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Microbial Life in the Cryosphere and Its Feedback on Global Change

Susanne Liebner, Lars Ganzert (Herausgeber)

Buch | Hardcover
XVI, 269 Seiten
2021
De Gruyter (Verlag)
978-3-11-049645-1 (ISBN)
CHF 174,90 inkl. MwSt
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The cryosphere stands for environments where water appears in a frozen form. It includes permafrost, glaciers, ice sheets, and sea ice and is currently more affected by Global Change than most other regions of the Earth. In the cryosphere, limited water availability and subzero temperatures cause extreme conditions for all kind of life which microorganisms can cope with extremely well. The cryosphere’s microbiota displays an unexpectedly large genetic potential, and taxonomic as well as functional diversity which, however, we still only begin to map. Also, microbial communities influence reaction patterns of the cryosphere towards Global Change. Altered patterns of seasonal temperature fluctuations and precipitation are expected in the Arctic and will affect the microbial turnover of soil organic matter (SOM). Activation of nutrients by thawing and increased active layer thickness as well as erosion renders nutrient stocks accessible to microbial activities. Also, glacier melt and retreat stimulate microbial life in turn influencing albedo and surface temperatures. In this context, the functional resilience of microbial communities in the cryosphere is of major interest. Particularly important is the ability of microorganisms and microbial communities to respond to changes in their surroundings by intracellular regulation and population shifts within functional niches, respectively. Research on microbial life exposed to permanent freeze or seasonal freeze-thaw cycles has led to astonishing findings about microbial versatility, adaptation, and diversity. Microorganisms thrive in cold habitats and new sequencing techniques have produced large amounts of genomic, metagenomic, and metatranscriptomic data that allow insights into the fascinating microbial ecology and physiology at low and subzero temperatures. Moreover, some of the frozen ecosystems such as permafrost constitute major global carbon and nitrogen storages, but can also act as sources of the greenhouse gases methane and nitrous oxide. In this book we summarize state of the art knowledge on whether environmental changes are met by a flexible microbial community retaining its function, or if the altered conditions also render the community in a state of altered properties that affect the Earth’s element cycles and climate. This book brings together research on the cryosphere’s microbiota including permafrost, glaciers, and sea ice in Arctic and Antarctic regions. Different spatial scales and levels of complexity are considered, spanning from ecosystem level to pure culture studies of model microbes in the laboratory. It aims to attract a wide range of parties with interest in the effect of climate change and/or low temperatures on microbial nutrient cycling and physiology.

lt;strong>Mathias Bonk, Berlin. Timo Ulrichs, Berlin.

Book Review:

Microbial Life of the Deep Biosphere (2014) edited by Jens Kallmeyer and Dirk Wagner, Walter de Gruyer GmbH, Berlin/Boston

Thomas L. Kieft
New Mexico Tech

Subseafloor sediments and crust as well as the groundwater environments beneath the continents comprise something of a last frontier among the Earth's ecosystems in terms of scientific exploration and discovery. Early reports of microbes in deep Earth environments, e.g., John Parkes' meticulous microscopic counts of microbes in subseafloor sediments, were often met with skepticism that these microbes were merely drilling contaminants or dead cells; but now, happily, deep life studies have matured such that the existence of the deep biosphere is widely accepted. The Ocean Drilling Program and its successors, currently the International Ocean Discovery Program (IODP), have devoted considerable resources to biological aspects of subseafloor environs; the International Continental Scientific Drilling Program and various other initiatives, including probes of the deep Earth via mines and underground research labs, have made similar progress in exploring and understanding the highly varied on-shore groundwater environments. Expanded drilling opportunities and biotechnological advances have enabled clear demonstrations that deep microbes are phylogenetically and metabolically diverse and that they're alive and well and actively contribute to biogeochemical cycling. Given the recent progress in deep life studies, the publication of Microbial Life of the Deep Biosphere, edited by Jens Kallmeyer and Dirk Wagner, as the first volume in a series on Life in Extreme Environments, is extremely timely. The book can serve as an introduction to the deep biosphere for neophytes or as an update on the latest findings for those who are already knowledgeable in the field.
The book opens with an update on the past 10 years of IODP seafloor sediment studies by Parkes and colleagues and continues to other subsurface habitats with chapters on basaltic ocean crust by Jennifer Biddle and coauthors and continental hard rock environments by Karsten Pedersen. Parkes' more recent counts continue to show a logarithmic decrease in microbial abundance with depth; he and coauthors also review recent findings of a dominant core group of microbial taxa that are widespread in marine sediments. As a whole, the book focuses more attention on marine than continental systems, but Pedersen's chapter and also later chapters on petroleum reservoirs by Bernard Ollivier and coauthors, on carbon sequestration and geothermal energy development by Masal Alawi, and on Mars (and Earth analogs) by Charles Cockell give a good picture of the geologically and microbiologically varied subterranean habitats. Specialized groups of microbes to which chapters are devoted are the Archaea (Andreas Teske) and fungi, which some still consider to be artifacts or merely buried, dead cells, but Virginia Edgecomb and coauthors present strong arguments for their being indigenous and active, similar to their prokaryotic counterparts. There's growing evidence for the importance of viruses as controllers of prokaryotic biomass and as vectors for gene transfer (touched on briefly by Pedersen), so this reviewer would like to have seen a chapter devoted to them. Technical issues addressed in separate chapters include the challenges of cultivating subsurface microbes, a comparison of methods for quantifying subsurface microbes by Karen Lloyd, and nanoSIMS (secondary ion mass spectrometry) and other approaches for querying the activities of single cells, by Yukio Marono and coauthors. As Morono points out, the potential for combining these methods, e.g., single cell genomics with nanoSIMS is especially exciting. Final chapters are devoted to quantitative, ecosystem-level issues of basin-scale modeling of microbial processes in petroleum hydrocarbon reservoirs (Rolando di Primio), estimating rates of catabolism of various functional groups in the subsurface based on Gibbs free energy calculations (Doug LaRowe and Jan Amend), and quantidying rates of metabolism and carbon turnover in subsurface sediments where the available energy may only barely meet maintenance requirements (Hans Røy).
In summary, Kallmeyer and Wagner recruited active researchers, each with expertise in an important area of subsurface microbiology, to write richly referenced overview chapters. Each details the current state of knowledge and most also identify major gaps in our understanding and directions for future research. Microbial Life of the Deep Biosphere is a fine addition to a university library or the personal library of a geologist, biologist, naturalist, or any combination thereof.

Erscheinungsdatum
Reihe/Serie Life in Extreme Environments ; 7
Zusatzinfo 8 b/w and 44 col. ill., 13 b/w tbl.
Verlagsort Berlin/Boston
Sprache englisch
Maße 170 x 240 mm
Gewicht 828 g
Themenwelt Naturwissenschaften Biologie Mikrobiologie / Immunologie
Sozialwissenschaften Kommunikation / Medien Buchhandel / Bibliothekswesen
Schlagworte Arctic • carbon cycle • Greenhouse Gases • Microbial diversity • permafrost
ISBN-10 3-11-049645-3 / 3110496453
ISBN-13 978-3-11-049645-1 / 9783110496451
Zustand Neuware
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