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El. knyga: Leaf Defence

3.50/5 (4 ratings by Goodreads)
(Professor in Plant Molecular Biology, Department of Plant Molecular Biology at the University of Lausanne)
  • Formatas: 224 pages
  • Išleidimo metai: 01-May-2014
  • Leidėjas: Oxford University Press
  • Kalba: eng
  • ISBN-13: 9780191651199
Kitos knygos pagal šią temą:
Leaf DefenceDidesnis paveikslėlis
  • Formatas: 224 pages
  • Išleidimo metai: 01-May-2014
  • Leidėjas: Oxford University Press
  • Kalba: eng
  • ISBN-13: 9780191651199
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Leaves are among the most abundant organs on earth and are a defining feature of most terrestrial ecosystems. However, a leaf is also a potential meal for a hungry animal and the question therefore arises, why does so much foliage survive in nature? What mechanisms protect leaves so that, on a global scale, only a relatively small proportion of living leaf material is consumed? Leaf survival is in large part due to two processes: firstly, leaf-eating organisms fall prey to predators (top-down pressure on the herbivore); secondly, leaves defend themselves (bottom-up pressure on the herbivore). Remarkably, these two types of event are often linked; they are controlled and coordinated by plants and the molecular mechanisms that underlie this are now beginning to emerge.

This novel text focuses exclusively on the leaf, on the herbivorous organisms that attack leaves, and the mechanisms that plants use to defend these vital organs. It begins with an assessment of the scale of herbivory, before examining direct physical and chemical defences on leaf surfaces and within the leaf itself. Although some leaf defences are easily seen, most operate at the molecular level and are therefore invisible to the naked eye. Many of these recently elucidated mechanisms are described. Throughout the book, perspectives from both the laboratory and the field are combined. A central feature of the work is its emphasis on the coevolution of leaf defences and the digestive tracts of animals including humans, making the book of relevance in understanding the role of leaf defences in agriculture.

Leaf Defence is suitable for senior undergraduate and graduate students taking courses in plant science, as well as a broader audience of biologists and biochemists seeking a comprehensive and authoritative overview of this exciting and emerging topic.

Recenzijos

An essential resource for graduate students and faculty and valuable for upper-division undergraduates. * Choice * Leaf Defence provides an excellent review of the rapidly evolving literature in this field. * Ian T. Baldwin, Nature Review * In a very succinct yet comprehensive format, Farmer explores the remarkably diverse means by which leaves defend themselves against herbivores ... As a guide, Farmer is engaging, authoritative and didactic ... [ His] text is an enjoyable read for anyone interested in plant defences with an evolutionary perspective, accessible to a general audience from students studying ecological courses to interested biologists and biochemists. * Maria Jose Endara and Natasha L. Wiggins, Edinburgh Journal of Botany * Leaf Defence ... definitively provides the perfect read for beginners in the field to get up to date and, more importantly, sparks interest that will motivate to follow through with some of the questions. However, it also provides a very helpful overall conceptual framework that integrates and balances the very diverse scientific approaches and views in the field, which will make the volume also valuable to experienced researchers as a guideline and reference. The structure of the book is ingenious in its simplicity and logic. * Andre Kessler, Quarterly Review of Biology *

1 Introduction: the leaf and the pressures it faces
1(28)
Herbivory and the terrestrial carbon cycle
2(2)
The range of leaf-eating organisms to be considered
4(1)
Herbivores outnumber plants
5(6)
Vertebrate folivores
11(6)
The nature of the leaf
17(9)
Summary
26(3)
2 Leaf colour patterning and leaf form
29(18)
The palette of colour available to leaves
29(2)
Folivore exposure colouration
31(2)
Non-deceptive colouration: warning
33(4)
Deceptive colouration: colonization and damage mimicry
37(3)
Dissimulation and crypsis
40(4)
Crypsis through movement
44(3)
3 Structural defences and specialized defence cells
47(28)
Leaf surface defence cells and leaf surface habitats
47(5)
Stings
52(3)
Glochids, hairs, prickles, and thorns
55(7)
Silica: targeting teeth and mandibles
62(3)
Crystalline defences
65(3)
Fibre cells and sclereids
68(2)
Defence cells: idioblasts
70(1)
Exudates
70(3)
Summary
73(2)
4 Chemical defences
75(40)
Selection for novel defence chemistries
75(11)
Alkaloids
86(6)
Phenolics
92(8)
Detoxification: the important tail end of the defence process
100(4)
Terpenes
104(11)
5 Inducible defences and the jasmonate pathway
115(26)
Inducible proteins that deplete energy and essential nutrients
115(4)
The moving defence horizon
119(1)
Activating inducible defence: the importance of having good teeth
120(2)
The jasmonate pathway
122(10)
Jasmonate and growth
132(3)
The evolution of jasmonic acid-based signalling
135(3)
The suppression of jasmonate signalling by herbivores
138(3)
6 Top-down pressures and indirect defences
141(14)
Plant population remodelling after carnivore removal
141(2)
Ant--plant interactions, extrafloral nectaries, and food bodies
143(4)
Mite domatia
147(3)
Predator and parasitoid attraction by plant volatiles
150(4)
Kudus and acacias: a cautionary tale
154(1)
7 Release and escape from herbivory
155(10)
Release from herbivory: anachronistic defences
155(6)
Escape from vertebrate folivores
161(4)
8 Escape in space: the cliff trees of Socotra
165(18)
The cliff trees of Socotra
165(7)
Candidate invertebrate herbivores on Socotra
172(1)
Candidate vertebrate herbivores on Socotra
172(5)
Synthesis
177(1)
Wealth and social context
177(1)
Tolerance and escape
177(1)
Defence expenditure is proportional to attack pressure
178(1)
The time factor in defence
178(1)
Energetics: leaves and digestive tracts have co-evolved
178(1)
Defence inducibility and the jasmonate pathway
179(1)
There is no single best defence strategy
179(1)
Leaves co-operate with the enemies of their enemies
180(1)
Relevance of plant defences in agriculture and industry
180(3)
Glossary 183(4)
References 187(18)
Index 205
Edward E. Farmer a is professor in the Department of Plant Molecular Biology at the University of Lausanne where he leads an international research team focussed on understanding leaf defence mechanisms. His work has led to the discovery of mechanisms that allow leaves to respond to attack and also allow damaged tissues communicate their health status to other parts of the plant. Professor Farmer has travelled widely to study the defence features of plants in tropical, desert and mountain habitats and has also focussed attention on the often unique defence features of island floras.
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