Plant Physiology and Development (6th International Edition)

ISBN : 9781605357454

Lincoln Taiz; Eduardo Zeiger; Ian M. Moller; Angus Murphy
756 ページ
217 x 277 mm



  • An up-to-date, comprehensive, and meticulously illustrated presentation of plant physiology and development

New to this Edition:

  • A new chapter titled Biotic Interactions—replacing the Fifth-Edition Chapter 13 on Secondary Metabolites and Plant Defense—discusses the integrated signaling responses to a spectrum of biological agents.
  • A completely rewritten chapter on Abiotic Stress discusses the use of genomics, systems biology, imaging, and bioinformatics tools in the study of abiotic stress. Recent efforts to develop drought-tolerant maize and flood-tolerant rice are described, as well as the role of ABA receptors, newly-identified regulatory networks, epigenetic changes in response to abiotic stress, and rapid systemic signaling.
  • The pathway of all nutrients essential in the human diet begins with plant roots "mining" the soil for mineral elements; the Sixth Edition explicitly examines the linkage between plant nutrition and human health.
  • The response of plants to rising atmospheric levels of carbon dioxide depends most strongly on their nitrogen status. The Sixth Edition describes the newly discovered mechanism for this dependence and how it will influence food quality in the future.
  • Exciting new findings on the mechanisms of mycorrhizal associations and symbiotic nitrogen fixation will be added, providing insights about the interdependence of plants and microorganisms.

Throughout its twenty-two year history, the authors of Plant Physiology have continually updated the book to incorporate the latest advances in plant biology and implement pedagogical improvements requested by adopters. This has made Plant Physiology the most authoritative, comprehensive, and widely used upper-division plant biology textbook. 
In the Sixth Edition, the Growth and Development section (Unit III) has been reorganized and expanded to present the complete life cycle of seed plants from germination to senescence. In recognition of this enhancement, the text has been renamed Plant Physiology and Development
As before, Unit III begins with updated chapters on Cell Walls and Signals and Signal Transduction. The latter chapter has been expanded to include a discussion of major signaling molecules, such as calcium ions and plant hormones. A new, unified chapter entitled Signals from Sunlight has replaced the two Fifth-Edition chapters on Phytochrome and Blue Light Responses. This chapter includes phytochrome, as well as the blue and UV light receptors and their signaling pathways, including phototropins, cryptochromes, and UVR8. The subsequent chapters in Unit III are devoted to describing the stages of development from embryogenesis to senescence and the many physiological and environmental factors that regulate them. The result provides students with an improved understanding of the integration of hormones and other signaling agents in developmental regulation.
The new organization of Unit III has the added benefit that it minimizes redundancy, making it possible to reduce the number of chapters in the Unit from 13 to 11. Angus Murphy of the University of Maryland has headed up a team of authors and editors to implement the revision. Ian Max Møller has subsequently edited all the book chapters to ensure an even high quality and consistency level.
The Sixth Edition of Plant Physiology and Development also includes updated and improved versions of the physiological chapters in Units I and II. A new chapter on Stomatal Biology has been added to Unit II. 
The goal, as always, is to provide the best educational foundation possible for the next generation of plant biologists.


Introduction, Lincoln Taiz and Ian Max Møller
1: Plant and Cell Architecture, Lawrence Griffing
2: Genome Structure and Gene Expression, Andreas Madlung
Unit I. Transport and Translocation of Water and Solutes, Eduardo Zeiger and Ian Max Møller

3: Water and Plant Cells, N. Michele Holbrook
4: Water Balance of Plants, N. Michele Holbrook
5: Mineral Nutrition, Arnold J. Bloom and Sally Smith
6: Solute Transport, Sarah M. Assmann
Unit II. Biochemistry and Metabolism, Eduardo Zeiger and Ian Max Møller

7: Photosynthesis: The Light Reactions, Robert E. Blankenship
8: Photosynthesis: The Carbon Reactions, Bob B. Buchanan and Ricardo A. Wolosiuk
9: Photosynthesis: Physiological and Ecological Considerations, Darren Sandquist and James Ehleringer
10: Stomatal Biology, Eduardo Zeiger
11: Translocation in the Phloem, Susan Dunford
12: Respiration and Lipid Metabolism, Allan G. Rasmusson, Ian Max Møller, and John Browse
13: Assimilation of Inorganic Nutrients, Arnold J. Bloom
Unit III. Growth and Development, Lincoln Taiz, Angus Murphy, and Ian Max Møller

14: Cell Walls: Structure, Formation, and Expansion, Daniel J. Cosgrove
15: Signals and Signal Transduction, Wendy Peer, Gabriele Monshausen, Angus Murphy, and Lincoln Taiz
16: Signals from Sunlight, Wendy Peer, Joe Sullivan, John Christie, Angus Murphy, and Lincoln Taiz
17: Embryogenesis, Bruce Veit and Angus Murphy
18: Seed Dormancy, Germination, and Seedling Establishment, Wendy Peer, Angus Murphy, and Lincoln Taiz
19: Vegetative Growth and Organogenesis, Wendy Peer, Christine Beveridge, Victor Busov, Angus Murphy, and Lincoln Taiz
20: The Control of Flowering and Floral Development, Philip A. Wigge and Lincoln Taiz
21: Gametophytes, Pollination, Seeds, and Fruits, Heven Sze, Graham Seymour, and Lincoln Taiz
22: Plant Senescence and Cell Death, Lincoln Taiz
23: Biotic Interactions, Jürgen Engelberth and Lincoln Taiz
24: Abiotic Stress, Eduardo Blumwald and Ron Mittler


Lincoln Taiz is Professor Emeritus of Molecular, Cellular, and Developmental Biology at the University of California at Santa Cruz. He received his Ph.D. in Botany from the University of California at Berkeley in 1971. Dr. Taiz's main research focus has been on the structure, function, and evolution of vacuolar H+-ATPases. He has also worked on gibberellins, cell wall mechanical properties, metal tolerance, auxin transport, and stomatal opening.
Eduardo Zeiger is Professor Emeritus of Biology at the University of California at Los Angeles. He received a Ph.D. in Plant Genetics at the University of California at Davis in 1970. His research interests include stomatal function, the sensory transduction of blue-light responses, and the study of stomatal acclimations associated with increases in crop yields.
Ian M. Møller is Associate Professor of Molecular Biology and Genetics at Aarhus University, Denmark. He received his Ph.D. in Plant Biochemistry from Imperial College, London, UK. He has worked at Lund University, Sweden and, more recently, at Risø National Laboratory and the Royal Veterinary and Agricultural University in Copenhagen, Denmark. Professor Møller has investigated plant respiration throughout his career. His current interests include turnover of reactive oxygen species and the role of protein oxidation in plant cells.
Angus Murphy has been Professor and Chair of the Department of Plant Science and Landscape Architecture at the University of Maryland since 2012. He earned his Ph.D. in Biology from the University of California at Santa Cruz in 1996 and moved to Purdue University as an assistant professr in 2001. Dr. Murphy studies ATP-Binding Cassette transporters, the regulation of auxin transport, and the mechanisms by which transport proteins are regulated in plastic plant growth.