Symbiosis as a Source of Evolutionary Innovation: Speciation and MorphogenesisLynn Margulis, René Fester These original contributions by symbiosis biologists and evolutionary theorists address the adequacy of the prevailing neo-Darwinian concept of evolution in the light of growing evidence that hereditary symbiosis, supplemented by the gradual accumulation of heritable mutation, results in the origin of new species and morphological novelty.A departure from mainstream biology, the idea of symbiosis--as in the genetic and metabolic interactions of the bacterial communities that became the earliest eukaryotes and eventually evolved into plants and animals--has attracted the attention of a growing number of scientists.These original contributions by symbiosis biologists and evolutionary theorists address the adequacy of the prevailing neo-Darwinian concept of evolution in the light of growing evidence that hereditary symbiosis, supplemented by the gradual accumulation of heritable mutation, results in the origin of new species and morphological novelty. They include reports of current research on the evolutionary consequences of symbiosis, the protracted physical association between organisms of different species. Among the issues considered are individuality and evolution, microbial symbioses, animal-bacterial symbioses, and the importance of symbiosis in cell evolution, ecology, and morphogenesis. Lynn Margulis, Distinguished Professor of Botany at the University of Massachusetts at Amherst, is the modern originator of the symbiotic theory of cell evolution. Once considered heresy, her ideas are now part of the microbiological revolution. ContributorsPeter Atsatt, Richard C. Back, David Bermudes, Paola Bonfante-Fasolo, René Fester, Lynda J. Goff, Anne-Marie Grenier, Ricardo Guerrero, Robert H. Haynes, Rosmarie Honegger, Gregory Hinkle, Kwang W. Jeon, Bryce Kendrick, Richard Law, David Lewis, Lynn Margulis, John Maynard Smith, Margaret J. McFall-Ngai, Paul Nardon, Kenneth H. Nealson, Kris Pirozynski, Peter W. Price, Mary Beth Saffo, Jan Sapp, Silvano Scannerini, Werner Schwemmler, Sorin Sonea, Toomas H. Tiivel, Robert K. Trench, Russell Vetter |
Contents
Symbiogenesis and Symbionticism | 1 |
Symbiosis and Cytoplasmic | 15 |
A Darwinian View of Symbiosis | 26 |
Modes of Mutation and Repair in Evolutionary Rhythms | 40 |
Origins and Evolution | 57 |
Symbiosis Inferred from the Fossil Record | 72 |
Daptobacter | 106 |
Symbiont Acquisition and Possible | 118 |
Nematodes | 205 |
Fungal Symbioses and Evolutionary Innovations | 249 |
Development over 3 8 Billion Years | 262 |
Bacteria and Bacterialike Objects in Endomycorrhizal Fungi | 273 |
Mutualistic Symbioses in the Origin and Evolution of Land | 288 |
Fungi and the Origin of Land Plants | 301 |
Symbiosis and Morphogenesis | 319 |
Symbiosis Interspecific Gene Transfer and the Evolution | 341 |
Status of the Theory of the Symbiotic Origin of Undulipodia | 135 |
Cyanophora paradoxa Korschikoff and the Origins | 143 |
The Role | 153 |
InsectBacteria | 170 |
Symbiogenesis in Insects as a Model for Morphogenesis Cell | 178 |
Galls Flowers Fruits and Fungi | 364 |
Adaptive | 381 |
Lessons | 410 |
About the Authors | 431 |
Other editions - View all
Symbiosis as a Source of Evolutionary Innovation: Speciation and Morphogenesis Lynn Margulis,Rene Fester No preview available - 1991 |
Symbiosis as a Source of Evolutionary Innovation: Speciation and Morphogenesis Lynn Margulis,Rene Fester No preview available - 1991 |
Common terms and phrases
adaptations Akhurst algae algal angiosperms animal aposymbiotic ascomycetes associations bacteria bacteriocytes bacterium Bermudes biochemical Biol biologists Biology bionts biosis biotic Bonfante-Fasolo cellular chloroplasts chromosomes Coevolution complex cyanobacteria Cyanophora cytoplasmic ecology Endocytobiology endocytobionts endosymbionts eukaryotic eukaryotic cells evolution evolutionary innovation evolved Figure fossil fungal fungi fungus galls gametophyte gas bladder gene transfer genetic genome habitats host cell insect interactions intracellular Jeon leiognathids lichens light organ manhattensis Margulis mechanisms membrane metabolic microbial microorganisms mitochondria molecular molgulids morphology mutagenesis mutations mutualism mutualistic mycobionts mycorrhizal Nardon Nealson nematode Nephromyces nuclear nucleus organelles origin oryzae parasite partners phenotype photobionts photosynthetic physiological Pirozynski plants plastids produced prokaryotes protein repair replication replicons Riftia Saffo Schwemmler Science selection sequence Sitophilus Smith Solemya Sonea source of evolutionary species spores structures subunit sulfide Symbiogenesis symbionts symbiosis symbiotic phenotype synthesis taxa theory thiotrophic Tiivel tion tissue undulipodia University Press Vetter Wallin Xenorhabdus
References to this book
Holistic Darwinism: Synergy, Cybernetics, and the Bioeconomics of Evolution Peter Corning Limited preview - 2010 |
Biodiversity: An Ecological Perspective Takuya Abe,Simon A. Levin,Masahiko Higashi No preview available - 1996 |