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Radiocarbon and climate change : mechanisms, applications and laboratory techniques (2016)

Schuur, Edward A. G. [HerausgeberIn] ; Druffel, Ellen R. M. [HerausgeberIn] ; Trumbore, Susan E. [HerausgeberIn]

[Cham] : Springer

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Call number: 9783319256436 (e-book)

Description / Table of Contents: This book is a useful guide for researchers in ecology and earth science interested in the use of accelerator mass spectrometry technology. The development of research in radiocarbon measurements offers an opportunity to address the human impact on global carbon cycling and climate change. Presenting radiocarbon theory, history, applications, and analytical techniques in one volume builds a broad outline of the field of radiocarbon and its emergent role in defining changes in the global carbon cycle and links to climate change. Each chapter presents both classic and cutting-edge studies from different disciplines involving radiocarbon and carbon cycling. The book also includes a chapter on the history and discovery of radiocarbon, and advances in radiocarbon measurement techniques and radiocarbon theory. Understanding human alteration of the global carbon cycle and the link between atmospheric carbon dioxide levels and climate remains one of the foremost environmental problems at the interface of ecology and earth system science. Many people are familiar with the terms ‘global warming’ and ‘climate change’, but fewer are able to articulate the science that support these hypotheses. This book addresses general questions such as: what is the link between the carbon cycle and climate change; what is the current evidence for the fate of carbon dioxide added by human activities to the atmosphere, and what has caused past changes in atmospheric carbon dioxide? How can the radiocarbon and stable isotopes of carbon combined with other tools be used for quantifying the human impact on the global carbon cycle?

Type of Medium: 12

Pages: 1 Online-Ressource (VII, 315 Seiten) , Illustrationen, Diagramme

ISBN: 9783319256436 , 978-3-319-25643-6

URL: Ebook (access only within the AWI network)

DOI: 10.1007/978-3-319-25643-6

Language: English

Note: Contents 1 Radiocarbon and the Global Carbon Cycle / E.A.G. Schuur, S.E. Trumbore, E.R.M. Druffel, J.R. Southon, A. Steinhof, R.E. Taylor and J.C. Turnbull 2 Radiocarbon Dating: Development of a Nobel Method / R.E. Taylor 3 Radiocarbon Nomenclature, Theory, Models, and Interpretation: Measuring Age, Determining Cycling Rates, and Tracing Source Pools / S.E. Trumbore, C.A. Sierra and C.E. Hicks Pries 4 Radiocarbon in the Atmosphere / J.C. Turnbull, H. Graven and N.Y. Krakauer 5 Radiocarbon in the Oceans / E.R.M. Druffel, S.R. Beaupré and L.A. Ziolkowski 6 Radiocarbon in Terrestrial Systems / E.A.G. Schuur, M.S. Carbone, C.E. Hicks Pries, F.M. Hopkins and S.M. Natali 7 Paleoclimatology / J.R. Southon, R. De Pol-Holz and E.R.M. Druffel 8 Accelerator Mass Spectrometry of Radiocarbon / Axel Steinhof 9 Preparation for Radiocarbon Analysis / S.E. Trumbore, X. Xu, G.M. Santos, C.I. Czimczik, S.R. Beaupré, M.A. Pack, F.M. Hopkins, A. Stills, M. Lupascu and L. Ziolkowski

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Upwelling of Pacific Intermediate Water in the South China Sea Revealed by Coral Radiocarbon Record (2016)

Bolton, Annette ; Goodkin, Nathalie F ; Druffel, Ellen R M ; [et al.]

Cambridge University Press

In: Radiocarbon. 2016; 58(1): 37-53. Published 2016 Jan 26. doi: 10.1017/rdc.2015.4.

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Publication Date: 2016-01-26

Description: Annual radiocarbon from a massive Porites lutea coral collected from Hon Tre Island, Vietnam, South China Sea (SCS) was analyzed over a ~100-yr-long period from AD 1900 to 1986. The pre-bomb results from 1900–1953 show a steady Δ14C value of –54.4±1.8‰ (n=60). These values are similar to coral records located in the central and southern SCS and from Indonesian waters, but are lower than those from Japan. Following the input of anthropogenic bomb 14C, our results show a sharp increase in Δ14C from 1960, reaching a peak value of 155.3‰ in 1973. The Hon Tre Island post-bomb Δ14C values are lower than those of other corals located in the SCS and Japan, but higher compared to those in the Indonesian Seas. This study infers a seasonal input of upwelled water depleted in 14C from the deeper SCS basin that originates from the tropical Pacific via the Luzon Strait. The bifurcation of the North Equatorial Current feeds the surface and intermediate currents in the SCS and Makassar Strait region. However, unlike the Makassar site, this study’s coral Δ14C does not receive lower 14C water from the South Pacific Equatorial Current. The Vietnam record therefore represents a unique oceanographic position, reflecting the seasonal influence of older, deeper SCS waters that upwell periodically in this area and have modified the surface waters locally in this region over the last 100 yr.

Print ISSN: 0033-8222

Electronic ISSN: 1945-5755

Topics: Archaeology , Energy, Environment Protection, Nuclear Power Engineering , Geosciences

Published by Cambridge University Press

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Effect of Acidified Versus Frozen Storage on Marine Dissolved Organic Carbon Concentration and Isotopic Composition (2016)

Walker, Brett D ; Griffin, Sheila ; Druffel, Ellen R M

Cambridge University Press

In: Radiocarbon. 2016; 59(3): 843-857. Published 2016 Jul 26. doi: 10.1017/rdc.2016.48.

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Publication Date: 2016-07-26

Description: The standard procedure for storing/preserving seawater dissolved organic carbon (DOC) samples after field collection is by freezing (–20°C) until future analysis can be made. However, shipping and receiving large numbers of these samples without thawing presents a significant logistical problem and large monetary expense. Access to freezers can also be limited in remote field locations. We therefore test an alternative method of preserving and storing samples for the measurement of DOC concentrations ([DOC]), stable carbon (δ13C), and radiocarbon (as ∆14C) isotopic values via UV photooxidation (UVox). We report a total analytical reproducibility of frozen DOC samples to be [DOC]±1.3 µM, ∆14C±9.4‰, and δ13C±0.1‰, comparable to previously reported results (Druffel et al. 2013). Open Ocean DOC frozen versus acidified duplicates were on average offset by ∆DOC±1.1 µM, ∆∆14C± –1.3‰, and ∆δ13C± –0.1‰. Coastal Ocean frozen vs. acidified sample replicates, collected as part of a long-term (380-day) storage experiment, had larger, albeit consistent offsets of ∆DOC±2.2 µM, ∆∆14C±1.5‰, and ∆δ13C± –0.2‰. A simple isotopic mass balance of changes in [DOC], ∆14C, and δ13C values reveals loss of semi-labile DOC (2.2±0.6 µM, ∆14C=–94±105‰, δ13C=–27±10‰; n=4) and semi-recalcitrant DOC (2.4±0.7 µM, ∆14C=–478±116‰, δ13C=–23.4±3.0‰; n=3) in Coastal and Open Ocean acidified samples, respectively.

Print ISSN: 0033-8222

Electronic ISSN: 1945-5755

Topics: Archaeology , Energy, Environment Protection, Nuclear Power Engineering , Geosciences

Published by Cambridge University Press

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Pacific carbon cycling constrained by organic matter size, age and composition relationships (2016)

Walker, Brett D. ; Beaupré, Steven R. ; Guilderson, Thomas P. ; [et al.]

Springer Nature

In: Nature Geoscience. 2016; 9(12): 888-891. Published 2016 Nov 14. doi: 10.1038/ngeo2830.

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Publication Date: 2016-11-14

Description: Marine organic matter is one of Earth's largest actively cycling reservoirs of organic carbon and nitrogen. The processes controlling organic matter production and removal are important for carbon and nitrogen biogeochemical cycles, which regulate climate. However, the many possible cycling mechanisms have hindered our ability to quantify marine organic matter transformation, degradation and turnover rates. Here we analyse existing and new measurements of the carbon:nitrogen ratio and radiocarbon age of organic matter spanning sizes from large particulate organic matter to small dissolved organic molecules. We find that organic matter size is negatively correlated with radiocarbon age and carbon:nitrogen ratios in coastal, surface and deep waters of the Pacific Ocean. Our measurements suggest that organic matter is increasingly chemically degraded as it decreases in size, and that small particles and molecules persist in the ocean longer than their larger counterparts. Based on these correlations, we estimate the production rates of small, biologically recalcitrant dissolved organic matter molecules at 0.11-0.14 Gt of carbon and about 0.005 Gt of nitrogen per year in the deep ocean. Our results suggest that the preferential remineralization of large over small particles and molecules is a key process governing organic matter cycling and deep ocean carbon storage.

Print ISSN: 1752-0894

Electronic ISSN: 1752-0908

Topics: Geosciences

Published by Springer Nature

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