2010
DOI: 10.1016/j.chemgeo.2010.07.004
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Last glacial–Holocene geochronology of sediment cores from a high-altitude Tibetan lake based on AMS 14C dating of plant fossils: Implications for paleoenvironmental reconstructions

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Cited by 41 publications
(27 citation statements)
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“…This difference indicated that there was a carbon reservoir effect of the sediment, which needed to be excluded. The d 13 C value of the sediment plant residues, which was regarded as a mixture of terrestrial herbs [29,30] and aquatic plants, was -23.2 % (7-8 cm). The age of plant residues in the depth should be older than the actual depositional age.…”
Section: Chronologymentioning
confidence: 99%
“…This difference indicated that there was a carbon reservoir effect of the sediment, which needed to be excluded. The d 13 C value of the sediment plant residues, which was regarded as a mixture of terrestrial herbs [29,30] and aquatic plants, was -23.2 % (7-8 cm). The age of plant residues in the depth should be older than the actual depositional age.…”
Section: Chronologymentioning
confidence: 99%
“…14 C analysis is done by accelerator mass spectrometry, and it can accurately date sediments deposited up to ~50,000 years ago (e.g. Watanabe et al, 2010). This method for lake sediment dating is mostly used to reconstruct large scale environmental changes over several millennia.…”
Section: Radiocarbon Datingmentioning
confidence: 99%
“…For example, Watanabe et al (2010) used a 14 C chronology in high altitude Tibetan lakes to reconstruct major climate boundaries over ~15,000 years. 14 C analysis is made difficult by erroneous 14 C dates due to contamination by young carbon and changes in carbon cycling throughout a core.…”
Section: Radiocarbon Datingmentioning
confidence: 99%
“…According to Watanabe's analysis [21], the content of 14 C in submerged plants (Ruppia, Potamogetonaceae, Charophyceae) in the lake is comparable to that of atmosphere, and the content of 14 C for terrestrial plants generally is in balance with that of the atmosphere. Thus, there is no old carbon on dating of these plant residues.…”
Section: Sediment Core Comparisons and Chronologymentioning
confidence: 99%
“…The 14 C ages obtained from the total organic carbon in the sediment were older than the plant residues of the same layers, which could be interpreted as carbon reservoir effect [21]. To obtain accurate sediment ages, 25 plant residue samples picked out from Core PY608W were identified.…”
Section: Datingmentioning
confidence: 99%