Description
Functional Biology of Plants
Authors: Hodson Martin J., Bryant John A.
Language: EnglishSubject for Functional Biology of Plants:
Keywords
plants; written; functional; provides; biology; whole plant; reader; integrated; essential; molecular; cellular; information; processes; book; modern; study; approaches; integration; wholeplant; four; part
Approximative price 117.72 €
In Print (Delivery period: 12 days).
Add to cart the book of Hodson Martin J., Bryant John A.Publication date: 04-2012
400 p. · Hardback
95.38 €
In Print (Delivery period: 14 days).
Add to cart the book of Hodson Martin J., Bryant John A.Publication date: 04-2012
336 p. · 18x24.4 cm · Paperback
Description
/li>Contents
/li>Biography
/li>
It is divided into four parts: Part 1: Genes and Cells, looks at the origins of plants, cell structure, biochemical processes and genes and development. Part 2: The Functioning Plant, describes the structure and function of roots, stems, leaves, flowers and seed and fruit development. Part 3: Interactions and Adaptations, examines environmental and biotic stresses and how plants adapt and acclimatise to these conditions. Part 4: Future Directions, illustrates the great importance of plant research by looking at some well chosen, topical examples such as GM crops, biomass and bio-fuels, loss of plant biodiversity and the question of how to feed the planet.
Throughout the book there are text boxes to illustrate particular aspects of how humans make use of plants, and a comprehensive glossary proves invaluable to those coming to the subject from other areas of life science.
Preface, ix
Acknowledgements, x
1 Origins, 1
1.1 Plants – what are they?, 1
1.2 Back to the beginning, 1
1.3 Eukaryotes emerge, 2
1.4 Photosynthetic eukaryotes – the first 'plants', 3
1.5 The greening of Earth – plants invade the land, 4
1.6 Embracing the terrestrial lifestyle, 6
1.7 Arrival of the angiosperms, 8
1.8 Sex and the alternation of generations, 11
2 Introduction to Plant Cells, 14
2.1 Plant cells, 14
2.2 Cell walls, 15
2.3 The plasma membrane, 21
2.4 Cell compartmentation, 23
2.5 Chloroplasts, 24
2.6 Mitochondria, 27
2.7 The nucleus, 29
2.8 The vacuole, 31
2.9 Endomembrane systems, 31
2.10 Microbodies/peroxisomes, 32
2.11 Ribosomes, 34
2.12 The cytoskeleton, 34
2.13 The mitotic cell cycle, 36
2.14 Metabolism, 42
3 Genes, Gene Expression and Development, 56
3.1 Genes, 56
3.2 Gene expression, 59
3.3 Chloroplasts and mitochondria, 65
3.4 Control of gene expression – switching genes on and off, 69
3.5 Molecular aspects of development, 75
3.6 Plant hormones, 75
3.7 Light receptors, 86
3.8 Concluding comments, 92
4 From Embryo to Establishment, 94
4.1 Introduction, 94
4.2 Embryogenesis, 94
4.3 Endosperm, 99
4.4 Perisperm, 100
4.5 Late embryo growth, storage deposition and desiccation, 100
4.6 Seed coat, 109
4.7 'Recalcitrant' seeds, 109
4.8 Apomixis, 109
4.9 Seeds and fruit, 110
4.10 Fruit development and ripening, 112
4.11 Dormancy and quiescence, 114
4.12 Germination, 115
4.13 Establishment, 120
5 Roots, 124
5.1 External morphology of roots, 124
5.2 Root anatomy, 124
5.3 Root growth, 126
5.4 Soil chemistry and water relations, 130
5.5 Plant mineral nutrition, 132
5.6 Movement of nutrients to the root surface, 133
5.7 Absorption of water and nutrients, 133
5.8 Mycorrhizae, 139
5.9 Root nodules and nitrogen fixation, 139
5.10 Tropisms, 142
5.11 Gravitropism in roots, 143
6 Stems, 145
6.1 Structure of the stem, 145
6.2 The young stem, 145
6.3 The shoot apical meristem, 146
6.4 Shoot organizational forms, 148
6.5 The mature stem, 148
6.6 The tallest, largest and oldest plants, 151
6.7 Ageing and senescence, 152
6.8 Long-distance xylem transport, 154
6.9 Translocation in the phloem, 155
6.10 Biological clocks in plants, 157
6.11 Phototropism – how do stems curve towards the light?, 160
6.12 Gravitropism in stems, 160
6.13 Thigmotropism, 161
6.14 Nastic movements, 161
6.15 Bud dormancy, 163
7 Leaves, 166
7.1 External morphology of leaves, 166
7.2 The anatomy of the leaf, 166
7.3 Control of leaf growth and development, 167
7.4 Photosynthesis, 168
7.5 Photorespiration, 174
7.6 The photosynthesis/transpiration dilemma, 177
7.7 C4 photosynthesis, 178
7.8 Crassulacean acid metabolism (CAM), 181
7.9 Sources and sinks, 182
7.10 Stomata, 184
7.11 Leaf senescence and abscission, 186
8 Flowers, 189
8.1 Introduction, 189
8.2 What is a flower?, 189
8.3 Organization of flowers and flowering – inflorescences and life-styles, 191
8.4 Formation of flowers, 192
8.5 Gametogenesis, 198
8.6 Pollination and fertilization, 204
8.7 Evolution, 214
9 Environmental Stresses, 216
9.1 Responses to stress, 216
9.2 Temperature, 217
9.3 Waterlogging, 221
9.4 Drought, 223
9.5 Salinity, 226
9.6 Chemical stress, 228
9.7 Light and radiation, 232
10 Acclimation and Adaptation to Environmental Stresses, 235
10.1 Adaptation and acclimation responses, 235
10.2 Temperature, 236
10.3 Resistance and adaptation to waterlogging, 240
10.4 Resistance and adaptation to drought, 243
10.5 Resistance and adaptation to salinity, 247
10.6 Tolerance and adaptation to toxic metals, 252
10.7 Adaptations to light and radiation, 256
11 Biotic Stresses, 260
11.1 Plant/plant competition, 260
11.2 Plant/animal interactions, 265
11.3 Plant pathology, 271
12 Plants and the Future, 284
12.1 Climate change, 284
12.2 Loss of plant biodiversity, 288
12.3 Biomass and biofuels derived from plants, 291
12.4 Genetically modified crops, 297
12.5 Conclusion, 300
Glossary, 302
Index, 309
Professor John A. Bryant, Emeritus Professor, School of Biosciences, University of Exeter. John Bryant is Professor Emeritus of Cell and Molecular Biology at the University of Exeter; Visiting Professor in Molecular Biology at West Virginia State University, USA; Chair of Christians in Science and is a past President of the Society for Experimental Biology.
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