| 1. |
- Björkman, Christer, et al.
(författare)
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Insect Pests in Future Forests: More Severe Problems?
- 2011
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Ingår i: Forests. - : MDPI AG. - 1999-4907. ; 2, s. 474-485
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Tidskriftsartikel (refereegranskat)abstract
- Abstract: A common concern is that damage by insects will increase in forests as a consequence of climate change. We are assessing the likelihood of this predicted outcome by examining how other factors (especially changes in forest management practices) may interact with effects of climate change. Here we describe the strategies for improving understanding of the causes of insect outbreaks and predicting the likelihood of insect-mediated damage increasing in the future. The adopted approaches are: (i) analyses of historical data, (ii) comparison of life history traits of outbreak and non-outbreak species, (iii) experiments along climatic gradients to quantify the strength of trophic interactions, and (iv) modeling. We conclude that collaboration by researchers from many disciplines is required to evaluate available data regarding the complex interactions involved, to identify knowledge gaps, and facilitate attempts to progress beyond speculation to more robust predictions concerning future levels of insect damage to forests
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| 2. |
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| 3. |
- Kollberg, Ida, et al.
(författare)
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Multiple effects of temperature, photoperiod and food quality on the performance of a pine sawfly
- 2013
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Ingår i: Ecological Entomology. - : Wiley. - 0307-6946 .- 1365-2311. ; 38, s. 201-208
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Tidskriftsartikel (refereegranskat)abstract
- Many entomologists strive to understand what consequences climate change will have on insect performance. Such understanding is important, not least, when trying to predict the future impact of pest insects. In this study, it was reported how the multiple effects of temperature, photoperiod, and food quality affected the survival, development, and the final weight of the European pine sawfly (Neodiprion sertifer Geoffr.), an herbivorous outbreak species in boreal pine (Pinus spp.) forests. Sawfly larvae were reared in two different temperatures (15 and 20 degrees C) and under two different light regimes (20 and 18 h light). The larvae were fed pine needles either low or high in diterpene content. A 5 degrees C higher temperature did not affect the survival of the larvae, but reduced the development time by 3741%. The final weight was reduced by 22% in the warmer temperature, but only in combination with a short day length. A high content of diterpenes in the needles reduced the susceptibility to the virus by 31%, but did not otherwise affect the performance of the larvae. This study shows that the larval development could be shortened in a warmer climate and thereby decreasing the risk of predation. This per se may increase the risk for insect outbreaks, but the interactive effects of warmer temperatures with other abiotic and biotic factors such as day length and food quality (indicated in this study), and potential better performance of natural enemies and pathogens, illustrate the possibility for complex outcomes in a climate change perspective.
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| 4. |
- Kollberg, Ida, et al.
(författare)
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Regulation of forest defoliating insects through small mammal predation: reconsidering the mechanisms
- 2014
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Ingår i: Oecologia. - : Springer Science and Business Media LLC. - 0029-8549 .- 1432-1939. ; 176, s. 975-983
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Tidskriftsartikel (refereegranskat)abstract
- Population densities of forest defoliating insects may be regulated by small mammal predation on the pupae. When outbreaks do occur, they often coincide with warm, dry weather and at barren forest sites. A proposed reason for this is that weather and habitat affect small mammal population density (numerical response) and hence pupal predation. We propose an alternative explanation: weather and habitat affect small mammal feeding behaviour (functional response) and hence the outbreak risks of forest pest insects. We report results from laboratory and field-enclosure experiments estimating rates of pupal predation by bank voles (Myodes glareolus) on an outbreak insect, the European pine sawfly (Neodiprion sertifer), at different temperatures (15 and 20 A degrees C), in different microhabitats (sheltered and non-sheltered), and with or without access to alternative food (sunflower seeds). We found that the probability of a single pupa being eaten at 20 A degrees C was lower than at 15 A degrees C (0.49 and 0.72, respectively). Pupal predation was higher in the sheltered microhabitat than in the open one, and the behaviour of the voles differed between microhabitats. More pupae were eaten in situ in the sheltered microhabitat whereas in the open area more pupae were removed and eaten elsewhere. Access to alternative food did not affect pupal predation. The results suggest that predation rates on pine sawfly pupae by voles are influenced by temperature- and habitat-induced variation in the physiology and behaviour of the predator, and not necessarily solely through effects on predator densities as previously proposed.
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| 5. |
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| 6. |
- Kollberg, Ida
(författare)
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The effect of temperature on trophic interactions : Implications for the population dynamics of a forest pest insect in a warmer climate
- 2013
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Doktorsavhandling (övrigt vetenskapligt/konstnärligt)abstract
- Increase in temperature related to climate change will have consequences on the performance of organisms. Insects could be expected to respond more than other organism groups because they are ectotherms. Many herbivorous insects are considered pests and may cause severe damage, therefore, trying to predict the performance of pest insects in a future climate is vital. In order to make predictions about the future we need to better understand the mechanisms and processes that are driving the population dynamics of pest insects. To achieve that all the life stages and the interactions with other trophic levels, such as host plants and natural enemies need to be considered. The European pine sawfly, Neodiprion sertifer Geoffr. (Hymenoptera: Diprionidae), is a pest species in boreal pine (Pinus spp.) forests. Its populations undergo large fluctuations in densities that may reach very high levels, so called outbreaks. In this thesis the effect of temperature on interactions known to be important for the sawfly population dynamics is evaluated to assess if the risk of outbreaks will increase due to climate warming. Sawfly performance was studied with respect to stage specific mortality factors; i.e. secondary compounds in the food (diterpenes), arthropod predation of the larvae and small mammal predation on the pupae. Climate chambers were used to create different temperatures in the laboratory and in a field study a latitudinal gradient was utilized. The results indicate that survival in the larval stage may decrease but survival in the pupal stage may increase with increasing temperature. The relative importance of the different mortality factors was investigated in a simple population model and the outcome suggests that in warmer temperatures, increased larval mortality outweighs the effects of decreased pupal mortality, which imply that the propensity for sawfly outbreaks to occur will be reduced in a warmer future climate.
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| 7. |
- Kollberg, Ida, et al.
(författare)
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The effect of willow diversity on insect herbivory and predation
- 2022
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Ingår i: Agricultural and Forest Entomology. - : Wiley. - 1461-9555 .- 1461-9563. ; 24, s. 27-39
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Tidskriftsartikel (refereegranskat)abstract
- The relationship between plant diversity and ecosystems functions such as regulation of insect herbivory is complex and context-dependent. The empirical data necessary to account for these interactions are scarce. Our objective is to test the top-down effects of predation and bottom-up effects of plant traits to understand what drives patterns of herbivory in managed systems. We established single- and multiple-variety willow field plots with up to four varieties, to study herbivory and predation, and greenhouse experiments to investigate the effects on insect preference and performance. Herbivore damage in the field was higher in single- as opposed to multiple-variety plots for the two most prevalent insect types in one of the 3 years. Predation was higher in multiple-variety plots than in pure plots during 2016 but the opposite occurred in 2018. Predation on leaf beetle eggs was higher in multiple-variety plots, but the result was related to specific variety mixtures rather than increased numbers of varieties. Leaf beetle feeding choice and egg-laying were influenced to some extent by plant diversity. Our results give insights into the links between plant diversity, composition and levels of herbivore damage. They also spark questions about how temporal aspects influence these links.
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