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Carbon cycling within an East African lake revealed by the carbon isotope composition of diatom silica: a 25-ka record from Lake Challa, Mt. Kilimanjaro

Barker, Philip and Hurrell, Elizabeth and Leng, Melanie and Plessen, B and Wolff, C and Conley, D and Keppens, E and Milne, I and Cumming, B and Laird, K and Kendrick, C and Wynn, Peter and Verschuren, D (2013) Carbon cycling within an East African lake revealed by the carbon isotope composition of diatom silica: a 25-ka record from Lake Challa, Mt. Kilimanjaro. Quaternary Science Reviews, 66. pp. 55-63. ISSN 0277-3791

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Abstract

The carbon cycle of a lake is a balance between supply from the atmosphere and catchment, and the net demand exerted by primary producers, minus losses back to the atmosphere and to sediment storage. Evaluating the sum of these processes and reconstructing them from sediment records of lake history requires a range of methods and a multi-proxy approach. One promising technique is to explore the carbon-isotope composition (d13Cdiatom) of organic matter incorporated within the silica frustules of diatom algae. Here we present a 25,000-year record of d13Cdiatom from the sediments of crater Lake Challa on the eastern flank of Mt. Kilimanjaro, and along with other proxy data we make inferences about the three major phases in the history of the lake’s carbon cycle. From 25 ka to 15.8 ka years BP, d13Cdiatom is positively correlated with the d13C of bulk sediment organic matter (d13Cbulk), indicating that high diatom productivity, as recorded by high % biogenic silica at this time, was preferentially removing 12C and enriching the d13C of lake-water dissolved inorganic carbon. From 15.8 to 5.5 ka the correlation between d13Cdiatom and d13Cbulk breaks down, suggesting carbon supply to the lake satisfied or exceeded the demand from productivity. From 5.5 ka BP the positive correlation resumes, indicating an increase in the internal demand for carbon relative to external supply. Diatom frustule-bound carbon isotopes offer an original tool in examining long-term fluctuations in a lake’s carbon budget and how the balance between supply and demand has changed through time.

Item Type: Article
Journal or Publication Title: Quaternary Science Reviews
Uncontrolled Keywords: Diatom frustule carbon ; Carbon isotopes ; Lake carbon cycle ; Lake Challa ; East Africa ; Palaeoclimate
Subjects: G Geography. Anthropology. Recreation > GE Environmental Sciences
Departments: Faculty of Science and Technology > Lancaster Environment Centre
ID Code: 59438
Deposited By: ep_importer_pure
Deposited On: 23 Oct 2012 11:12
Refereed?: Yes
Published?: Published
Last Modified: 17 Sep 2013 08:42
Identification Number:
URI: http://eprints.lancs.ac.uk/id/eprint/59438

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