Modelling the potential impact of global warming on Ips typographus voltinism and reproductive diapause

The Eurasian spruce bark beetle, Ips typographus , is one of the major forest insect pests in Europe, capable of mass-attacking and killing mature Norway spruce trees. The initiation and development of a new generation are strongly controlled by temperature and a warmer climate may affect the number...

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Veröffentlicht in:	Climatic change 2011-12, Vol.109 (3-4), p.695-718
Hauptverfasser:	Jönsson, Anna Maria, Harding, Susanne, Krokene, Paal, Lange, Holger, Lindelöw, Åke, Økland, Bjørn, Ravn, Hans Peter, Schroeder, Leif Martin
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal and plant ecology Animal, plant and microbial ecology Animals Atmospheric Sciences Bark Biological and medical sciences Climate change Climate Change/Climate Change Impacts Climate models Climatic conditions Climatology. Bioclimatology. Climate change Demecology Earth and Environmental Science Earth and Related Environmental Sciences Earth Sciences Earth, ocean, space Environmental Sciences related to Agriculture and Land-use Exact sciences and technology External geophysics Fundamental and applied biological sciences. Psychology Geovetenskap och miljövetenskap Global warming Hibernation High temperature Life sciences Meteorology Miljö- och naturvårdsvetenskap Natural Sciences Naturgeografi Naturvetenskap Phenology Physical Geography Phytopathology. Animal pests. Plant and forest protection Pine trees Protozoa. Invertebrata Protozoa. Invertebrates Records, symptoms, damages, economic importance, population surveys Temperature Trees
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container_title	Climatic change
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creator	Jönsson, Anna Maria Harding, Susanne Krokene, Paal Lange, Holger Lindelöw, Åke Økland, Bjørn Ravn, Hans Peter Schroeder, Leif Martin
description	The Eurasian spruce bark beetle, Ips typographus , is one of the major forest insect pests in Europe, capable of mass-attacking and killing mature Norway spruce trees. The initiation and development of a new generation are strongly controlled by temperature and a warmer climate may affect the number of generations that is produced per year and hence the outbreak dynamics. Experimental knowledge regarding reproductive diapause adaptations is, however, too sparse for large-scale assessments of future trends. We developed a model description of diapause induction, and used gridded observational temperature data to evaluate multiple combinations of day length and temperature thresholds to find the model parameterisation most coherent with I. typographus monitoring data from Scandinavia. The selected model parameterisation is supported by European literature data, though further experimental studies are required to analyse population specific adaptations and capacity for adjustments to changing climate conditions. Implementing the model description of reproductive diapause in a temperature driven model of bark beetle phenology (swarming activity and development from egg to mature bark beetle), enabled us to assess the length of the late summer swarming period that is a critical determinant of the risk of forest damage. By using regional climate model data we show that higher temperatures can result in increased frequency and length of late summer swarming events, producing a second generation in southern Scandinavia and a third generation in lowland parts of central Europe. Reproductive diapause will not prevent the occurrence of an additional generation per year, but the day length cues may restrict the length of the late summer swarming period.
doi_str_mv	10.1007/s10584-011-0038-4
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Implementing the model description of reproductive diapause in a temperature driven model of bark beetle phenology (swarming activity and development from egg to mature bark beetle), enabled us to assess the length of the late summer swarming period that is a critical determinant of the risk of forest damage. By using regional climate model data we show that higher temperatures can result in increased frequency and length of late summer swarming events, producing a second generation in southern Scandinavia and a third generation in lowland parts of central Europe. 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The initiation and development of a new generation are strongly controlled by temperature and a warmer climate may affect the number of generations that is produced per year and hence the outbreak dynamics. Experimental knowledge regarding reproductive diapause adaptations is, however, too sparse for large-scale assessments of future trends. We developed a model description of diapause induction, and used gridded observational temperature data to evaluate multiple combinations of day length and temperature thresholds to find the model parameterisation most coherent with I. typographus monitoring data from Scandinavia. The selected model parameterisation is supported by European literature data, though further experimental studies are required to analyse population specific adaptations and capacity for adjustments to changing climate conditions. 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subjects	Animal and plant ecology Animal, plant and microbial ecology Animals Atmospheric Sciences Bark Biological and medical sciences Climate change Climate Change/Climate Change Impacts Climate models Climatic conditions Climatology. Bioclimatology. Climate change Demecology Earth and Environmental Science Earth and Related Environmental Sciences Earth Sciences Earth, ocean, space Environmental Sciences related to Agriculture and Land-use Exact sciences and technology External geophysics Fundamental and applied biological sciences. Psychology Geovetenskap och miljövetenskap Global warming Hibernation High temperature Life sciences Meteorology Miljö- och naturvårdsvetenskap Natural Sciences Naturgeografi Naturvetenskap Phenology Physical Geography Phytopathology. Animal pests. Plant and forest protection Pine trees Protozoa. Invertebrata Protozoa. Invertebrates Records, symptoms, damages, economic importance, population surveys Temperature Trees
title	Modelling the potential impact of global warming on Ips typographus voltinism and reproductive diapause
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