The Insects: An Outline of Entomology, 4th Edition
July 2010, Wiley-Blackwell
- All chapters thoroughly updated with the latest results from international studies
- Accompanying website with downloadable illustrations and links to video clips
- All chapters to include new text boxes of topical issues and studies
- Major revision of systematic and taxonomy chapter
- Still beautifully illustrated with more new illustrations from the artist, Karina McInnes
A companion resources site is available at www.wiley.com/go/gullan/insects. This site includes:
- Copies of the figures from the book for downloading, along with a PDF of the captions.
- Colour versions of key figures from the book
- A list of useful web links for each chapter, selected by the author.
Preface to the fourth edition.
Preface to the third edition.
Preface to the second edition.
Preface and acknowledgments for first edition.
1 THE IMPORTANCE, DIVERSITY, AND CONSERVATION OF INSECTS.
1.1 What is entomology?
1.2 The importance of insects.
1.3 Insect biodiversity.
1.4 Naming and classification of insects.
1.5 Insects in popular culture and commerce.
1.6 Insects as food.
1.7 Culturing insects.
1.8 Insect conservation.
2 EXTERNAL ANATOMY.
2.1 The cuticle.
2.2 Segmentation and tagmosis.
2.3 The head.
2.4 The thorax.
2.5 The abdomen.
3 INTERNAL ANATOMY AND PHYSIOLOGY.
3.1 Muscles and locomotion.
3.2 The nervous system and co-ordination.
3.3 The endocrine system and the function of hormones.
3.4 The circulatory system.
3.5 The tracheal system and gas exchange.
3.6 The gut, digestion, and nutrition.
3.7 The excretory system and waste disposal.
3.8 Reproductive organs.
4 SENSORY SYSTEMS AND BEHAVIOR.
4.1 Mechanical stimuli.
4.2 Thermal stimuli, 101
4.3 Chemical stimuli.
4.4 Insect vision.
4.5 Insect behavior.
5.1 Bringing the sexes together.
5.3 Sexual selection.
5.5 Diversity in genitalic morphology.
5.6 Sperm storage, fertilization, and sex determination.
5.7 Sperm competition.
5.8 Oviparity (egg-laying).
5.9 Ovoviviparity and viviparity.
5.10 Atypical modes of reproduction.
5.11 Physiological control of reproduction.
6 INSECT DEVELOPMENT AND LIFE HISTORIES.
6.2 Life-history patterns and phases.
6.3 Process and control of molting.
6.6 Dealing with environmental extremes.
6.8 Polymorphism and polyphenism.
6.10 Environmental effects on development.
6.11 Climate and insect distributions.
7 INSECT SYSTEMATICS: PHYLOGENY AND CLASSIFICATION.
7.2 The extant Hexapoda.
7.3 Class Entognatha: Protura (proturans), Collembola (springtails), and Diplura (diplurans).
7.4 Class Insecta (true insects).
8 INSECT BIOGEOGRAPHY AND EVOLUTION.
8.1 Insect biogeography.
8.2 The antiquity of insects.
8.3 Were the first insects aquatic or terrestrial?
8.4 Evolution of wings.
8.5 Evolution of metamorphosis.
8.6 Insect diversification.
8.7 Insect evolution in the Pacific.
9 GROUND-DWELLING INSECTS.
9.1 Insects of litter and soil.
9.2 Insects and dead trees or decaying wood.
9.3 Insects and dung.
9.4 Insect–carrion interactions.
9.5 Insect–fungal interactions.
9.6 Cavernicolous insects.
9.7 Environmental monitoring using ground-dwelling hexapods.
10 AQUATIC INSECTS.
10.1 Taxonomic distribution and terminology.
10.2 The evolution of aquatic lifestyles.
10.3 Aquatic insects and their oxygen supplies.
10.4 The aquatic environment.
10.5 Environmental monitoring using aquatic insects.
10.6 Functional feeding groups.
10.7 Insects of temporary waterbodies.
10.8 Insects of the marine, intertidal, and littoral zones.
11 INSECTS AND PLANTS.
11.1 Coevolutionary interactions between insects and plants.
11.2 Phytophagy (or herbivory).
11.3 Insects and plant reproductive biology.
11.4 Insects that live mutualistically in specialized plant structures.
12 INSECT SOCIETIES.
12.1 Subsociality in insects.
12.2 Eusociality in insects.
12.3 Inquilines and parasites of social insects.
12.4 Evolution and maintenance of eusociality.
12.5 Success of eusocial insects.
13 INSECT PREDATION AND PARASITISM.
13.1 Prey/host location.
13.2 Prey/host acceptance and manipulation.
13.3 Prey/host selection and specificity.
13.4 Population biology: predator/parasitoid and prey/host abundance.
13.5 The evolutionary success of insect predation and parasitism.
14 INSECT DEFENSE.
14.1 Defense by hiding.
14.2 Secondary lines of defense.
14.3 Mechanical defenses.
14.4 Chemical defenses.
14.5 Defense by mimicry.
14.6 Collective defenses in gregarious and social insects.
15 MEDICAL AND VETERINARY ENTOMOLOGY.
15.1 Insect nuisance and phobia.
15.2 Venoms and allergens.
15.3 Insects as causes and vectors of disease.
15.4 Generalized disease cycles.
15.6 Forensic entomology.
16 PEST MANAGEMENT.
16.1 Insects as pests.
16.2 The effects of insecticides.
16.3 Integrated pest management.
16.4 Chemical control.
16.5 Biological control.
16.6 Host-plant resistance to insects.
16.7 Physical control.
16.8 Cultural control.
16.9 Pheromones and other insect attractants.
16.10 Genetic manipulation of insect pests.
17 METHODS IN ENTOMOLOGY: COLLECTING, PRESERVATION, CURATION, AND IDENTIFICATION.
17.2 Preservation and curation.
1 Entognatha: non-insect hexapods (Collembola, Diplura, and Protura).
2 Archaeognatha (or Microcoryphia; bristletails).
3 Zygentoma (silverfish).
4 Ephemeroptera (mayflies).
5 Odonata (damselflies and dragonflies).
6 Plecoptera (stoneflies).
7 Dermaptera (earwigs).
8 Embioptera (Embiidina; embiopterans or webspinners).
9 Zoraptera (zorapterans).
10 Orthoptera (grasshoppers, locusts, katydids, and crickets).
11 Phasmatodea (phasmids, stick-insects or walking sticks).
12 Grylloblattodea (Grylloblattaria or Notoptera; grylloblattids, or ice or rock crawlers).
13 Mantophasmatodea (heelwalkers).
14 Mantodea (mantids, mantises, or praying mantids).
15 Blattodea: roach families (cockroaches or roaches).
16 Blattodea: epifamily Termitoidae (former order Isoptera; termites).
17 Psocodea: “Psocoptera” (bark lice and book lice).
18 Psocodea: “Phthiraptera” (chewing lice and sucking lice).
19 Thysanoptera (thrips).
20 Hemiptera (bugs, cicadas, leafhoppers, planthoppers, spittle bugs, treehoppers, aphids, jumping plant lice, scale insects, and whiteflies).
21 Neuropterida: Neuroptera (lacewings, owlflies, and antlions), Megaloptera (alderflies, dobsonflies, and fishflies) and Raphidioptera (snakeflies).
22 Coleoptera (beetles).
23 Strepsiptera (strepsipterans).
24 Diptera (flies).
25 Mecoptera (hangingflies, scorpionflies, and snowfleas).
26 Siphonaptera (fleas).
27 Trichoptera (caddisflies).
28 Lepidoptera (butterflies and moths).
29 Hymenoptera (ants, bees, wasps, sawflies, and wood wasps).
Appendix: A reference guide to orders.
Companion website www.wiley.com/go/gullan/insects
Molecular techniques of ever-increasing sophistication are now commonplace in many aspects of entomological study, ranging from genomic studies seeking to understand the basis of behaviors to molecular diagnostics and the use of sequences to untangle the phylogeny of this most diverse groups of organisms. Although this book is not the place to detail this fast-evolving field, it presents the results of many molecular studies, particularly in relation to attempts to reconcile different ideas on evolutionary relationships, where much uncertainty remains despite a growing volume of nucleotide sequence data. Since ever more insects have their complete mitochondrial genomes sequenced, and the whole nuclear genome is available for an increasing diversity of insects, there is much scope for comparative studies. Important insights have already come from the ability to ‘silence’ particular genes to observe the outcome, for example in aspects of development and communication.
In this edition of the textbook, the authors have updated and relocated the boxes concerning each major grouping (the traditional orders) from the chapter in which their generalized ecology placed them, to the end of the book, where they can be located more easily. The updated chapter texts are supplemented with additional new boxes on topical subjects including The African honey bee and Colony Collapse Disorder (of bees) in the sphere of apiary, the use of bed nets and resurgence of bed bugs, Dengue fever and West Nile Virus in relation to human health, and some case studies in emergent plant pests, including the Emerald ash borer that is destroying North American landscape trees.
- All chapters thoroughly updated with the latest results from international studies.
- All chapters to include new text boxes of topical issues and studies.
- Major revision of systematic and taxonomy chapter.
All chapters thoroughly updated with the latest results from international studies.
Accompanying website with downloadable illustrations and links to video clips.
All chapters to include new text boxes of topical issues and studies.
Major revision of systematic and taxonomy chapter.
Still beautifully illustrated with more new illustrations from the artist, Karina McInnes.