Biophysical and size-dependent perspectives on plant evolution

Physical laws and processes have profoundly influenced plant evolution. Their effects are invariably size dependent and thus subject to scaling as well as biophysical analyses even though these effects differ depending upon the fluid (water or air) in which plants evolve. Although organisms cannot o...

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Published inJournal of experimental botany Vol. 64; no. 15; pp. 4817 - 4827
Main Author Niklas, Karl J
Format Journal Article
LanguageEnglish
Published England Oxford University Press [etc.] 01.11.2013
Oxford University Press
Subjects
air
anatomy & histology
Biological Evolution
Biomechanical Phenomena
Biophysics
body size
Botany
Cell walls
Cells
Ecosystem
Embryophyta
Embryophyta - anatomy & histology
Embryophyta - genetics
Evolution
Fossils
genetics
habitats
Mechanical stress
Phenotype
phylogeny
Plant cells
Plant ecology
Plant growth
Plants
Plants - anatomy & histology
Plants - genetics
REVIEW PAPER
vascular tissues
Water transportation
scaling relationships
allometry
constraints
Algae
fossil record
embryophytes
Online AccessGet full text
ISSN0022-0957
1460-2431
1460-2431
DOI10.1093/jxb/ers379

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Abstract Physical laws and processes have profoundly influenced plant evolution. Their effects are invariably size dependent and thus subject to scaling as well as biophysical analyses even though these effects differ depending upon the fluid (water or air) in which plants evolve. Although organisms cannot obviate the effects of physical laws and processes, the consequences of these effects can be altered by ontogenetic or phylogenetic alterations in geometry, shape, or orientation as well as in body size. These assertions are examined using theoretical insights and empirical data drawn from extant and fossil plants pertinent to four evolutionary transitions: (1) the evolution of multicellularity, (2) the transition from an aquatic to an aerial habitat, (3) the evolution of vascular tissues, and (4) the evolution of secondary growth by the independent acquisition of cambia. This examination shows how physical laws limit phenotypic expression, but how they also simultaneously provide alternative, potentially adaptive possibilities.
AbstractList Physical laws and processes have profoundly influenced plant evolution. Their effects are invariably size dependent and thus subject to scaling as well as biophysical analyses even though these effects differ depending upon the fluid (water or air) in which plants evolve. Although organisms cannot obviate the effects of physical laws and processes, the consequences of these effects can be altered by ontogenetic or phylogenetic alterations in geometry, shape, or orientation as well as in body size. These assertions are examined using theoretical insights and empirical data drawn from extant and fossil plants pertinent to four evolutionary transitions: (1) the evolution of multicellularity, (2) the transition from an aquatic to an aerial habitat, (3) the evolution of vascular tissues, and (4) the evolution of secondary growth by the independent acquisition of cambia. This examination shows how physical laws limit phenotypic expression, but how they also simultaneously provide alternative, potentially adaptive possibilities.
Physical laws and processes have profoundly influenced plant evolution. Their effects are invariably size dependent and thus subject to scaling as well as biophysical analyses even though these effects differ depending upon the fluid (water or air) in which plants evolve. Although organisms cannot obviate the effects of physical laws and processes, the consequences of these effects can be altered by ontogenetic or phylogenetic alterations in geometry, shape, or orientation as well as in body size. These assertions are examined using theoretical insights and empirical data drawn from extant and fossil plants pertinent to four evolutionary transitions: (1) the evolution of multicellularity, (2) the transition from an aquatic to an aerial habitat, (3) the evolution of vascular tissues, and (4) the evolution of secondary growth by the independent acquisition of cambia. This examination shows how physical laws limit phenotypic expression, but how they also simultaneously provide alternative, potentially adaptive possibilities.Physical laws and processes have profoundly influenced plant evolution. Their effects are invariably size dependent and thus subject to scaling as well as biophysical analyses even though these effects differ depending upon the fluid (water or air) in which plants evolve. Although organisms cannot obviate the effects of physical laws and processes, the consequences of these effects can be altered by ontogenetic or phylogenetic alterations in geometry, shape, or orientation as well as in body size. These assertions are examined using theoretical insights and empirical data drawn from extant and fossil plants pertinent to four evolutionary transitions: (1) the evolution of multicellularity, (2) the transition from an aquatic to an aerial habitat, (3) the evolution of vascular tissues, and (4) the evolution of secondary growth by the independent acquisition of cambia. This examination shows how physical laws limit phenotypic expression, but how they also simultaneously provide alternative, potentially adaptive possibilities.
Author Niklas, Karl J
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Snippet Physical laws and processes have profoundly influenced plant evolution. Their effects are invariably size dependent and thus subject to scaling as well as...
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SubjectTerms air
anatomy & histology
Biological Evolution
Biomechanical Phenomena
Biophysics
body size
Botany
Cell walls
Cells
Ecosystem
Embryophyta
Embryophyta - anatomy & histology
Embryophyta - genetics
Evolution
Fossils
genetics
habitats
Mechanical stress
Phenotype
phylogeny
Plant cells
Plant ecology
Plant growth
Plants
Plants - anatomy & histology
Plants - genetics
REVIEW PAPER
vascular tissues
Water transportation
Title Biophysical and size-dependent perspectives on plant evolution
URI https://www.jstor.org/stable/24041832
https://www.ncbi.nlm.nih.gov/pubmed/23362301
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https://www.proquest.com/docview/1663601912
https://academic.oup.com/jxb/article-pdf/64/15/4817/17129260/ers379.pdf
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