Synopses & Reviews
1 Growth and MetabolismIntroductionGrowth and Development/Multicellularity and Modular ConstructionSize and ShapeScaling Principles/Dimensional AnalysisThe 2/3-Power LawThe 3/4-Power LawGrowth and TimePhotosynthesis and Two Physical LawsOrgans versus OrganismsSummary2 Aquatic PlantsIntroductionAbsorption Coefficients of Water and Plant CellsThe Package Effect and the Scaling of Cell Geometry and ShapeThe Transport Equations and Dimensionless Groupings of VariablesFluid Flow and Mass and Heat Transport: PhytoplanktonSelf-Propulsion: The VolvocalesThe Mechanics of Ciliary MotionHydrodynamic Forces and the Mechanics of Attached Aquatic PlantsSummary3 Terrestrial PlantsIntroductionHeat and Mass Transfer and Boundary Layer ResistancesStomatal ResistancesThe Mechanical Scaling of Foliage LeavesMechanical Design: General ConsiderationsThe Mechanical Scaling of Tree HeightThe Mechanical Scaling of Other Terrestrial PlantsThe Scaling of Self-ThinningSummary4 ReproductionIntroductionThe Scaling of Reproductive BiomassFlowers, Fruits, and SeedsBranches and Reproductive StructuresThe Scaling of Long-Distance DispersalSize and Gender ExpressionSummary5 EvolutionIntroductionHeterochronyHeterauxesis and AllomorphosisOn Being Small or LargeThe Scaling of the Plant Life CycleThe Evolution of Plant Life HistoriesSummary
Synopsis
Allometry, the study of the growth rate of an organism's parts in relation to the whole, has produced exciting results in research on animals. Now distinguished plant biologist Karl J. Niklas has written the first book to apply allometry to studies of the evolution, morphology, physiology, and reproduction of plants.
Niklas covers a broad spectrum of plant life, from unicellular algae to towering trees, including fossil as well as extant taxa. He examines the relation between organic size and variations in plant form, metabolism, reproduction, and evolution, and draws on the zoological literature to develop allometric techniques for the peculiar problems of plant height, the relation between body mass and body length, and size-correlated variations in rates of growth. For readers unfamiliar with the basics of allometry, an appendix explains basic statistical methods.
For botanists interested in an original, quantitative approach to plant evolution and function, and for zoologists who want to learn more about the value of allometric techniques for studying evolution, Plant Allometry makes a major contribution to the study of plant life.
Description
Includes bibliographical references (p. 363-380) and indexes.
About the Author
Karl J. Niklas is the Liberty Hyde Bailey Professor of Plant Biology in the Department of Plant Biology at Cornell University. He is the author of Plant Biomechanics, Plant Allometry, and The Evolutionary Biology of Plants, all published by the University of Chicago Press.
Table of Contents
1 Growth and Metabolism
Introduction
Growth and Development/Multicellularity and Modular Construction
Size and Shape
Scaling Principles/Dimensional Analysis
The 2/3-Power Law
The 3/4-Power Law
Growth and Time
Photosynthesis and Two Physical Laws
Organs versus Organisms
Summary
2 Aquatic Plants
Introduction
Absorption Coefficients of Water and Plant Cells
The Package Effect and the Scaling of Cell Geometry and Shape
The Transport Equations and Dimensionless Groupings of Variables
Fluid Flow and Mass and Heat Transport: Phytoplankton
Self-Propulsion: The Volvocales
The Mechanics of Ciliary Motion
Hydrodynamic Forces and the Mechanics of Attached Aquatic Plants
Summary
3 Terrestrial Plants
Introduction
Heat and Mass Transfer and Boundary Layer Resistances
Stomatal Resistances
The Mechanical Scaling of Foliage Leaves
Mechanical Design: General Considerations
The Mechanical Scaling of Tree Height
The Mechanical Scaling of Other Terrestrial Plants
The Scaling of Self-Thinning
Summary
4 Reproduction
Introduction
The Scaling of Reproductive Biomass
Flowers, Fruits, and Seeds
Branches and Reproductive Structures
The Scaling of Long-Distance Dispersal
Size and Gender Expression
Summary
5 Evolution
Introduction
Heterochrony
Heterauxesis and Allomorphosis
On Being Small or Large
The Scaling of the Plant Life Cycle
The Evolution of Plant Life Histories
Summary