New insights into the mechanisms of plant isotope fractionation from combined analysis of intramolecular 13C and deuterium abundances in Pinus nigra tree‐ring glucose

Authors

Thomas Wieloch

Published

September 23, 2024

Abstract

Understanding isotope fractionation mechanisms is fundamental for analyses of plant ecophysiology and paleoclimate based on tree-ring isotope data. To gain new insights into isotope fractionation, we analysed intramolecular

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Journal

New Phytologist

Topics

DOI

10.1111/nph.20113

License

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New insights into the mechanisms of plant isotope fractionation from combined analysis of intramolecular 13C and deuterium abundances in Pinus nigra tree‐ring glucose

Authors

Thomas Wieloch

Published

September 23, 2024

Abstract

Supporters

Support the authors with ResearchCoin

Journal

New Phytologist

Topics

DOI

10.1111/nph.20113

License

CC-BY

Paper

Paper

Paper

Paper

New insights into the mechanisms of plant isotope fractionation from combined analysis of intramolecular 13C and deuterium abundances in Pinus nigra tree‐ring glucose

Abstract

Supporters

Journal

Topics

DOI

License

New insights into the mechanisms of plant isotope fractionation from combined analysis of intramolecular 13C and deuterium abundances in Pinus nigra tree‐ring glucose

Abstract

Supporters

Journal

Topics

DOI

License

Supporters

Journal

Topics

DOI

License