Symbioses and stress : joint ventures in biology
著者
書誌事項
Symbioses and stress : joint ventures in biology
(Cellular origin and life in extreme habitats and astrobiology, v. 17)
Springer, c2010
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注記
Includes bibliographical references and indexes
内容説明・目次
内容説明
When one picks up a multiauthored book in a series like this, one wonders what will be distinctive about its contents. one wonders about the "Concept of Symbiosis. " does it have the same meaning for all authors and all potential readers? one is further tempted to question the concept of stress. What is the meaning of the c- cept of stress? Some change in the biotic or abiotic aspects of the environment or habitat of the symbiotic partners? many might support the more general def- tion of symbiosis credited to de bary (1879), that symbiosis is the living together of separately named organisms. Something like Smith's (1992) more restricted PoLLnPia (P ermanent or Long-Lived intimate associations between diffe- ent organisms, usually of different sizes, in which the larger organism, the host, exploits the capabilities of one or more smaller organisms) seems to be a better ft for a book centered on the effects of stress on symbiosis. PoLLnPia implies an integrated holobiont system that has adapted itself to living successfully in a particular environment that could be construed as harsh for nonsymbiotic s- tems. often, when queried for examples, one thinks of lichens, of corals living in oligotrophic tropical waters, of Pompeii worms living in association with che- lithotrophic bacteria, and of all sorts of herbivorous animals living in associations with microorganisms.
Presumably, the hosts could not survive, or thrive, in their habitats without their smaller partners doing their trophic work for their holo- otic systems.
目次
Foreword / John. J. Lee
Preface / Joseph Seckbach and Martin Grube
Acknowledgements
List of authors and their addresses
PART 1: GENERAL INTRODUCTION
On the Origin of Symbiosis [Jan Sapp]
Symbioses and Stress [Martin Grube, James F. White, and Joseph Seckbach]
PART 2: SYMBIOTIC ORIGIN OF EUKARYOTES
Problems and Progress in Understanding the Origins of Mitochondria and Plastids [Bruce A. Curtis and John M. Archibald]
The Origin of Eukarya as a Stress Response of Two-Membrane-Bounded Sexual Pre-Karyote to an Aggressive a-Proteobacterial Periplasmic Infection [Matej Vesteg and Juraj Kraj?ovi?]
Low CO2 Stress: Glaucocystophytes May Have Found a Unique Solution [Wolfgang Loeffelhardt]
PART 3: AQUATIC SYMBIOSES
Animal-Bacterial Endosymbioses of Gutless Tube-Dwelling Worms in Marine Sediments [Takeshi Naganuma]
Multibiont Symbioses in the Coral Reef Ecosystem [Orit Barneah and Itzchak Brickner]
Cnidarian/Dinoflagellate Symbiosis-Mediated Adaptation to Environmental Pertubations [Sophie Richier, Cecile Sabourault, Christine Ferrier-Pages, Pierre-Laurent Merle, Paola Furla and Denis Allemand] Oxidative Stress-Mediated Development of Symbiosis in Green Paramecia [Tomonoro Kawano, K. Irie and Takashi Kadono]
Coral Symbiosis under Stress [Noga Stambler]
Azolla as a Superorganism: Its Implication in Symbiotic Studies [Francisco Carrapico]
PART 4: TERRESTRIAL SYMBIOSES
Parasitism is a Strong Force Shaping the Fungus-Growing Ant-Microbe Symbiosis [Ainslie E.F. Little]
Evolution and Consequences of Nutrition-Based Symbioses in Insects: More than Food Stress [Edouard Jurkevitch]
Three in a Boat: Host-Plant, Insect Herbivore and Fungal Entomopathogen [Shalom W. Applebaum, Dana Ichelczik and Richard A. Humber]
Symbiotic Foraminifera and Stress [Alexander V. Altenbach, Christine Boehmer, Frank Gitter, Benjamin Lauchli and Hanne-Lore Wieczorek]
Arbuscular Mycorrhizal Symbiosis under Stress Conditions: Benefits and Costs [Hinanit Koltai and Yoram Kapulnik]
Modulation of AquaporinGenes by the Arbuscular Mycorrhizal Symbiosis in Relation to Osmotic Stress Tolerance: Aquaporin in Plants under Osmotic Stress [Juan M. Ruiz-Lozano and Ricardo Aroca]
How Rhizobia Survive in the Absence of a Legume Host, a Stressful World Indeed [Ann Hirsch]
Life on a Leaf: Bacterial Epiphytes of a Salt-Excreting Desert Tree [Shimshon Belkin and Noga Qvit-Raz]
Physiological Responses to Stress in the Vibrionaceae [William Soto, C. Phoebe Lostroh and Michele K. Nishiguchi]
The Stressed Life of Microbes in Plants [Maria Grilli Caiola and Antonella Canini]
Symbiotic Plant-Microbe Interactions: Stress Protection, Plant Growth Promotion and Biocontrol by Stenotrophomonas [Gabriele Berg, Dilfuza Egamberdieva, Ben Lugtenberg and Martin Hagemann]
Adaptation and Survival of Plants in High Stress Habitats via Fungal Endophyte Conferred Stress Tolerance [Rusty J. Rodriguez, Claire Woodward, and Regina S. Redman]
Grass Endophyte-Mediated Plant Stress Tolerance: Alkaloids and their Functions [Monica S. Torres and James F. White]
Endocytosis in Plant - Fungal Interactions [Maya Bar and Adi Avni]
Die Hard: Lichens [Martin Grube]
Stress and Developmental Strategies in Lichens [Elfriede Stocker-Woergoetter]
Green Algae and Fungi in Lichens Symbionts - but Friends or Foes? [Russel L. Chapman and Melanie R. Chapman]
Green Biofilms on Tree Barks: More than Just Algae [Katharina Freystein and Werner Reisser]
PART 5: SYMBIOSES AND ASTROBIOLOGY
Space Flight Effects on Lichen Ultrastructure and Physiology: Following the Lichens 2005 Experiment On-Board the Biopan V Space Exposure Facility [Asuncion de los Rios, Carmen Ascaso, Jacek Wierzchos and Leopoldo G. Sancho]
Resistance of Symbiotic Eukaryotes Survival to Simulated Space Conditions and Asteroid Impact Cataclysms [Jean-Pierre P. de Vera and Sieglinde Ott]
PART 6: SUMMARY AND CONCLUSIONS
Symbioses and Stress: Final comments [Martin Grube and Joseph Seckbach]
Organisms Index
Subject Index
Authors Index
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