Encyclopedia of Geobiology: Encyclopedia of Earth Sciences Series
Editat de Joachim Reitner H.W. Fritz Editat de Volker Thiel Andreas Kappler, Kurt Konhauser, Pamela Reid, Xingliang Zhangen Limba Engleză Electronic book text – 9 mar 2011
Din seria Encyclopedia of Earth Sciences Series
- 18% Preț: 3286.55 lei
- 18% Preț: 1862.56 lei
- 18% Preț: 3589.92 lei
- 18% Preț: 3311.76 lei
- 18% Preț: 3041.27 lei
- 18% Preț: 3838.28 lei
- 18% Preț: 3903.34 lei
- 18% Preț: 2770.54 lei
- 18% Preț: 3060.47 lei
- 18% Preț: 3581.59 lei
- 18% Preț: 3312.68 lei
- 18% Preț: 2745.05 lei
- 18% Preț: 2980.11 lei
- 18% Preț: 1811.71 lei
- 24% Preț: 2392.26 lei
- 18% Preț: 2993.38 lei
- 18% Preț: 3267.39 lei
- 24% Preț: 2672.29 lei
- 24% Preț: 3329.20 lei
- 24% Preț: 1685.65 lei
- 24% Preț: 2953.18 lei
- 24% Preț: 1685.12 lei
- 14% Preț: 2198.26 lei
- 9% Preț: 1677.82 lei
- 14% Preț: 1632.58 lei
- 14% Preț: 1849.21 lei
- 14% Preț: 2571.39 lei
- 14% Preț: 1945.49 lei
- 14% Preț: 1945.49 lei
- 14% Preț: 1945.49 lei
- 14% Preț: 1945.49 lei
- 9% Preț: 2703.12 lei
- 14% Preț: 1945.49 lei
- 14% Preț: 1945.49 lei
- 14% Preț: 2130.86 lei
Preț: 1945.49 lei
Preț vechi: 2262.20 lei
-14% Nou
Puncte Express: 2918
Preț estimativ în valută:
372.57€ • 390.79$ • 309.04£
372.57€ • 390.79$ • 309.04£
Indisponibil temporar
Doresc să fiu notificat când acest titlu va fi disponibil:
Se trimite...
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9781402092121
ISBN-10: 1402092121
Pagini: 955
Dimensiuni: 210 x 279 mm
Ediția:2011
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Encyclopedia of Earth Sciences Series
Locul publicării:Dordrecht, Netherlands
ISBN-10: 1402092121
Pagini: 955
Dimensiuni: 210 x 279 mm
Ediția:2011
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Encyclopedia of Earth Sciences Series
Locul publicării:Dordrecht, Netherlands
Public țintă
ResearchCuprins
Acetogens.-Acid
Rock
Drainage.- Acidophiles.-Acritarchs.-
Aerobic
Metabolism.-Algae
(Eukaryotic)
.-Alkalinity.-Amber.-Anaerobic
Oxidation
of
Methane
with
Sulfate.-Anaerobic
Transformation
Processes,
Microbiology.-Anammox.-Animal
Biocalcification,
Evolution.-Animal
Skeletons,
Advent.-Archaea.-Arsenic.-Asteroid
and
Comet
Impacts.-Astrobiology.-Bacteria.-Bacterioplankton.-Banded
Iron
Formations.-Basalt
(Glass,
Endoliths)
.-Beggiatoa.-Biodeterioration
(of
Stone).-Bioerosion.-Biofilms.-Biofilms
and
Fossilization.-
Biogeochemical
Cycless.-
Biological
Control
on
Diagenesis:
Influence
of
Bacteria
and
Relevance
to
Ocean
Acidification.-Biological
Volcanic
Rock
Weathering.-Biomarkers
(Molecular
Fossils).
-Biomarkers
(Organic,
Compound-Specific
Isotopes).-
Biomining
(Mineral
Bioleaching,
Mineral
Biooxidation).-Bioprotection.-
Biosignatures
in
Rocks.-
Biosilicification.-
Black
Shales.-
Breakup
of
Rodinia.-
Calcareous
Algae.-
Calcification.-Calcified
Cyanobacteria.-Calcite
Precipitation,
Microbially
Induced.-Calcium
Biogeochemistry.-Cap
Carbonates.-Carbon
(Organic,
Cycling)
.-Carbon
(Organic,
Degradation)
.-Carbon
Cycle.-Carbon
Isotopes.-Carbonate
Environments.-Carbonates.-Cathodoluminescence
Microscopy.-Chemolithotrophy.-Cherts.-Chondrites.-Chroococcidiopsis.-Clay
Authigenesis,
Bacterial.-Coccolithophores.-Cold
Seeps.-Comets.-Commensalism.-Community.-Copper.-Cosmic
Molecular
Clouds.-Critical
Intervals
in
Earth
History.-Cryobiosphere.-Cyanobacteria.-Deep
Biosphere
of
Salt
Deposits.-Deep
Biosphere
of
Sediments.-Deep
Biosphere
of
the
Oceanic
Deep
Sea.-Deep
Fluids.-Degradation
(of
Organic
Matter)
.-Denitrification.-Desert
Varnish.-Detachment.-Diatoms.-Dinoflagellates.-Divalent
Earth
Alkaline
Cations
in
Seawater.-Diversity.-Dolomite,
Microbial.-Early
Earth.-Early
Precambrian
Eukaryotes.-Ecological
Niche.-Ediacaran
Biota.-Endoliths.-Endosymbiosis.-Evaporites.-Exoenzymes.-Extracellular
Polymeric
Substances
(EPS)
.-Extreme
Environments.-Fe(II)-Oxidizing
Prokaryotes.-Fe(III)-Reducing
Prokaryotes.-Fermentation.-Fluorescence
In
Situ
Hybridization
(FISH)
.-Foraminifera.-Frutexites.-Fungi
and
Lichens.-Gallionella.-Geobacter.-Geochronology.-Geomycology.-Geyserite.-Glass.-Glaucophytes.-Gold.-Gondwanaland,
Formation.-Great
Oxygenation
Event
(GOE)
.-Green
Algae.-Guild.-Habitat.-Halobacteria
–
Halophiles.-Haptophytes.-Heavy
Metals.-Histology.-Hot
Springs
and
Geysers.-Hydrogen.-Hydrothermal
Environments,
Fossil.-Hydrothermal
Environments,
Marine.-Hydrothermal
Environments,
Terrestrial.-Hypersaline
Environments.-Ichnology.-Immunolocalization.-Iron
Isotopes.-Iron
Sulfide
Formation.-Isotope
Fractionation
(Metal)
.-Isotopes
(Methods)
.-Isotopes
and
Geobiology.-Isotopes,
Radiogenic.-Karst
Ecosystems.-Lateral
Gene
Transfer.-Leptothrix.-Magnetotactic
Bacteria.-Manganese
(Sedimentary
Carbonates
and
Sulfides)
.-Mass
Extinctions,
Phanerozoic.-Mat-Related
Sedimentary
Structures.-Metagenomics.-Metalloenzymes.-Metallogenium.-Metals,
Acquisition
by
Marine
Bacteria.-Meteoritics.-Methane
Oxidation
(Aerobic)
.-Methane,
Origin.-Methanogens.-Microbial
Biomineralization.-Microbial
Communities,
Structure,
and
Function.-Microbial
Degradation.-Microbial
Ecology
of
Submarine
Caves.-Microbial
Mats.-Microbial
Silicification
–
Bacteria
(or
Passive)
.-Microbial
Surface
Reactivity.-Microbialites,
Modern.-Microbialites,
Stromatolites,
and
Thrombolites.-Microbial-Metal
Binding.-Microbiocorrosion.-Microsensors
for
Sediments,
Microbial
Mats,
and
Biofilms.-Molar-tooth
Structure.-Moonmilk.-Mud
Mounds.-Mutualism.-Mycorrhizae.-Nan(n)obacteria.-Nanocrystals,
Microbially
Induced.-Nickel,
Biology.-Nitrification.-Nitrogen.-Nitrogen
Fixation.-Ores,
Microbial
Precipitation
and
Oxidation.-Organic
Carbon.-Organomineralization.-Origin
of
Life.-Origins
of
the
Metazoa.-Parasitism.-Pedogenic
Carbonates.-Permafrost
Microbiology.-Phosphorus,
Phosphorites.-Photosynthesis.-Piezophilic
Bacteria.-Pore
Waters.-Protozoa
(Heterotroph,
Eukaryotic)
.-Pyrite
Oxidation.-Radioactivity
(Natural)
.-Radiolaria.-Raman
Microscopy
(Confocal)
.-Reduction
Spheroids.-Reefs.-Remineralization
(of
Organic
Matter)
.-Rhodophyta.-RNA-World.-Saline
Lakes.-Salinity
History
of
the
Earth’s
Ocean.-Scanning
Probe
Microscopy
(Includes
Atomic
Force
Microscopy)
.-Sediment
Diagenesis
–
Biologically
Controlled.-Selenium.-Shales.-Shewanella.-Siderite.-Siderophores.-Silica
Biomineralization,
Sponges.-Silicoflagellates.-Sinter.-Skeleton.-Small
Shelly
Fossils.-Snowball
Earth.-Soda
Lakes.-Soda
Ocean
Hypothesis.-Soils.-Species
(Microbial)
.-Speleothems.-Sponges
(Porifera)
and
Sponge
Microbes.-Stromatactis.-Stromatolites.-Subsurface
Filamentous
Fabrics.-Sulfate-Reducing
Bacteria.-Sulfide
Mineral
Oxidation.-Sulfur
Cycle.-Sulfur
Isotopes.-Symbiosis.-Syntrophy.-Terrestrial
Deep
Biosphere.-Thioester
World.-Thiomargarita.-Thiotrophic
Bacteria.-Thrombolites.-Tidal
Flats.-TOF-SIMS.-Trace
Fossils:
Neoproterozoic.-Tufa,
Freshwater.-Waulsortian
Mud
Mounds.-Whale
and
Wood
Falls.-Zinc.
Recenzii
From
the
reviews:
“This new encyclopedia features 228 articles written by 165 experts worldwide. … deal with a wide range of topics, including micro- and macro- organisms, the relationship between life-forms and geologic environments, features and deposits, and biogeochemical processes. … The Encyclopedia of Geobiology is the only comprehensive volume on the topic presently available. … some would be understandable to undergraduates, but most would be more useful to graduate students and professionals. Summing Up: Recommended. Research collections serving graduate students through professionals in the earth sciences.” (L. R. Zellmer, Choice, Vol. 49 (1), September, 2011)
“There are about 200 full entries … in this encyclopaedia. … The book is well laid out. There are a reasonable number of diagrams and maps and many pictures. … I enjoyed rummaging through this book and learned a lot. Any one involved in geobiology (or either component partner) will get good value from this volume.” (John Goodier, Reference Reviews, Vol. 26 (1), 2012)
“This new encyclopedia features 228 articles written by 165 experts worldwide. … deal with a wide range of topics, including micro- and macro- organisms, the relationship between life-forms and geologic environments, features and deposits, and biogeochemical processes. … The Encyclopedia of Geobiology is the only comprehensive volume on the topic presently available. … some would be understandable to undergraduates, but most would be more useful to graduate students and professionals. Summing Up: Recommended. Research collections serving graduate students through professionals in the earth sciences.” (L. R. Zellmer, Choice, Vol. 49 (1), September, 2011)
“There are about 200 full entries … in this encyclopaedia. … The book is well laid out. There are a reasonable number of diagrams and maps and many pictures. … I enjoyed rummaging through this book and learned a lot. Any one involved in geobiology (or either component partner) will get good value from this volume.” (John Goodier, Reference Reviews, Vol. 26 (1), 2012)
Notă biografică
Dr.
Joachim
Reitneris
Professor
of
Paleontology,
Head
of
the
Department
of
Geobiology,
and
Managing
Director
of
the
Museum,
Collections
and
Geopark,
at
the
University
of
Göttingen,
Germany.
He
is
also
Editor-in-Chief
of
Lecture
Notes
in
Earth
Sciences
(Springer),
Co-Editor
of
Facies
(Springer),
and
Associate
Editor
of
the
Geomicrobiology
Journal
(Taylor
&
Francis).
Dr. Reitner’s research focuses on the interplay between organisms and their metabolic processes with various abiotic parameters. Many geological processes can be understood as geo-physiological processes, allowing chemical reactions that would never run under standard thermodynamic conditions. Therefore, a major thrust of Dr. Reitner’s research activities is the investigation of the evolution of these processes, visible in biosignatures and biomineralization patterns and their interaction with biogeochemical cycles.
Among his many honors and accolades, Dr. Reitner is the recipient of the G. W. Leibniz Award from the Deutsche Forschungsgemeinschaft.
Dr. Volker Thielis Professor of Organic Geochemistry in the Geoscience Center at the University of Göttingen, Germany. Dr. Thiel has been involved in geobiological research for some 15 years, with a focus on the use of organic molecules as chemical tracers (biomarkers) for biogeochemical pathways.
His research interests include lipid biomarkers as indicators for biogeochemical processes; molecular fossils, biological formation, and turnover of methane; and microbial control on mineral formation. The results of his studies have significantly contributed to identifying the microbial processes associated with methane turnover in modern and ancient environments. Much of Dr. Thiel’s current work is devoted to new approaches to enhance the spatial resolution of biomarker analysis in geobiological systems.
Dr. Reitner’s research focuses on the interplay between organisms and their metabolic processes with various abiotic parameters. Many geological processes can be understood as geo-physiological processes, allowing chemical reactions that would never run under standard thermodynamic conditions. Therefore, a major thrust of Dr. Reitner’s research activities is the investigation of the evolution of these processes, visible in biosignatures and biomineralization patterns and their interaction with biogeochemical cycles.
Among his many honors and accolades, Dr. Reitner is the recipient of the G. W. Leibniz Award from the Deutsche Forschungsgemeinschaft.
Dr. Volker Thielis Professor of Organic Geochemistry in the Geoscience Center at the University of Göttingen, Germany. Dr. Thiel has been involved in geobiological research for some 15 years, with a focus on the use of organic molecules as chemical tracers (biomarkers) for biogeochemical pathways.
His research interests include lipid biomarkers as indicators for biogeochemical processes; molecular fossils, biological formation, and turnover of methane; and microbial control on mineral formation. The results of his studies have significantly contributed to identifying the microbial processes associated with methane turnover in modern and ancient environments. Much of Dr. Thiel’s current work is devoted to new approaches to enhance the spatial resolution of biomarker analysis in geobiological systems.
Textul de pe ultima copertă
The
interplay
between
Geology
and
Biology
has
shaped
the
Earth
from
the
early
Precambrian, 4
billion
years
ago. Moving
beyond
the
borders
of
the
classical
core
disciplines,
Geobiology
strives
to
identify
cause-and-effect
chains
and
synergisms
between
the
geo-
and
the
biospheres
that
have
been
driving
evolution
of
life
in
modern
and
ancient
environments.
Combining
modern
methods,
geobiological
information
can
be
extracted
not
only
from
visible
remains
of
organisms,
but
also
from
organic
molecules,
rock
fabrics,
minerals,
isotopes
and
other
tracers.
Exploring
these
processes
and
their
signatures
also
creates
enormous
applied
potentials
with
respect
to
issues
of
environment
protection,
public
health,
energy
and
resource
management.
The
Encyclopedia
of
Geobiology
is
designed
as
a
key
reference
for
students,
researchers,
teachers,
and
the
informed
public
to
provide
basic,
but
comprehensible
knowledge
on
this
rapidly
expanding
discipline
at
the
interface
between
modern
geo-
and
biosciences.
Caracteristici
The
only
key
resource
in
the
rapidly
expanding
area
of
geobiology
Cross disciplinary conception from the outset and execution
Extensive and comprehensible compilation of modern geobiological methods
Includes supplementary material: sn.pub/extras
Cross disciplinary conception from the outset and execution
Extensive and comprehensible compilation of modern geobiological methods
Includes supplementary material: sn.pub/extras