Oxygen isotope ratios of organic matter in arctic lakes as a paleoclimate proxy: field and laboratory investigations

Paleoclimate research based on the stable isotopic composition of lake sediments is often hampered by the lack of preservation of suitable material for isotopic analysis. We examined organic material as a proxy for past water isotopic composition in a series of experiments. First, we cultured aquati...

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Bibliographic Details
Published in:Journal of paleolimnology 2001-01, Vol.25 (1), p.43-64
Main Authors: Sauer, Peter E, Miller, Gifford H, Overpeck, Jonathan T
Format: Article
Language:English
Subjects:
Cellulose
Diagenesis
Freshwater
Holocene
Isotopes
Lake sediments
Lakes
Mosses
Organic carbon
Organic matter
Oxygen isotopes
Paleoclimate
Sedimentation rates
Terrestrial environments
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Summary:Paleoclimate research based on the stable isotopic composition of lake sediments is often hampered by the lack of preservation of suitable material for isotopic analysis. We examined organic material as a proxy for past water isotopic composition in a series of experiments. First, we cultured aquatic moss under constant illumination, temperature, and water δ^sup 18^O, and show that new cellulose records source water δ^sup 18^O precisely (r^sup 2^ = 0.9997). Second, we analyzed paired lakewater and vegetation samples collected from sites spanning strong climatic gradients. In field conditions, the relationship between organic δ^sup 18^O and water δ^sup 18^O is more variable, though it is still controlled by environmental water isotopic composition. However, terrestrial mosses in the arctic are often significantly enriched in δ^sup 18^O relative to aquatic mosses in nearby lakes due to their use of different water sources. Third, we measured δ^sup 18^O of cellulose extracted from disseminated sedimentary organic material. In the majority of the middle- to high-arctic lakes in this study, the δ^sup 18^O of disseminated sediment cellulose is greatly enriched relative to the expected values based on lakewater δ^sup 18^O, suggesting a significant component of terrestrial cellulose. This interpretation is supported by radiocarbon dates from a Holocene sediment core in which ^sup 14^C ages of sediment cellulose are 700-5000 yrs older than the enclosing sediments. We conclude that aquatic cellulose can be used as a reliable tracer of lakewater isotope ratios, but terrestrial cellulose often dominates the sedimentary cellulose pool in places such as Baffin Island where sedimentation rates are low enough to allow the degradation of aquatic cellulose. Care must be taken when interpreting sediment cellulose δ^sup 18^O records where diagenesis has played a role, because terrestrial cellulose is more resistant to degradation, and therefore can predominate in environments with low organic carbon burial.[PUBLICATION ABSTRACT]
ISSN:0921-2728
1573-0417
DOI:10.1023/A:1008133523139