Insects, being poikilothermic, are among the organisms that are most likely to respond to changes in climate, particularly increased temperatures. Range expansions into new areas, further north and to higher elevations, are already well documented, as are physiological and phenological responses. It is anticipated that the damage to crops and forests by insects will increase as a consequence of climate change, i.e. increasing temperatures primarily. However, the evidence in support of this common "belief" is sparse. Climate Change and Insect Pests sums up present knowledge regarding both agricultural and forest insect pests and climate change in order to identify future research directions.
Muu info
Suitable for researchers of climate change, crop protection and pest control.
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vii | |
| Foreword |
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x | |
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Part I General Issues and Patterns |
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1 Climate Change and Insect Pest Distribution Range |
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1 | (15) |
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2 Species Distribution Modelling in Predicting Response to Climate Change |
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16 | (22) |
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3 Adaptive Responses of Plants to Insect Herbivores under Climate Change |
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38 | (16) |
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4 Boreal Woody Species Resistance Affected by Climate Change |
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54 | (20) |
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5 Effects of Climate Change on the Interactions Between Insect Pests and Their Natural Enemies |
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74 | (18) |
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Part II Agricultural Pests |
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6 Physiological Variation of Insects in Agricultural Landscapes: Potential Impacts of Climate Change |
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92 | (27) |
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7 Climate Change and Biological Control in Agricultural Systems: Principles and Examples from North America |
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119 | (17) |
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8 Climate Change Effects on Agricultural Insect Pests in Europe |
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136 | (18) |
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9 Abiotic Factors, Climatic Variability and Forest Insect Pests |
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154 | (19) |
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10 Responses of Tree-killing Bark Beetles to a Changing Climate |
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173 | (29) |
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11 The Eurasian Spruce Bark Beetle: The Role of Climate |
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202 | (18) |
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12 Pine Wood Nematode, Pine Wilt Disease, Vector Beetle and Pine Tree: How a Multiplayer System Could Reply to Climate Change |
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220 | (15) |
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13 Northern Geometrids and Climate Change: From Abiotic Factors to Trophic Interactions |
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235 | (13) |
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14 Effects of New Forest Management on Insect Damage Risk in a Changing Climate |
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248 | (19) |
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| Index |
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267 | |
John Terblanche graduated with a PhD in Zoology in 2006 from Stellenbosch University, South Africa. He is currently a full Professor in the Department of Conservation Ecology & Entomology where he leads a physiological ecology research group. John has authored or co-authored over 200 peer-reviewed publications, many of which are published in top international journals, and holds an B1 rating from the South African National Research Foundation.
John's research focuses on how invertebrates cope with diverse, and often concurrent, challenges in terrestrial environments, with an emphasis on quantifying ecologically relevant stress. He is also interested in the application of physiological responses to species' management, such as biological invasions or pest management. Terblanche is currently the co-Editor-in-Chief of the Journal of Insect Physiology.
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