eurasian spruce bark beetle over large regional scales in Sweden
Ecology and Evolution (2022) 12 (7 - e9078)
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pestinfo wikiA new outbreak of the European spruce bark beetle,
Ips typographus (L.) (Coleoptera, Curculionidae) in Leningrad Province
Entomological Review (2022) 102 (2), 303-313
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pestinfo wikiRemote sensing assessment of the expansion of
Ips typographus attacks in the Chuprene Reserve, western Balkan range
Forests (2022) 13 (1 - 39)
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pestinfo wikiHow bark beetle attack changes the tensile and compressive strength of spruce wood (
Picea abies (L.) H. Karst.)
Forests (2022) 13 (1 - 87)
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pestinfo wikiDisturbance severity and human–nature relationships: A new approach to analyze people’s well-being along a bark beetle infestation gradient
Forests (2022) 13 (11 - 1954)
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pestinfo wikiTesting the efficiency of the push-and-pull strategy during severe
Ips typographus outbreak and extreme drought in Norway spruce stands
Forests (2022) 13 (12 - 2175)
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pestinfo wiki Wind damage and temperature effect on tree mortality caused by
Ips typographus L.: Phase transition model
Forests (2022) 13 (2 - 180)
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pestinfo wikiEuropean spruce bark beetle,
Ips typographus (L.) males are attracted to bark cores of drought-stressed Norway spruce trees with impaired defenses in petri dish choice experiments
Forests (2022) 13 (4 - 537)
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pestinfo wikiEffect of entomopathogenic fungi,
Beauveria bassiana (Cordycipitaceae), on the bark beetle,
Ips typographus (L.), under field conditions
Insects (2022) 13 (10 - 885)
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pestinfo wikiFacultative and obligate diapause phenotypes in populations of the European spruce bark beetle
Ips typographusJournal of Pest Science (2022) 95 (2), 889-899
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pestinfo wiki2021
Abundance, not diversity, of host beetle communities determines abundance and diversity of parasitoids in deadwood
Ecology and Evolution (2021) 11 (11), 6881-6888
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pestinfo wikiChanges of Norway spruce health in the Bialowieza forest (CE Europe) in 2013–2019 during a bark beetle infestation, studied with Landsat imagery
Forests (2021) 12 (1 - 34)
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pestinfo wikiAre climates in Canada and the United States suitable for the European spruce bark beetle,
Ips typographus, and its fungal associate,
Endoconidiophora polonica?
Forests (2021) 12 (12 - 1725)
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pestinfo wikiEvaluation of attractant composition, application rate, and trap type for potential mass trapping of
Ips typographus (L.)
Forests (2021) 12 (12 - 1727)
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pestinfo wikiEvaluation of early bark beetle infestation localization by drone-based monoterpene detection
Forests (2021) 12 (2 - 228)
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pestinfo wikiPrivate forest owner characteristics affect European spruce bark beetle management under an extreme weather event and host tree density
Forests (2021) 12 (3 - 346)
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pestinfo wikiAssociations of phoretic mites on bark beetles of the genus
Ips in the Black Sea mountains of Turkey
Forests (2021) 12 (5 - 516)
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pestinfo wikiFilamentous fungi and yeasts associated with mites phoretic on
Ips typographus in eastern Finland
Forests (2021) 12 (6 - 743)
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pestinfo wikiThe effects of the management strategies on spruce bark beetles populations (
Ips typographus and
Pityogenes chalcographus), in Apuseni Natural Park, Romania
Forests (2021) 12 (6 - 760)
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pestinfo wikiFunctional investigation of monoterpenes for improved understanding of the relationship between hosts and bark beetles
Journal of Applied Entomology (2021) 145 (4), 303-311
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pestinfo wikiInteractions among Norway spruce, the bark beetle
Ips typographus and its fungal symbionts in times of drought
Journal of Pest Science (2021) 94 (3), 591-614
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pestinfo wiki2020
Contrasting vulnerability of monospecific and species-diverse forests to wind and bark beetle disturbance: The role of management
Ecology and Evolution (2020) 10 (21), 12233-12245
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pestinfo wikiDrivers of spruce bark beetle (
Ips typographus) infestations on downed trees after severe windthrow
Forests (2020) 11 (12 - 1290)
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pestinfo wikiHealth assessment and genetic structure of monumental Norway spruce trees during a bark beetle (
Ips typographus L.) outbreak in the Bialowieza forest district, Poland
Forests (2020) 11 (6 - 647)
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pestinfo wikiEffects of heat on the dispersal performance of
Ips typographusJournal of Applied Entomology (2020) 144 (1-2), 144-151
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pestinfo wiki2019
Styrene, (+)-trans-(1
R,4
S,5
S)-4-thujanol and oxygenated monoterpenes related to host stress elicit strong electrophysiological responses in the bark beetle
Ips typographusJournal of Chemical Ecology (2019) 45 (5-6), 474-489
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pestinfo wikiOphiostomatoid fungi associated with the spruce bark beetle
Ips typographus, including 11 new species from China
Persoonia (2019) 42, 50-74
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pestinfo wiki2018
Performance of the tree-killing bark beetles
Ips typographus and
Pityogenes chalcographus in non-indigenous lodgepole pine and their historical host Norway spruce
Agricultural and Forest Entomology (2018) 20 (3), 347-357
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pestinfo wiki2017
Climate drivers of bark beetle outbreak dynamics in Norway spruce forests
Ecography (2017) 40 (12), 1426-1435
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pestinfo wikiA two-year study of parasitoid entomofauna associated with spruce bark beetles (Coleoptera: Curculionidae) in the altimontane belt of Slovenia (Pohorje)
Phytoparasitica (2017) 45 (2), 135-145
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pestinfo wikiGene pool state and degree of infestation by bark beetle (
Ips typographus L.) of Norway spruce (
Picea abies L. Karst.) natural populations and planted stands in Moscow region
Russian Journal of Genetics (2017) 53 (4), 445-454
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pestinfo wiki2016
Fine fluorescent powder marking study of dispersal in the spruce bark beetle,
Ips typographus (Coleoptera: Scolytidae)
European Journal of Entomology (2016) 113, 1-8
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pestinfo wikiVirulence and horizontal transmission of
Beauveria pseudobassiana S.A. Rehner and Humber in
Ips sexdentatus and
Ips typographus (Coleoptera: Curculionidae)
Turkish Journal of Agriculture and Forestry (2016) 40 (2), 241-248
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pestinfo wiki2015
The primer fITS9 prevents chimera formation during fungal DNA amplification in a bark beetle DNA background
Forest Pathology (2015) 45 (1), 9-13
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pestinfo wikiResponse of mountain
Picea abies forests to stand-replacing bark beetle outbreaks: neighbourhood effects lead to self-replacement
Journal of Applied Ecology (2015) 52 (5), 1402-1411
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pestinfo wikiThe alpha-cypermethrin coated net for protecting Norway spruce wood against bark beetles (Curculionidae, Scolytinae)
Journal of Plant Protection Research (2015) 55 (2), 156-161
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pestinfo wikiDo water-limiting conditions predispose Norway spruce to bark beetle attack?
New Phytologist (2015) 205 (3), 1128-1141
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pestinfo wiki2014
Distribution of Norway spruce bark and wood-boring beetles along Alpine elevational gradients
Agricultural and Forest Entomology (2014) 16 (2), 111-118
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pestinfo wikiVolatiles from spruce trap-trees detected by
Ips typographus bark beetles: chemical and electrophysiological analyses
Arthropod-Plant Interactions (2014) 8 (4), 305-316
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pestinfo wikiEffect of insecticide-treated trap logs and lure traps for
Ips typographus(Coleoptera: Curculionidae) management on nontarget arthropods catching in Norway spruce stands
Journal of Forest Science (2014) 60 (1), 6-11
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pestinfo wikiMitochondrial DNA haplotypes indicate two postglacial re-colonization routes of the spruce bark beetle
Ips typographus through northern Europe to Scandinavia
Journal of Zoological Systematics and Evolutionary Research (2014) 52 (4), 285-292
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pestinfo wiki2013
Synchronous rise and fall of bark beetle and parasitoid populations in windthrow areas
Agricultural and Forest Entomology (2013) 15 (3), 301-309
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pestinfo wikiA predictive framework to assess spatio-temporal variability of infestations by the European spruce bark beetle
Ecography (2013) 36 (11), 1208-1217
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pestinfo wikiEffect of different semiochemicals blends on spruce bark beetle,
Ips typographus (Coleoptera: Scolytidae)
Entomological Science (2013) 16 (2), 179-190
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pestinfo wikiDivergent evolutionary histories of two sympatric spruce bark beetle species
Molecular Ecology (2013) 22 (12), 3318-3332
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pestinfo wikiCharacterization of fungal communities associated with the bark beetle
Ips typographus varies depending on detection method, location, and beetle population levels
Mycological Progress (2013) 12 (1), 127-140
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pestinfo wiki2012
An Innovative method for sex determination of the European spruce bark beetle
Ips typographus (Coleoptera: Scolytinae)
Entomologia Generalis (2012) 34 (1-2), 111-118
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pestinfo wikiInducibility of chemical defenses in Norway spruce bark is correlated with unsuccessful mass attacks by the spruce bark beetle
Oecologia (2012) 170 (1), 183-198
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pestinfo wikiDeclining bark beetle densities (
Ips typographus, Coleoptera: Scolytinae) from infested Norway spruce stands and possible implications for management
Psyche (2012) 2012 (321084), 1-7
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pestinfo wiki2011
Inter-species interactions and ecosystem effects of non-indigenous invasive and native tree-killing bark beetles
Biological Invasions (2011) 13 (5), 1151-1164
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pestinfo wikiIps typographus population development after a severe storm in a nature reserve in southern Sweden
Journal of Applied Entomology (2011) 135 (1-2), 132-141
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pestinfo wikiSemiochemical diversity diverts bark beetle attacks from Norway spruce edges
Journal of Applied Entomology (2011) 135 (10), 726-737
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pestinfo wikiHost resistance elicited by methyl jasmonate reduces emission of aggregation pheromones by the spruce bark beetle,
Ips typographusOecologia (2011) 167 (3), 691-699
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pestinfo wikiDetermination and pathogenicity of the bacterial flora associated with the spruce bark beetle,
Ips typographus (L.) (Coleoptera: Curculionidae: Scolytinae)
Turkish Journal of Biology (2011) 35 (1), 9-20
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pestinfo wiki2010
Colonization of storm gaps by the spruce bark beetle: influence of gap and landscape characteristics
Agricultural and Forest Entomology (2010) 12 (1), 29-39
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pestinfo wikiFungi isolated from
Picea abies infested by the bark beetle
Ips typographus in the Bialowieza forest in north-eastern Poland
Forest Pathology (2010) 40 (2), 100-110
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pestinfo wikiMerocoenoses of cambioxylophagous insect fauna of Norway spruce (
Picea abies [L.] Karst.) with focus on bark beetles (Coleoptera: Scolytidae) and types of tree damage in different gradation conditions
Journal of Forest Science (2010) 56 (10), 474-484
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pestinfo wikiOphiostoma spp. associated with pine- and spruce-infesting bark beetles in Finland and Russia
Persoonia (2010) 25, 72-93
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pestinfo wikiEight new
Leptographium species associated with tree-infesting bark beetles in China
Persoonia (2010) 25, 94-108
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pestinfo wikiDifferences in bark beetle (
Ips typographus and
Pityogenes chalcographus) abundance in a strict spruce reserve and the surrounding spruce forests of Serbia
Phytoparasitica (2010) 38 (1), 31-37
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pestinfo wikiDistribution of the double-spined spruce bark beetle
Ips duplicatus in the Czech Republic: spreading in 1997-2009
Phytoparasitica (2010) 38 (5), 435-443
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pestinfo wiki2007
A host monoterpene influences
Ips typographus (Coleoptera: Curculionidae, Scolytinae) responses to its aggregation pheromone
Agricultural and Forest Entomology (2007) 9 (2), 135-140
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pestinfo wikiPhylogeography of a host-specific insect: genetic structure of
Ips typographus in Europe does not reflect past fragmentation of its host
Biological Journal of the Linnean Society (2007) 90 (2), 239-246
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pestinfo wikiInsect natural enemies of
Ips typographus (L.) (Coleoptera, Scolytinae) in managed and unmanaged stands of mixed lowland forest in Poland
Journal of Pest Science (2007) 80 (2), 99-107
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pestinfo wikiUntersuchungen über das Auftreten and die Dynamik von Pathogenen bei
Ips typographus (Coleoptera, Scolytinae) in Befallsherden unter besonderer Berücksichtigung von Protozoen
[On the occurrence and dynamics of pathogens of
Ips typographus (Coleoptera, Scolytinae) in infested trees, with particular reference to protozoans]
Mitteilungen der Schweizerischen Entomologischen Gesellschaft (2007) 80, 79-90
pestinfo wikiRetention of wind-felled trees and the risk of consequential tree mortality by the European spruce bark beetle
Ips typographus in Finland
Scandinavian Journal of Forest Research (2007) 22 (6), 516-523
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pestinfo wikiRetention or salvage logging of standing trees killed by the spruce bark beetle
Ips typographus: Consequences for dead wood dynamics and biodiversity
Scandinavian Journal of Forest Research (2007) 22 (6), 524-530
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pestinfo wiki2006
A practical method for predicting the short-time trend of bivoltine populations of
Ips typographus (L.) (Col., Scolytidae)
Journal of Applied Entomology (2006) 130 (1), 61-66
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pestinfo wikiThe role of semiochemicals in tritrophic interactions between the spruce bark beetle
Ips typographus, its predators and infested spruce
Journal of Applied Entomology (2006) 130 (5), 275-283
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pestinfo wikiSpruce windfalls and cambioxylophagous fauna in an area with the basic and outbreak state of
Ips typographus (L.)
Journal of Forest Science (2006) 52 (11), 497-509
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pestinfo wikiExogenous application of methyl jasmonate elicits defenses in Norway spruce (
Picea abies) and reduces host colonization by the bark beetle
Ips typographusOecologia (2006) 148 (3), 426-436
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pestinfo wiki