Insect Movement: Mechanisms and Consequences : Proceedings of the Royal Entomological Society's 20th SymposiumIan Woiwood, D. R. Reynolds, C. D. Thomas CABI, 2001 - 458 Seiten Knowledge of insect movement, particularly of flight, is crucial to our understanding of the great ecological and evolutionary success of insects. The last 20 years have seen many advances in this subject area. New fields have arisen, such as metapopulation theory, and dramatic developments have taken place in methods of studying movement, as a result of new techniques in molecular biology and radar monitoring. There have also been advances in our knowledge of flight-related physiology and behaviour. This book, which is based on the main papers presented at the Royal Entomological Society's 20th Symposium held in September 1999, brings us up to date with these developments.It contains chapters on:flight mechanismsforaging movementsmigrationthe evolution of movement strategiesthe interactions between dispersal rates, population structure and gene flow the effects of climate change on geographical distributionIt is essential reading for entomologists, and of interest to those researching animal behaviour, physiology, ecology and genetics. |
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Seite 3
... ground rather than remaining in a localized area ( Kennedy , 1975 ) . Responsiveness to stimuli which promote ' station - keeping ' flight and settling are inhibited or depressed to a certain extent , so that escape from a ' vegetative ...
... ground rather than remaining in a localized area ( Kennedy , 1975 ) . Responsiveness to stimuli which promote ' station - keeping ' flight and settling are inhibited or depressed to a certain extent , so that escape from a ' vegetative ...
Seite 5
... ground , but how did the bees know how far to turn off course to achieve the correct track to their destinations ? The simplest explanation appears to be that the bees simply adjusted their headings so that the direction of ground image ...
... ground , but how did the bees know how far to turn off course to achieve the correct track to their destinations ? The simplest explanation appears to be that the bees simply adjusted their headings so that the direction of ground image ...
Seite 6
... ground ) where the wind speed is lower than insects ' flight speeds , and where they can therefore control their displacement direction . Orientation mechanisms in these migrants are reviewed in Chapter 9 by Robert Srygley and Evandro ...
... ground ) where the wind speed is lower than insects ' flight speeds , and where they can therefore control their displacement direction . Orientation mechanisms in these migrants are reviewed in Chapter 9 by Robert Srygley and Evandro ...
Seite 7
... ground speed ) and track with onboard navigational equipment . The experiment revealed that some species were able to compensate for fluctuating crosswinds and maintain a straight track over large bodies of water , although further work ...
... ground speed ) and track with onboard navigational equipment . The experiment revealed that some species were able to compensate for fluctuating crosswinds and maintain a straight track over large bodies of water , although further work ...
Seite 12
... ground , because the strong reflections from ground features and vegetation ( ' clutter ' ) tend to obscure those from the intended targets . This is a serious limitation , because practically all ' vegetative ' flights , and some ...
... ground , because the strong reflections from ground features and vegetation ( ' clutter ' ) tend to obscure those from the intended targets . This is a serious limitation , because practically all ' vegetative ' flights , and some ...
Inhalt
1 | |
14 | |
19 | |
Deveson Australian Plague Locust Commission Agriculture | 39 |
How Insect Wings Evolved | 43 |
Physiology and Endocrine Control of Flight 65 | 65 |
Insect Behaviours Associated with Resource Finding | 87 |
Host Location by Parasitoids | 111 |
Significance of Habitat Persistence and Dimensionality in | 235 |
Predation and the Evolution of Dispersal | 261 |
a Tale of | 281 |
Dispersal and Conservation in Heterogeneous Landscapes | 299 |
Scale Dispersal and Population Structure | 321 |
Gene Flow | 337 |
Use of Genetic Diversity in Movement Studies of Flying Insects | 361 |
Coping with Modern Times? Insect Movement and Climate | 387 |
Observations Using | 129 |
The Evolution of Migratory Syndromes in Insects | 159 |
Orientation Mechanisms and Migration Strategies Within | 183 |
Characterizing Insect Migration Systems in Inland Australia with | 207 |
Analysing and Modelling Range Changes in UK Butterflies | 415 |
Index | 443 |
Andere Ausgaben - Alle anzeigen
Häufige Begriffe und Wortgruppen
adipokinetic hormone adult aerodynamic airspeed alanine aphid army ants bees beetles behaviour bugs bumblebees burchelli butterflies Carboniferous changes Coleoptera compensation crosswind cues Denno density Dingle direction dispersal distribution Dorylus downwind Drake drift Dudley Eciton effects Ellington Entomology evolution evolutionary Experimental Biology extinction fat body females flight muscles flying foraging frequency Gäde Gatehouse gene flow genetic habitat habitat persistence haemolymph hindwings honeybees host plants Hymenoptera increase individuals insect flight Insect Migration Insect Physiology insect wings interactions Journal of Experimental Journal of Insect Kukalová-Peck Lepidoptera locust macroptery male mechanisms metabolism metapopulation migratory moths odour plumes orientation parasitoids patches planthoppers polymorphism population predicted prey proline pterygote radar range reproduction resource response Review of Entomology risk of predation Roff selection sex pheromones soapberry bug spatial species Srygley strategies structure studies syndrome taxa track University Press upwind variation volatiles wind speed Wootton Zera
Beliebte Passagen
Seite 207 - University College, The University of New South Wales, Australian Defence Force Academy, Canberra, ACT 2600, AUSTRALIA.
Seite 123 - Alborn, HT, Turlings, TCJ, Jones, TH, Stenhagen, G., Loughrin, JH and Tumlinson, JH (1997) An elicitor of plant volatiles from beet armyworm oral secretion. Science 276: 945-949.
Seite 411 - Mooney, HA (eds) Carbon Dioxide and Terrestrial Ecosystems. Academic Press, San Diego, pp.
Seite 126 - L.-Y. (1994) Worldwide use of Trichogramma for biological control on different crops: a survey. In E.
Seite 231 - Population dynamics of the Australian plague locust, Chortoicetes terminifera (Walker), in Central Western New South Wales.
Seite 83 - J Koolman, Analysis of ecdysteroids by fluorometry. A Edwards, Cholinesterase activity in the cockroach central nervous system . MW Goosey and DJ Candy, The D-octopamine content of the haemolymph of the locust, Schistocerca americana gregaria and its elevation during flight. LL Jackson, NF Hadley and GJ Blomquist, Epicuticular lipids of the desert tenebrinoid beetle, Eleodes armata: identification of the branched hydrocarbons. RAA Worm...