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Late Holocene sedimentation and palaeoagronomy in a carbonate dry valley system using OSL, sedaDNA and geochemistry: implications for understanding anthropogenic slope-sediment transfer in fluvial headwaters

Late Holocene sedimentation and palaeoagronomy in a carbonate dry valley system using OSL, sedaDNA and geochemistry: implications for understanding anthropogenic slope-sediment transfer in fluvial headwaters
Late Holocene sedimentation and palaeoagronomy in a carbonate dry valley system using OSL, sedaDNA and geochemistry: implications for understanding anthropogenic slope-sediment transfer in fluvial headwaters
The understanding of landscape stability and erosional regimes from carbonate geological areas has traditionally been limited to fluvial areas due to the lack of lakes and the predominance of clastic-dominated valley fills. The combination of novel Optically Stimulated Luminescence (OSL) dating and sediment ancient DNA opens up new possibilities to study these geomorphological, ecological and agrarian changes in clastic‑carbonate landscapes. Here, we use OSL dating and sedaDNA analyses alongside traditional geoarchaeological techniques to examine potential anthropogenic and palaeoclimatic drivers of sediment transfer within a loessic-dominated dry valley with agricultural lynchets at Sint Martens-Voeren, eastern Belgium, through the late Holocene.
Cultivation of loess-dominated sediments across the dry-valley hilltop occurred from the Bronze Age (1900–700 BCE), with lynchet formation on the steep valley sides occurring from later prehistory (Iron Age 700–50 BCE). Major erosion and valley bottom sedimentation began in the early medieval period (450–1000 CE) and accelerated in the medieval and post medieval periods (1000–1750 CE) in line with an intensification of arable cultivation, particularly beet and hops, the development of open three-field agrarian diversity, landscape connectivity and increased climatic variability. This pattern of late Holocene slope-sediment erosion, transfer and storage mirrors other dry valley sites in the Voer catchments, especially in relation to lynchets, and accelerations in sedimentation in other eastern Belgian fluvial catchments, driven by high-intensity palaeoagronomic systems.
OSL dating; sedaDNA; Dry valleys; Loessic sediments; Anthropogenic slope-sediment transfer; Historic landcover and land use Palaeoclimates, Historic landcover and land use, Dry valleys, Anthropogenic slope-sediment transfer, sedaDNA, Loessic sediments, Palaeoclimates, OSL dating
0169-555X
Pears, Ben
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Hudson, Samuel Michael
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Lang, Andreas
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Snape, Lisa
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Bahl, Chiara
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Merkel, Marie Kristine Føreid
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Alsos, Inger Greve
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Fallu, Daniel
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Van Oost, Kristof
dc58926a-72e2-45b1-a285-62efb897e4f9
Zhao, Pengzhi
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Walsh, Kevin
49b59f2e-360f-4f18-b651-ad778ff67e8e
Brown, Tony
c51f9d3e-02b0-47da-a483-41c354e78fab
Pears, Ben
36d04a0f-6948-4e68-8f60-3a2a54d70bd0
Hudson, Samuel Michael
163a5999-b983-4443-a71c-de33bfd5eee1
Lang, Andreas
d4303581-0fa8-49f7-af61-0d27b7dc8d01
Snape, Lisa
d7048da5-96fd-4a20-a3b6-35a04332b005
Bahl, Chiara
8a250247-9dd7-4178-b3c1-f28eaf6df8e3
Merkel, Marie Kristine Føreid
eedace5f-829e-4983-864e-52338e21dd4e
Alsos, Inger Greve
88244b90-b66f-4271-9064-db0544dec568
Fallu, Daniel
3f91622e-bf08-458c-beec-505bf161b20d
Van Oost, Kristof
dc58926a-72e2-45b1-a285-62efb897e4f9
Zhao, Pengzhi
87f9e19d-29e1-4ec3-9c6c-b840babbe171
Walsh, Kevin
49b59f2e-360f-4f18-b651-ad778ff67e8e
Brown, Tony
c51f9d3e-02b0-47da-a483-41c354e78fab

Pears, Ben, Hudson, Samuel Michael, Lang, Andreas, Snape, Lisa, Bahl, Chiara, Merkel, Marie Kristine Føreid, Alsos, Inger Greve, Fallu, Daniel, Van Oost, Kristof, Zhao, Pengzhi, Walsh, Kevin and Brown, Tony (2025) Late Holocene sedimentation and palaeoagronomy in a carbonate dry valley system using OSL, sedaDNA and geochemistry: implications for understanding anthropogenic slope-sediment transfer in fluvial headwaters. Geomorphology, 490, [110008]. (doi:10.1016/j.geomorph.2025.110008).

Record type: Article

Abstract

The understanding of landscape stability and erosional regimes from carbonate geological areas has traditionally been limited to fluvial areas due to the lack of lakes and the predominance of clastic-dominated valley fills. The combination of novel Optically Stimulated Luminescence (OSL) dating and sediment ancient DNA opens up new possibilities to study these geomorphological, ecological and agrarian changes in clastic‑carbonate landscapes. Here, we use OSL dating and sedaDNA analyses alongside traditional geoarchaeological techniques to examine potential anthropogenic and palaeoclimatic drivers of sediment transfer within a loessic-dominated dry valley with agricultural lynchets at Sint Martens-Voeren, eastern Belgium, through the late Holocene.
Cultivation of loess-dominated sediments across the dry-valley hilltop occurred from the Bronze Age (1900–700 BCE), with lynchet formation on the steep valley sides occurring from later prehistory (Iron Age 700–50 BCE). Major erosion and valley bottom sedimentation began in the early medieval period (450–1000 CE) and accelerated in the medieval and post medieval periods (1000–1750 CE) in line with an intensification of arable cultivation, particularly beet and hops, the development of open three-field agrarian diversity, landscape connectivity and increased climatic variability. This pattern of late Holocene slope-sediment erosion, transfer and storage mirrors other dry valley sites in the Voer catchments, especially in relation to lynchets, and accelerations in sedimentation in other eastern Belgian fluvial catchments, driven by high-intensity palaeoagronomic systems.

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Accepted/In Press date: 4 September 2025
e-pub ahead of print date: 9 September 2025
Published date: 17 September 2025
Keywords: OSL dating; sedaDNA; Dry valleys; Loessic sediments; Anthropogenic slope-sediment transfer; Historic landcover and land use Palaeoclimates, Historic landcover and land use, Dry valleys, Anthropogenic slope-sediment transfer, sedaDNA, Loessic sediments, Palaeoclimates, OSL dating

Identifiers

Local EPrints ID: 506248
URI: http://eprints.soton.ac.uk/id/eprint/506248
DOI: doi:10.1016/j.geomorph.2025.110008
ISSN: 0169-555X
PURE UUID: a6c00830-a571-4185-b060-897651c0a453
ORCID for Ben Pears: ORCID iD orcid.org/0000-0002-2124-2514
ORCID for Tony Brown: ORCID iD orcid.org/0000-0002-1990-4654

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Date deposited: 31 Oct 2025 17:32
Last modified: 01 Nov 2025 02:49

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Contributors

Author: Ben Pears ORCID iD
Author: Samuel Michael Hudson
Author: Andreas Lang
Author: Lisa Snape
Author: Chiara Bahl
Author: Marie Kristine Føreid Merkel
Author: Inger Greve Alsos
Author: Daniel Fallu
Author: Kristof Van Oost
Author: Pengzhi Zhao
Author: Kevin Walsh
Author: Tony Brown ORCID iD

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