Coverart for item
The Resource Plant physics, Karl J. Niklas and Hanns-Christof Spatz

Plant physics, Karl J. Niklas and Hanns-Christof Spatz

Label
Plant physics
Title
Plant physics
Statement of responsibility
Karl J. Niklas and Hanns-Christof Spatz
Creator
Contributor
Subject
Language
eng
Cataloging source
ICU/DLC
http://library.link/vocab/creatorName
Niklas, Karl J
Illustrations
illustrations
Index
index present
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/relatedWorkOrContributorName
Spatz, Hanns-Christof
http://library.link/vocab/subjectName
  • Plant physiology
  • Botanical chemistry
Label
Plant physics, Karl J. Niklas and Hanns-Christof Spatz
Instantiates
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Color
multicolored
Contents
An Introduction to Some Basic Concepts. What is plant physics? -- The importance of plants -- The amount of organic carbon produced annually -- A brief history of plant life -- A brief review of vascular plant ontogeny -- Plant reproduction -- Compromise and adaptive evolution -- Photosynthetic efficiency versus mechanical stability -- Elucidating function from form -- The basic plant body plans -- The importance of multicellularity. Environmental Biophysics. Three transport laws -- Boundary layers -- . Living in water versus air -- Passive diffusion of carbon dioxide in the boundary layer in air and in water -- Light interception and photosynthesis -- Absorption of light by chloroplasts -- Formulas for the effective light absorption cross section of some geometric objects -- Modeling light interception in canopies -- Phototropism -- Mechanoperception -- Thigmomorphogenesis -- Gravitropism -- Root growth, root anchorage, and soil properties. -- Plant Water Relations. The roles of water acquisition and conservation -- Some physical properties of water -- Vapor pressure and Raoult's law -- Chemical potential and osmotic pressure -- Water potential -- Turgor pressure and the volumetric elastic modulus -- Flow through tubes and the Hagen-Poiseuille equation -- The cohesion-tension theory and the ascent of water -- Phloem and phloem loading. -- The Mechanical Behavior of Materials. Types of forces and their components -- Strains -- Different responses to applied forces -- A note of caution about normal stresses and strains -- Extension to three dimensions -- Poisson's ratios -- Poisson's ratio for an incompressible fluid -- Poisson's ratio for a cell -- Isotropic and anisotropic materials -- Gordon mechanism. -- The Effects of Geometry, Shape, and Size. Geometry and shape are not the same things -- Pure bending -- The second moment of area -- Simple bending -- Bending of slender cantilevers -- Three-point bending of slender beams -- Bending and shearing -- Bending and shearing of a cantilever -- Bending and shearing of a simply supported beam -- The influence of the microfibrillar angle on the stiffness of a cell -- Fracture in bending -- Torsion -- Static loads -- Comparison of forces on a tree trunk resulting from self-loading with those experienced in bending -- The constant stress hypothesis -- Predictions for the geometry of a tree trunk obeying the constant stress hypothesis -- Euler buckling -- Hollow stems and Brazier buckling -- Dynamics, oscillation, and oscillation bending -- Derivation of eigenfrequencies. -- Fluid Mechanics. What are fluids? -- The Navier-Stokes equations -- The Reynolds number -- Flow and drag at small Reynolds numbers -- Derivation of the Hagen-Poiseuille equation -- Flow of ideal fluids -- Boundary layers and flow of real fluids -- Vorticity -- Turbulent flow -- Turbulent stresses and friction velocities -- Drag in real fluids -- Drag and flexibility -- Vertical velocity profiles -- Terminal settling velocity -- Fluid dispersal of reproductive structures. -- Plant Electrophysiology. The principle of electroneutrality -- The Nernst-Planck equation -- Membrane potentials -- The Goldman equation -- Ion channels and ion pumps -- The Ussing-Teorell equation -- Electrical currents and gravisensitivity -- Action potentials -- Electrical signaling in plants. -- A Synthesis: the Properties of Selected Plant Materials, Cells, and Tissues. The plant cuticle -- A brief introduction to the primary cell wall -- Cell wall stress and expansion resulting from turgor -- The plasmalemma and cell wall deposition -- The epidermis and the tissue tension hypothesis -- Hydrostatic tissues -- Stresses in thick-walled cylinders -- Compression of spherical turgid cells -- Nonhydrostatic cells and tissues -- Cellular solids -- Tissue stresses and growth stresses -- Secondary growth and reaction wood -- Wood as an engineering material. -- Experimental Tools. Anatomical methods on a microscale -- Mechanical measuring techniques on a macroscale -- An example of applied biomechanics: Tree risk assessment -- Mechanical measuring techniques on a microscale -- Scholander pressure chamber -- Pressure probe -- Recording of electric potentials and electrical currents -- Patch clamp techniques -- Biomimetics. -- Theoretical Tools. Modeling -- Morphology: The problematic nature of structure-function relationships -- Theoretical morphology, optimization, and adaptation -- Size, proportion, and allometry -- Comparison of regression parameters -- Finite element methods (FEM) -- Optimization techniques -- Optimal allocation of biological resources -- Lagrange multipliers and Murray's law
Control code
ocn779173734
Dimensions
unknown
Extent
1 online resource (xx, 426 pages)
File format
unknown
Form of item
online
Isbn
9780226586342
Level of compression
unknown
Other physical details
illustrations, digital
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
(OCoLC)779173734
Label
Plant physics, Karl J. Niklas and Hanns-Christof Spatz
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Color
multicolored
Contents
An Introduction to Some Basic Concepts. What is plant physics? -- The importance of plants -- The amount of organic carbon produced annually -- A brief history of plant life -- A brief review of vascular plant ontogeny -- Plant reproduction -- Compromise and adaptive evolution -- Photosynthetic efficiency versus mechanical stability -- Elucidating function from form -- The basic plant body plans -- The importance of multicellularity. Environmental Biophysics. Three transport laws -- Boundary layers -- . Living in water versus air -- Passive diffusion of carbon dioxide in the boundary layer in air and in water -- Light interception and photosynthesis -- Absorption of light by chloroplasts -- Formulas for the effective light absorption cross section of some geometric objects -- Modeling light interception in canopies -- Phototropism -- Mechanoperception -- Thigmomorphogenesis -- Gravitropism -- Root growth, root anchorage, and soil properties. -- Plant Water Relations. The roles of water acquisition and conservation -- Some physical properties of water -- Vapor pressure and Raoult's law -- Chemical potential and osmotic pressure -- Water potential -- Turgor pressure and the volumetric elastic modulus -- Flow through tubes and the Hagen-Poiseuille equation -- The cohesion-tension theory and the ascent of water -- Phloem and phloem loading. -- The Mechanical Behavior of Materials. Types of forces and their components -- Strains -- Different responses to applied forces -- A note of caution about normal stresses and strains -- Extension to three dimensions -- Poisson's ratios -- Poisson's ratio for an incompressible fluid -- Poisson's ratio for a cell -- Isotropic and anisotropic materials -- Gordon mechanism. -- The Effects of Geometry, Shape, and Size. Geometry and shape are not the same things -- Pure bending -- The second moment of area -- Simple bending -- Bending of slender cantilevers -- Three-point bending of slender beams -- Bending and shearing -- Bending and shearing of a cantilever -- Bending and shearing of a simply supported beam -- The influence of the microfibrillar angle on the stiffness of a cell -- Fracture in bending -- Torsion -- Static loads -- Comparison of forces on a tree trunk resulting from self-loading with those experienced in bending -- The constant stress hypothesis -- Predictions for the geometry of a tree trunk obeying the constant stress hypothesis -- Euler buckling -- Hollow stems and Brazier buckling -- Dynamics, oscillation, and oscillation bending -- Derivation of eigenfrequencies. -- Fluid Mechanics. What are fluids? -- The Navier-Stokes equations -- The Reynolds number -- Flow and drag at small Reynolds numbers -- Derivation of the Hagen-Poiseuille equation -- Flow of ideal fluids -- Boundary layers and flow of real fluids -- Vorticity -- Turbulent flow -- Turbulent stresses and friction velocities -- Drag in real fluids -- Drag and flexibility -- Vertical velocity profiles -- Terminal settling velocity -- Fluid dispersal of reproductive structures. -- Plant Electrophysiology. The principle of electroneutrality -- The Nernst-Planck equation -- Membrane potentials -- The Goldman equation -- Ion channels and ion pumps -- The Ussing-Teorell equation -- Electrical currents and gravisensitivity -- Action potentials -- Electrical signaling in plants. -- A Synthesis: the Properties of Selected Plant Materials, Cells, and Tissues. The plant cuticle -- A brief introduction to the primary cell wall -- Cell wall stress and expansion resulting from turgor -- The plasmalemma and cell wall deposition -- The epidermis and the tissue tension hypothesis -- Hydrostatic tissues -- Stresses in thick-walled cylinders -- Compression of spherical turgid cells -- Nonhydrostatic cells and tissues -- Cellular solids -- Tissue stresses and growth stresses -- Secondary growth and reaction wood -- Wood as an engineering material. -- Experimental Tools. Anatomical methods on a microscale -- Mechanical measuring techniques on a macroscale -- An example of applied biomechanics: Tree risk assessment -- Mechanical measuring techniques on a microscale -- Scholander pressure chamber -- Pressure probe -- Recording of electric potentials and electrical currents -- Patch clamp techniques -- Biomimetics. -- Theoretical Tools. Modeling -- Morphology: The problematic nature of structure-function relationships -- Theoretical morphology, optimization, and adaptation -- Size, proportion, and allometry -- Comparison of regression parameters -- Finite element methods (FEM) -- Optimization techniques -- Optimal allocation of biological resources -- Lagrange multipliers and Murray's law
Control code
ocn779173734
Dimensions
unknown
Extent
1 online resource (xx, 426 pages)
File format
unknown
Form of item
online
Isbn
9780226586342
Level of compression
unknown
Other physical details
illustrations, digital
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
(OCoLC)779173734

Library Locations

    • InternetBorrow it
      Albany, Auckland, 0632, NZ
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