Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming

The effect of low intensity continuous light, e.g., in the High Arctic summer, on plant carbon and hydrogen isotope fractionations is unknown. We conducted greenhouse experiments to test the impact of light quantity and duration on both carbon and hydrogen isotope compositions of three deciduous con...

Full description

Bibliographic Details
Published in:Oecologia
Main Authors: Yang, Hong, Pagani, Mark, Briggs, Derek E. G., Equiza, M. A., Jagels, Richard, Leng, Qin (冷琴), LePage, Ben A.
Format: Report
Language:English
Published: SPRINGER 2009
Subjects:
Arctic
Stable Isotope
Paleogene
Paleoclimate
Deciduous Conifers
Palaeocene/eocene Thermal Maximum
Buchanan Lake Formation
Axel-heiberg Island
N-alkanes
Metasequoia-glyptostroboides
Middle Eocene
Meteoric Precipitation
Terrestrial Plants
Taxodium-distichum
Aquatic Plants
Environmental Sciences & Ecology
Ecology
Heiberg
Axel Heiberg Island
Online Access:http://ir.nigpas.ac.cn/handle/332004/259
https://doi.org/10.1007/s00442-009-1321-1
id ftchinacscnigpas:oai:ir.nigpas.ac.cn:332004/259
record_format openpolar
spelling ftchinacscnigpas:oai:ir.nigpas.ac.cn:332004/259 2023-05-15T14:50:08+02:00 Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming Yang, Hong Pagani, Mark Briggs, Derek E. G. Equiza, M. A. Jagels, Richard Leng, Qin (冷琴) LePage, Ben A. 2009-06-01 http://ir.nigpas.ac.cn/handle/332004/259 https://doi.org/10.1007/s00442-009-1321-1 英语 eng SPRINGER OECOLOGIA http://ir.nigpas.ac.cn/handle/332004/259 doi:10.1007/s00442-009-1321-1 Arctic Stable Isotope Paleogene Paleoclimate Deciduous Conifers Palaeocene/eocene Thermal Maximum Buchanan Lake Formation Axel-heiberg Island N-alkanes Metasequoia-glyptostroboides Middle Eocene Meteoric Precipitation Terrestrial Plants Taxodium-distichum Aquatic Plants Environmental Sciences & Ecology Ecology 期刊论文 2009 ftchinacscnigpas https://doi.org/10.1007/s00442-009-1321-1 2019-10-11T00:03:06Z The effect of low intensity continuous light, e.g., in the High Arctic summer, on plant carbon and hydrogen isotope fractionations is unknown. We conducted greenhouse experiments to test the impact of light quantity and duration on both carbon and hydrogen isotope compositions of three deciduous conifers whose fossil counterparts were components of Paleogene Arctic floras: Metasequoia glyptostroboides, Taxodium distichum, and Larix laricina. We found that plant leaf bulk carbon isotopic values of the examined species were 1.75-4.63aEuro degrees more negative under continuous light (CL) than under diurnal light (DL). Hydrogen isotope values of leaf n-alkanes under continuous light conditions revealed a D-enriched hydrogen isotope composition of up to 40aEuro degrees higher than in diurnal light conditions. The isotope offsets between the two light regimes is explained by a higher ratio of intercellular to atmospheric CO(2) concentration (C (i)/C (a)) and more water loss for plants under continuous light conditions during a 24-h transpiration cycle. Apparent hydrogen isotope fractionations between source water and individual lipids (epsilon(lipid-water)) range from -62aEuro degrees (Metasequoia C(27) and C(29)) to -87aEuro degrees (Larix C(29)) in leaves under continuous light. We applied these hydrogen fractionation factors to hydrogen isotope compositions of in situ n-alkanes from well-preserved Paleogene deciduous conifer fossils from the Arctic region to estimate the delta D value in ancient precipitation. Precipitation in the summer growing season yielded a delta D of -186aEuro degrees for late Paleocene, -157aEuro degrees for early middle Eocene, and -182aEuro degrees for late middle Eocene. We propose that high-latitude summer precipitation in this region was supplemented by moisture derived from regionally recycled transpiration of the polar forests that grew during the Paleogene warming. Report Arctic Axel Heiberg Island Nanjing Institute of Geology and Palaeontology: NIGPAS OpenIR (Chinese Academy of Sciences) Arctic Heiberg ENVELOPE(13.964,13.964,66.424,66.424) Axel Heiberg Island ENVELOPE(-91.001,-91.001,79.752,79.752) Oecologia 160 3 461 470
institution Open Polar
collection Nanjing Institute of Geology and Palaeontology: NIGPAS OpenIR (Chinese Academy of Sciences)
op_collection_id ftchinacscnigpas
language English
topic Arctic
Stable Isotope
Paleogene
Paleoclimate
Deciduous Conifers
Palaeocene/eocene Thermal Maximum
Buchanan Lake Formation
Axel-heiberg Island
N-alkanes
Metasequoia-glyptostroboides
Middle Eocene
Meteoric Precipitation
Terrestrial Plants
Taxodium-distichum
Aquatic Plants
Environmental Sciences & Ecology
Ecology
spellingShingle Arctic
Stable Isotope
Paleogene
Paleoclimate
Deciduous Conifers
Palaeocene/eocene Thermal Maximum
Buchanan Lake Formation
Axel-heiberg Island
N-alkanes
Metasequoia-glyptostroboides
Middle Eocene
Meteoric Precipitation
Terrestrial Plants
Taxodium-distichum
Aquatic Plants
Environmental Sciences & Ecology
Ecology
Yang, Hong
Pagani, Mark
Briggs, Derek E. G.
Equiza, M. A.
Jagels, Richard
Leng, Qin (冷琴)
LePage, Ben A.
Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming
topic_facet Arctic
Stable Isotope
Paleogene
Paleoclimate
Deciduous Conifers
Palaeocene/eocene Thermal Maximum
Buchanan Lake Formation
Axel-heiberg Island
N-alkanes
Metasequoia-glyptostroboides
Middle Eocene
Meteoric Precipitation
Terrestrial Plants
Taxodium-distichum
Aquatic Plants
Environmental Sciences & Ecology
Ecology
description The effect of low intensity continuous light, e.g., in the High Arctic summer, on plant carbon and hydrogen isotope fractionations is unknown. We conducted greenhouse experiments to test the impact of light quantity and duration on both carbon and hydrogen isotope compositions of three deciduous conifers whose fossil counterparts were components of Paleogene Arctic floras: Metasequoia glyptostroboides, Taxodium distichum, and Larix laricina. We found that plant leaf bulk carbon isotopic values of the examined species were 1.75-4.63aEuro degrees more negative under continuous light (CL) than under diurnal light (DL). Hydrogen isotope values of leaf n-alkanes under continuous light conditions revealed a D-enriched hydrogen isotope composition of up to 40aEuro degrees higher than in diurnal light conditions. The isotope offsets between the two light regimes is explained by a higher ratio of intercellular to atmospheric CO(2) concentration (C (i)/C (a)) and more water loss for plants under continuous light conditions during a 24-h transpiration cycle. Apparent hydrogen isotope fractionations between source water and individual lipids (epsilon(lipid-water)) range from -62aEuro degrees (Metasequoia C(27) and C(29)) to -87aEuro degrees (Larix C(29)) in leaves under continuous light. We applied these hydrogen fractionation factors to hydrogen isotope compositions of in situ n-alkanes from well-preserved Paleogene deciduous conifer fossils from the Arctic region to estimate the delta D value in ancient precipitation. Precipitation in the summer growing season yielded a delta D of -186aEuro degrees for late Paleocene, -157aEuro degrees for early middle Eocene, and -182aEuro degrees for late middle Eocene. We propose that high-latitude summer precipitation in this region was supplemented by moisture derived from regionally recycled transpiration of the polar forests that grew during the Paleogene warming.
format Report
author Yang, Hong
Pagani, Mark
Briggs, Derek E. G.
Equiza, M. A.
Jagels, Richard
Leng, Qin (冷琴)
LePage, Ben A.
author_facet Yang, Hong
Pagani, Mark
Briggs, Derek E. G.
Equiza, M. A.
Jagels, Richard
Leng, Qin (冷琴)
LePage, Ben A.
author_sort Yang, Hong
title Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming
title_short Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming
title_full Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming
title_fullStr Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming
title_full_unstemmed Carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the High Arctic during Paleogene warming
title_sort carbon and hydrogen isotope fractionation under continuous light: implications for paleoenvironmental interpretations of the high arctic during paleogene warming
publisher SPRINGER
publishDate 2009
url http://ir.nigpas.ac.cn/handle/332004/259
https://doi.org/10.1007/s00442-009-1321-1
long_lat ENVELOPE(13.964,13.964,66.424,66.424)
ENVELOPE(-91.001,-91.001,79.752,79.752)
geographic Arctic
Heiberg
Axel Heiberg Island
geographic_facet Arctic
Heiberg
Axel Heiberg Island
genre Arctic
Axel Heiberg Island
genre_facet Arctic
Axel Heiberg Island
op_relation OECOLOGIA
http://ir.nigpas.ac.cn/handle/332004/259
doi:10.1007/s00442-009-1321-1
op_doi https://doi.org/10.1007/s00442-009-1321-1
container_title Oecologia
container_volume 160
container_issue 3
container_start_page 461
op_container_end_page 470
_version_ 1766321200511844352

Similar Items