ANOXIA defines the lack of free molecular oxygen in an environment. In the presence of organic matter, the metabolism of anaerobic prokaryotes soon produces compounds such as free radicals, hydrogen sulfide, or methane that are typically toxic to aerobes. The concomitance of suppressed respiration and the presence of toxic substances suggests that these habitats are inhospitable to eukaryotes. Ecological definitions thus sometimes term these environments 'Death Zones'. In this book, however, we present a collection of remarkable adaptations to anoxia, observed in protists, fungi, plants and…mehr
ANOXIA defines the lack of free molecular oxygen in an environment. In the presence of organic matter, the metabolism of anaerobic prokaryotes soon produces compounds such as free radicals, hydrogen sulfide, or methane that are typically toxic to aerobes. The concomitance of suppressed respiration and the presence of toxic substances suggests that these habitats are inhospitable to eukaryotes. Ecological definitions thus sometimes term these environments 'Death Zones'. In this book, however, we present a collection of remarkable adaptations to anoxia, observed in protists, fungi, plants and animals. Presented are case studies that provide evidence for controlled beneficial use of anoxia by, for example, organic modification of free radicals, use of alternative electron donors for anaerobic metabolic pathways, and employment of anaerobic symbionts. Marine, freshwater, and terrestrial organisms and habitats are considered. Ecological, cell biological, and physiological studies are included. In addition to these biologically oriented chapters, the book also presents a paleontological perspective by discussing indirect and direct evidence of eukaryote survival in ancient times. For example, the complex and often interwoven existence of oxic and anoxic milieus in space and time is also highlighted. Finally, we revisit the idea that eukaryotic inhabitation of anoxic habitats was established early in Earth history. This book will certainly increase your concepts regarding abilities of EUKARYOTA.
Produktdetails
Produktdetails
Cellular Origin, Life in Extreme Habitats and Astrobiology 21
Artikelnr. des Verlages: 80064737, 978-94-007-1895-1
2012
Seitenzahl: 684
Erscheinungstermin: 20. Oktober 2011
Englisch
Abmessung: 241mm x 160mm x 41mm
Gewicht: 1080g
ISBN-13: 9789400718951
ISBN-10: 9400718950
Artikelnr.: 33394661
Herstellerkennzeichnung
Books on Demand GmbH
In de Tarpen 42
22848 Norderstedt
info@bod.de
040 53433511
Inhaltsangabe
Introduction.- Stepping into the book of Eukaryotes and Anoxia.- List of Authors and their Addresses.- List of External Reviewers and Referees.- Acknowledgment to authors, reviewers and any special people who assisted.- PART I: GENERAL INTRODUCTION.- Anaerobic eukaryotes.- Biogeochemical reactions in marine sediments underlying anoxic water bodies.- Diversity of anaerobic prokaryotes and eukaryotes - breaking long-established dogmas.- PART II: FUNCTIONAL BIOCHEMISTRY.- The biochemical adaptations of mitochondrion-related organelles of parasitic and free-living microbial eukaryotes to low oxygen environments.- Hydrogenosomes and mitosomes: mitochondrial adaptations to life in anaerobic environments.- Adapting to hypoxia: lessons from vascular endothelial growth factor.- PART III: MANAGING ANOXIA.- Magnetotactic protists at the oxic-anoxic transition zones of coastal aquatic environments.- A novel ciliate (Ciliophora: Hypotrichida) isolated from bathyal anoxic sediments.- The wood-eating termite hindgut: diverse cellular symbioses in a microoxic to anoxic environment.- Ecological and experimental exposure of insects to anoxia reveals suprising tolerance.- The unusual response of encysted embryos of the animal extremophile, Artemia franciscana, to prolonged anoxia.- Survival of tardigrades in extreme environments - a model animal for astrobiology.- Long-term anoxia-tolerance in flowering plants.- PART IV: FORAMINIFERA.- Benthic Foraminifera: inhabitants of low-oxygen environments.- Ecological and biological response of benthic Foraminifera under oxygen-depleted conditions: evidence from laboratory approaches.- The response of benthic Foraminifera to low-oxygen conditions of the Peruvian oxygen minimum zone.- Benthic foraminiferal communities and microhabitat selection on the continental shelf off central Peru.- PART V: ZONES AND REGIONS.- Living assemblages from the "Dead Zone" and naturally occurring hypoxic zones.- Thereturn of shallow shelf seas as extreme environments: Anoxia and macrofauna reactions in the northern Adriatic Sea.- Meiobenthos of the oxic/anoxic interface in the south-western region of the Black Sea: abundance and taxonomic composition.- The role of eukaryotes in the anaerobic food web of stratified lakes.- The anoxic Framvaren fjord as a model system to study protistan diversity and evolution.- Characterizing an anoxic habitat: sulphur bacteria in a meromictic alpine lake.- Ophel, the newly discovered hypoxic chemolitho-autotrophic groundwater biome - a window to ancient animal life.- Microbial eukaryotes in the marine subsurface? - PART VI: MODERN ANALOGS AND TEMPLATES FOR EARTH HISTORY.- On the use of stable nitrogen isotopes in present and past anoxic environments.- Carbon and nitrogen isotopic fractionation in Foraminifera: possible signatures from anoxia.- The functionality of pores in benthic Foraminifera in view of bottom water oxygenation. A review.- Anoxia-dysoxia at the sediment-water interface of the southern Tethys in the late Cretaceous: Mishash formation, southern Israel.- Styles of agglutination in benthic Foraminifera from modern Santa Barbara basin sediments and the implications of finding fossil analogs in Devonian and Mississippian black shales.- Did redox conditions trigger test templates in Proterozoic Foraminifera?- The relevance of anoxic and agglutinated benthic Foraminifera to the possible Archean evolution of eukaryotes.- PART VII: FINALS.
Introduction.- Stepping into the book of Eukaryotes and Anoxia.- List of Authors and their Addresses.- List of External Reviewers and Referees.- Acknowledgment to authors, reviewers and any special people who assisted.- PART I: GENERAL INTRODUCTION.- Anaerobic eukaryotes.- Biogeochemical reactions in marine sediments underlying anoxic water bodies.- Diversity of anaerobic prokaryotes and eukaryotes - breaking long-established dogmas.- PART II: FUNCTIONAL BIOCHEMISTRY.- The biochemical adaptations of mitochondrion-related organelles of parasitic and free-living microbial eukaryotes to low oxygen environments.- Hydrogenosomes and mitosomes: mitochondrial adaptations to life in anaerobic environments.- Adapting to hypoxia: lessons from vascular endothelial growth factor.- PART III: MANAGING ANOXIA.- Magnetotactic protists at the oxic-anoxic transition zones of coastal aquatic environments.- A novel ciliate (Ciliophora: Hypotrichida) isolated from bathyal anoxic sediments.- The wood-eating termite hindgut: diverse cellular symbioses in a microoxic to anoxic environment.- Ecological and experimental exposure of insects to anoxia reveals suprising tolerance.- The unusual response of encysted embryos of the animal extremophile, Artemia franciscana, to prolonged anoxia.- Survival of tardigrades in extreme environments - a model animal for astrobiology.- Long-term anoxia-tolerance in flowering plants.- PART IV: FORAMINIFERA.- Benthic Foraminifera: inhabitants of low-oxygen environments.- Ecological and biological response of benthic Foraminifera under oxygen-depleted conditions: evidence from laboratory approaches.- The response of benthic Foraminifera to low-oxygen conditions of the Peruvian oxygen minimum zone.- Benthic foraminiferal communities and microhabitat selection on the continental shelf off central Peru.- PART V: ZONES AND REGIONS.- Living assemblages from the "Dead Zone" and naturally occurring hypoxic zones.- Thereturn of shallow shelf seas as extreme environments: Anoxia and macrofauna reactions in the northern Adriatic Sea.- Meiobenthos of the oxic/anoxic interface in the south-western region of the Black Sea: abundance and taxonomic composition.- The role of eukaryotes in the anaerobic food web of stratified lakes.- The anoxic Framvaren fjord as a model system to study protistan diversity and evolution.- Characterizing an anoxic habitat: sulphur bacteria in a meromictic alpine lake.- Ophel, the newly discovered hypoxic chemolitho-autotrophic groundwater biome - a window to ancient animal life.- Microbial eukaryotes in the marine subsurface? - PART VI: MODERN ANALOGS AND TEMPLATES FOR EARTH HISTORY.- On the use of stable nitrogen isotopes in present and past anoxic environments.- Carbon and nitrogen isotopic fractionation in Foraminifera: possible signatures from anoxia.- The functionality of pores in benthic Foraminifera in view of bottom water oxygenation. A review.- Anoxia-dysoxia at the sediment-water interface of the southern Tethys in the late Cretaceous: Mishash formation, southern Israel.- Styles of agglutination in benthic Foraminifera from modern Santa Barbara basin sediments and the implications of finding fossil analogs in Devonian and Mississippian black shales.- Did redox conditions trigger test templates in Proterozoic Foraminifera?- The relevance of anoxic and agglutinated benthic Foraminifera to the possible Archean evolution of eukaryotes.- PART VII: FINALS.
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