CYCLIM: a semi-automated cycle counting tool for generating age models and palaeoclimate reconstructions
CYCLIM: a semi-automated cycle counting tool for generating age models and palaeoclimate reconstructions
Counting annual-scale fluctuations, such as geochemical cyclicity or visible growth bands, within a climate archive can yield extremely high-precision chronological models. However, this process is often time-consuming and subjective, and although various software packages can automate this process, many researchers still prefer to count manually given its technical simplicity and transparency. Here we present a new tool that combines the time saved by automation with the flexibility afforded by expert judgement. CYCLIM uses a matched filtering approach to detect cyclicity and then allows the user to inspect and refine the automated output whilst also quantifying age uncertainty. The presented framework speeds up cycle counting by automating the first-pass of the count while also retaining the benefits of a manual count by allowing for post-analysis tuning. Across three examples using published palaeoclimate reconstructions, the automatic output found 96.0 % of the cycles, with a false positive and false negative rate of 3.4 % and 4.0 %, respectively. This means that only ∼ 7 cycles per 100 need to be corrected manually, making cycle counting with CYCLIM an order of magnitude faster than by visual inspection.
2485-2500
Forman, Edward Christopher Grant
f4e08653-603c-425c-b718-2b3bb761ce9f
Baldini, James
15fb3fbe-bab3-4c71-b41a-bfaa96f44aaa
28 November 2025
Forman, Edward Christopher Grant
f4e08653-603c-425c-b718-2b3bb761ce9f
Baldini, James
15fb3fbe-bab3-4c71-b41a-bfaa96f44aaa
Forman, Edward Christopher Grant and Baldini, James
(2025)
CYCLIM: a semi-automated cycle counting tool for generating age models and palaeoclimate reconstructions.
Climate of the Past, 21, .
(doi:10.5194/cp-21-2485-2025).
Abstract
Counting annual-scale fluctuations, such as geochemical cyclicity or visible growth bands, within a climate archive can yield extremely high-precision chronological models. However, this process is often time-consuming and subjective, and although various software packages can automate this process, many researchers still prefer to count manually given its technical simplicity and transparency. Here we present a new tool that combines the time saved by automation with the flexibility afforded by expert judgement. CYCLIM uses a matched filtering approach to detect cyclicity and then allows the user to inspect and refine the automated output whilst also quantifying age uncertainty. The presented framework speeds up cycle counting by automating the first-pass of the count while also retaining the benefits of a manual count by allowing for post-analysis tuning. Across three examples using published palaeoclimate reconstructions, the automatic output found 96.0 % of the cycles, with a false positive and false negative rate of 3.4 % and 4.0 %, respectively. This means that only ∼ 7 cycles per 100 need to be corrected manually, making cycle counting with CYCLIM an order of magnitude faster than by visual inspection.
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cp-21-2485-2025
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Published date: 28 November 2025
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Local EPrints ID: 507177
URI: http://eprints.soton.ac.uk/id/eprint/507177
ISSN: 1814-9332
PURE UUID: fe918940-8836-4a3e-904e-ead8a2ff1452
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Date deposited: 28 Nov 2025 17:37
Last modified: 29 Nov 2025 03:11
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Author:
Edward Christopher Grant Forman
Author:
James Baldini
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