Climate change and the oceanic carbon cycle : variables and consequences
Author(s)
Bibliographic Information
Climate change and the oceanic carbon cycle : variables and consequences
Apple Academic Press, [2017]
Available at 2 libraries
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Note
Includes bibliographical references and index
Contents of Works
- Grand challenges in marine biogeochemistry / Eric P. Achterberg
- A statistical gap-filling method to interpolate global monthly surface ocean carbon dioxide data / Steve D. Jones, Corinne Le Quere, Christian Rodenbeck, Andrew C. Manning, and Are Olsen
- The seasonal sea-ice zone in the glacial southern ocean as a carbon sink / Andrea Abelmann, Rainer Gersonde, Gregor Knorr, Xu Zhang, Bernhard Chapligin, Edith Maier, Oliver Esper, Hans Friedrichsen, Gerrit Lohmann, Hanno Meyer, and Ralf Tiedemann
- On the influence of interseasonal sea surface temperature on surface water pCO2 at 49.0'n/16.5'w and 56.5'n/52.6'w in the north atlantic ocean / Nsikak U. Benson, Oladele O. Osibanjo, Francis E. Asuquo, and Winifred U. Anake
- Carbon export by small particles in the norwegian sea / Giorgio Dall'Olmo and Kjell Arne Mork
- Ubiquitous healthy diatoms in the deep sea confirm deep carbon injection by the biological pump / S. Agusti, J.I. Gonzalez-Gordillo, D. Vaque, M. Estrada, M.I. Cerezo, G. Salazar, J.M. Gasol, and C.M. Duarte
- Carbon export efficiency and phytoplankton community composition in the atlantic sector of the Arctic Ocean / Frederic A.C. Le Moigne, Alex J. Poulton, Stephanie A. Henson, Chris J. Daniels, Glaucia M. Fragoso, Elaine Mitchell, Sophie Richier, Benjamin C. Russell, Helen E.K. Smith, Geraint A. Tarling, Jeremy R. Young, and Mike Zubkov
- Ocean warming-acidification synergism undermines dissolved organic matter assembly / Chi-Shuo Chen, Jesse M. Anaya, Eric Y-T Chen, Erik Farr, and Wei-Chun Chin
- Ocean acidification with (de)eutrophication will alter future phytoplankton growth and succession / Kevin J. Flynn, Darren R. Clark, Aditee Mitra, Heiner Fabian, Per J. Hansen, Patricia M. Glibert, Glen L. Wheeler, Diane K. Stoecker, Jerry C. Blackford, and Colin Brownlee
- Coccolithophore calcification response to past ocean acidification and climate change / Sarah A. O'Dea, Samantha J. Gibbs, Paul R. Bown, Jeremy R. Young, Alex J. Poulton, Cherry Newsam, and Paul A. Wilson
- Near-shore antarctic ph variability has implications for the design of ocean acidification experiments / Lydia Kapsenberg, Amanda L. Kelley, Emily C. Shaw, Todd R. Martz, and Gretchen E. Hofmann
Description and Table of Contents
Description
This title includes a number of Open Access chapters.
This valuable compendium provides an overview of the variables and consequences of oceanic carbon cycling in the context of climate change. The chapters highlight the importance of marine plankton in carbon processing as well as the effects of rising CO2 and temperature in their functioning.
Marine ecosystems are being increasingly threatened by growing human pressures, including climate change. Understanding the consequences that climate change may have is crucial to predict the future of our oceans. Rising temperatures and ocean acidification may profoundly alter the mode of matter and energy transformation in marine ecosystems, which could have irreversible consequences for our planet on ecological timescales. For that reason, the scientific community has engaged in the grand challenge of studying the variables and consequences of oceanic carbon cycling in the context of climate change, which has emerged as a relevant field of science.
The book is broken into four sections:
Understanding the Importance of Ocean Biogeochemistry
Quantifying Oceanic Carbon Variables
Phytoplankton and Oceanic Carbon Cycle
Ocean Acidification
Edited by a researcher with many years of experience and with contributions from scientists from around the world, this volume explores the most important topics on climate change and oceanic carbon cycling.
Table of Contents
Grand Challenges in Marine Biogeochemistry. A Statistical Gap-Filling Method to Interpolate Global Monthly Surface Ocean Carbon Dioxide Data. The Seasonal Sea-Ice Zone in the Glacial Southern Ocean as a Carbon Sink. On the Influence of Interseasonal Sea Surface Temperature on Surface Water pCO2 at 49.0 DegreesN/16.5 DegreesW and 56.5 DegreesN/52.6 DegreesW in the North Atlantic Ocean. Carbon Export by Small Particles in the Norwegian Sea. Ubiquitous Healthy Diatoms in the Deep Sea Confirm Deep Carbon Injection by the Biological Pump. Carbon Export Efficiency and Phytoplankton Community Composition in the Atlantic Sector of the Arctic Ocean. Ocean Warming-Acidification Synergism Undermines Dissolved Organic Matter Assembly. Ocean Acidification with (De)Eutrophication Will Alter Future Phytoplankton Growth and Succession. Coccolithophore Calcification Response to Past Ocean Acidification and Climate Change. Near-Shore Antarctic pH Variability has Implications for the Design of Ocean Acidification Experiments.
by "Nielsen BookData"