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Scandinavian Journal of Forest Research Volume 4, 1989 - Issue 1-4
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Original Articles

Estimating risks for spruce bark beetle (Ips typographus (L.)) damage using pheromone‐baited traps and trees

Jan Weslien Swedish University of Agricultural Sciences, Division of Forest Entomology, Box 7044, Uppsala, S‐75007, Sweden
,
Erkki Annila Finnish Forest Research Institute, Department of Forest Protection, Pl 18, Vantaa, SF‐01301, Finland
,
Alf Bakke Norwegian Forest Research Institute, Department of Forest Protection, Box 61, Ås‐NLH, N‐1432, Norway
,
Broder Bejer Royal Veterinary and Agricultural University, Department of Zoology, Bülowsvej 13, Fredriksberg C,Copenhagen, DK‐1870, Denmark
,
Hubertus H. Eidmann Swedish University of Agricultural Sciences, Division of Forest Entomology, Box 7044, Uppsala, S‐75007, Sweden
,
Knut Narvestad Norwegian Forest Research Institute, Department of Forest Protection, Box 61, Ås‐NLH, N‐1432, Norway
,
Ari Nikula Finnish Forest Research Institute, Department of Forest Protection, Pl 18, Vantaa, SF‐01301, Finland
&
Hans Peter Ravn Royal Veterinary and Agricultural University, Department of Zoology, Bülowsvej 13, Fredriksberg C,Copenhagen, DK‐1870, Denmark
 show all
Pages 87-98 | Accepted 27 May 1988, Published online: 10 Dec 2008

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Read on this site (6)

J. Lubojacký & J. Holuša. (2014) Attraction of Ips typographus (Coleoptera: Curculionidae) beetles by lure-baited insecticide-treated tripod trap logs and trap trees. International Journal of Pest Management 60:3, pages 153-159.
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Massimo Faccoli, Valerio Finozzi & Fernanda Colombari. (2012) Effectiveness of different trapping protocols for outbreak management of the engraver pine beetle Ips acuminatus (Curculionidae, Scolytinae). International Journal of Pest Management 58:3, pages 267-273.
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Miikka Eriksson, Seppo Neuvonen & Heikki Roininen. (2007) Retention 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 22:6, pages 516-523.
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Mikko Peltonen. (1999) Windthrows and Dead-standing Trees as Bark Beetle Breeding Material at Forest-clearcut Edge. Scandinavian Journal of Forest Research 14:6, pages 505-511.
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Fredrik Schlyter & Ulf Lundgren. (1993) Distribution of a bark beetle and its predator within and outside old growth forest reserves: No increase of hazard near reserves. Scandinavian Journal of Forest Research 8:1-4, pages 246-256.
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Hanne Hübertz, Jan René Larsen & Broder Bejer. (1991) Monitoring spruce bark beetle (Ips typographus (L.)) populations under non‐epidemic conditions. Scandinavian Journal of Forest Research 6:1-4, pages 217-226.
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Articles from other publishers (45)

Davide Nardi, Hervé Jactel, Elodie Pagot, Jean‐Charles Samalens & Lorenzo Marini. (2022) Drought and stand susceptibility to attacks by the European spruce bark beetle: A remote sensing approach. Agricultural and Forest Entomology 25:1, pages 119-129.
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. (2022) Ips typographus (eight-toothed bark beetle). CABI Compendium CABI Compendium.
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Tobias Heber, Christiane E. Helbig, Sören Osmers & Michael G. Müller. (2021) Evaluation of Attractant Composition, Application Rate, and Trap Type for Potential Mass Trapping of Ips typographus (L.). Forests 12:12, pages 1727.
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Nina Šramel, Andreja Kavčič, Marija Kolšek & Maarten Groot. (2021) Estimating the most effective and economical pheromone for monitoring the European spruce bark beetle. Journal of Applied Entomology 145:4, pages 312-325.
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Wojciech Grodzki. (2021) Do pheromone trapping always reflect Ips typographus (L.) population level? A study from the Tatra National Park in Poland . Folia Forestalia Polonica 63:1, pages 36-47.
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Anne-Maarit Hekkala, Simon Kärvemo, Martijn Versluijs, Jan Weslien, Christer Björkman, Therese Löfroth & Joakim Hjältén. (2021) Ecological restoration for biodiversity conservation triggers response of bark beetle pests and their natural predators. Forestry: An International Journal of Forest Research 94:1, pages 115-126.
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Juha Honkaniemi, Risto Ojansuu, Risto Kasanen & Kari Heliövaara. (2018) Interaction of disturbance agents on Norway spruce: A mechanistic model of bark beetle dynamics integrated in simulation framework WINDROT. Ecological Modelling 388, pages 45-60.
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Gonca Ece Özcan, Osman Çіçek, Korhan Enez & Mustafa Yildiz. (2018) A new design of electronic control unit involving microcontroller to determine important parameters for target species in forest. Environmental Monitoring and Assessment 190:10.
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José F. NegrónJohn B. Popp. (2017) Can spruce beetle ( Dendroctonus rufipennis K irky) pheromone trap catches or stand conditions predict E ngelmann spruce ( Picea engelmannii P arry ex E ngelm.) tree mortality in C olorado? . Agricultural and Forest Entomology 20:2, pages 162-169.
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Jeremy D. AllisonRichard A. Redak. (2017) The Impact of Trap Type and Design Features on Survey and Detection of Bark and Woodboring Beetles and Their Associates: A Review and Meta-Analysis. Annual Review of Entomology 62:1, pages 127-146.
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Brian T. Sullivan, Cavell Brownie & JoAnne P. Barrett. (2016) Intra-Annual Variation in Responses by Flying Southern Pine Beetles (Coleoptera: Curculionidae: Scolytinae) to Pheromone Component endo -Brevicomin . Journal of Economic Entomology 109:4, pages 1720-1728.
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Christopher J. Fettig & Jacek Hilszczański. 2015. Bark Beetles. Bark Beetles 555 584 .
J. Lubojacký & J. Holuša. (2014) Effect 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 60:1, pages 6-11.
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Sunil Tewari, Tracy C. Leskey, Anne L. Nielsen, Jaime C. Piñero & Cesar R. Rodriguez-Saona. 2014. Integrated Pest Management. Integrated Pest Management 141 168 .
Leif Martin Schroeder. (2013) Monitoring of Ips typographus and Pityogenes chalcographus : influence of trapping site and surrounding landscape on catches . Agricultural and Forest Entomology 15:2, pages 113-119.
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Shou-An Xie & Shu-Jie Lv. (2013) Effect of different semiochemicals blends on spruce bark beetle, Ips typographus (Coleoptera: Scolytidae) . Entomological Science 16:2, pages 179-190.
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Cihan Cilbircioğlu & Sabri Ünal. (2012) Bark Beetles and their Natural Enemies on Oriental Spruce from the Black Sea Region of Turkey. Journal of Agricultural and Urban Entomology 28:1, pages 42-56.
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Bjørn Økland, Nadir Erbilgin, Olav Skarpaas, Erik Christiansen & Bo Långström. (2011) Inter-species interactions and ecosystem effects of non-indigenous invasive and native tree-killing bark beetles. Biological Invasions 13:5, pages 1151-1164.
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Rudolf Wegensteiner, Charles‐Antoine Dedryver & Jean‐Sébastien Pierre. (2010) The comparative prevalence and demographic impact of two pathogens in swarming Ips typographus adults: a quantitative analysis of long term trapping data . Agricultural and Forest Entomology 12:1, pages 49-57.
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Olav Skarpaas & Bjørn Økland. (2009) Timber import and the risk of forest pest introductions. Journal of Applied Ecology 46:1, pages 55-63.
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Leif Martin Schroeder. 2008. Sustainable Use of Forest Biomass for Energy. Sustainable Use of Forest Biomass for Energy 109 128 .
Anna Maria Jönsson, Susanne Harding, Lars Bärring & Hans Peter Ravn. (2007) Impact of climate change on the population dynamics of Ips typographus in southern Sweden. Agricultural and Forest Meteorology 146:1-2, pages 70-81.
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Rupert Seidl, Peter Baier, Werner Rammer, Axel Schopf & Manfred J. Lexer. (2007) Modelling tree mortality by bark beetle infestation in Norway spruce forests. Ecological Modelling 206:3-4, pages 383-399.
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Leif Martin Schroeder. (2007) Escape in space from enemies: a comparison between stands with and without enhanced densities of the spruce bark beetle. Agricultural and Forest Entomology 9:2, pages 85-91.
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E Matthew Hansen, Barbara J Bentz, A Steven Munson, James C Vandygriff & David L Turner. (2006) Evaluation of funnel traps for estimating tree mortality and associated population phase of spruce beetle in Utah. Canadian Journal of Forest Research 36:10, pages 2574-2584.
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Bjørn Økland & Ottar N. Bjørnstad. (2006) A RESOURCE-DEPLETION MODEL OF FOREST INSECT OUTBREAKS. Ecology 87:2, pages 283-290.
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Beat Wermelinger. (2004) Ecology and management of the spruce bark beetle Ips typographus—a review of recent research. Forest Ecology and Management 202:1-3, pages 67-82.
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Bjorn Okland & Alan Berryman. (2004) Resource dynamic plays a key role in regional fluctuations of the spruce bark beetles Ips typographus. Agricultural and Forest Entomology 6:2, pages 141-146.
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P. O. Hedgren. (2004) The bark beetle Pityogenes chalcographus (L.) (Scolytidae) in living trees: reproductive success, tree mortality and interaction with Ips typographus. Journal of Applied Entomology 128:3, pages 161-166.
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Bjørn Økland & Ottar N. Bjørnstad. (2003) Synchrony and geographical variation of the spruce bark beetle ( Ips typographus ) during a non‐epidemic period . Population Ecology 45:3, pages 213-219.
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L.M Schroeder. (2003) Differences in responses to α-pinene and ethanol, and flight periods between the bark beetle predators Thanasimus femoralis and T. formicarius (Col.: Cleridae). Forest Ecology and Management 177:1-3, pages 301-311.
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Per Olof Hedgren, L. Martin Schroeder & Jan Weslien. (2003) Tree killing by Ips typographus (Coleoptera: Scolytidae) at stand edges with and without colonized felled spruce trees. Agricultural and Forest Entomology 5:1, pages 67-74.
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L. Martin Schroeder & Ake Lindelow. (2002) Attacks on living spruce trees by the bark beetle Ips typographus (Col. Scolytidae) following a storm-felling: a comparison between stands with and without removal of wind-felled trees. Agricultural and Forest Entomology 4:1, pages 47-56.
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Lars Wichmann & Hans Peter Ravn. (2001) The spread of Ips typographus (L.) (Coleoptera, Scolytidae) attacks following heavy windthrow in Denmark, analysed using GIS. Forest Ecology and Management 148:1-3, pages 31-39.
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Mikko Peltonen & Kari Heliövaara. (2001) Attack density and breeding success of bark beetles (Coleoptera, Scolytidae) at different distances from forest‐clearcut edge. Agricultural and Forest Entomology 1:4, pages 237-242.
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L.M Schroeder, Jan Weslien, Åke Lindelöw & Anders Lindhe. (1999) Attacks by bark- and wood-boring Coleoptera on mechanically created high stumps of Norway spruce in the two years following cutting. Forest Ecology and Management 123:1, pages 21-30.
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Paal Krokene & Halvor Solheim. (1998) Pathogenicity of Four Blue-Stain Fungi Associated with Aggressive and Nonaggressive Bark Beetles. Phytopathology® 88:1, pages 39-44.
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Qing-He Zhang & Fredrik Schlyter. (1996) High recaptures and long sampling range of pheromone traps for fall web worm mothHyphantria cunea (Lepidoptera: Arctiidae) males. Journal of Chemical Ecology 22:10, pages 1783-1796.
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R. Gonzalez, J.-C. Grégoire, A. Drumont & N. Windt. (1996) A sampling technique to estimate within-tree populations of pre-emergent Ips typographus (Col., Scolytidae) . Journal of Applied Entomology 120:1-5, pages 569-576.
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J. Weslien. (1992) Monitoring Ips typographus (L.) populations and forecasting damage . Journal of Applied Entomology 114:1-5, pages 338-340.
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A. Bakke. (1992) Monitoring bark beetle populations: effects of temperature. Journal of Applied Entomology 114:1-5, pages 208-211.
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J. H. Borden. (1992) Two tree baiting tactics for the management of bark beetles with semiochemicals. Journal of Applied Entomology 114:1-5, pages 201-207.
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D. Klimetzek & L. Schlenstedt. (1991) Waldschutz gegen Borkenkäfer: Der Beitrag von Duftstoffmeteorologie und PopulationsdynamikBark beetle control: contribution of pheromone meteorology and population dynamics. Anzeiger für Schädlingskunde Pflanzenschutz Umweltschutz 64:7, pages 121-128.
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J. P. Vit� & E. Baader. (1990) Present and future use of semiochemicals in pest management of bark beetles. Journal of Chemical Ecology 16:11, pages 3031-3041.
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J. Weslien & J. Regnander. (1990) Colonization densities and offspring production in the bark beetle Ips typographus (L.) in standing spruce trees . Journal of Applied Entomology 109:1-5, pages 358-366.
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