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Climate, vegetation, and fire, during the last deglaciation in northwestern Amazonia

Climate, vegetation, and fire, during the last deglaciation in northwestern Amazonia
Climate, vegetation, and fire, during the last deglaciation in northwestern Amazonia
The magnitude of change in climatic conditions and vegetation response to the last deglaciation in various parts of tropical Amazonia is poorly understood and controversial. Analysis of a sediment core e.g. fossil pollen, X-ray Fluorescence (XRF) and charcoal from Lake Malachite on the Hill of Six Lakes in northwestern Brazil provided a deglacial history of climate, vegetation change and fire. Pollen revealed a forested landscape throughout, with shifts in composition that were driven by warming and changes in precipitation. The glacial cooling of c. 4–5 °C had brought species characteristic of cooler climates into the Amazon lowlands and was followed by an initial warming that began at least 19.5 thousand calibrated years before the present (cal kyr BP). Temperature oscillations and changes in precipitation between (18–14.6 cal kyr BP) associated with Heinrich Stadial 1 were observed as wet-dry-wet oscillations similar to some of the previous studies, and were evident in both pollen and XRF data. The pollen spectra were consistent that of a mesic forest before and after the peak of the Last Glacial Maximum. Cool-adapted taxa had previously been described from other cores from the Hill of Six Lakes, and persisted in low abundances until c. 14.1 cal kyr BP. No distinct response to the Atlantic Cold Reversal was evident in our proxy data. The early Holocene was marked by pollen, charcoal, and sedimentary changes that could reflect a peak drought stress on the forest. The large occurrence of charcoal indicating an increase in fires coincided with disturbance elements e.g. Cecropia and Alchornea, that could have been consistent with human disturbance of the forest at c. 10.2 cal kyr BP.
0277-3791
Blaus, A.
b1118939-46bc-4331-bd72-9344b87434bc
Nascimento, Majoi
40059943-f59a-49b2-8e7e-7b3d3f7f62af
Peterson, L.C.
8ebad396-afda-4205-9054-8d17f2a40559
McMichael, Crystal
9165af5f-82ae-4700-adf1-dea2606f4e5d
Bush, M.B.
c4fb0c3d-5f1b-4fe6-86a2-7aa49f0d82b3
Blaus, A.
b1118939-46bc-4331-bd72-9344b87434bc
Nascimento, Majoi
40059943-f59a-49b2-8e7e-7b3d3f7f62af
Peterson, L.C.
8ebad396-afda-4205-9054-8d17f2a40559
McMichael, Crystal
9165af5f-82ae-4700-adf1-dea2606f4e5d
Bush, M.B.
c4fb0c3d-5f1b-4fe6-86a2-7aa49f0d82b3

Blaus, A., Nascimento, Majoi, Peterson, L.C., McMichael, Crystal and Bush, M.B. (2024) Climate, vegetation, and fire, during the last deglaciation in northwestern Amazonia. Quaternary Science Reviews, 332, [108662]. (doi:10.1016/j.quascirev.2024.108662).

Record type: Article

Abstract

The magnitude of change in climatic conditions and vegetation response to the last deglaciation in various parts of tropical Amazonia is poorly understood and controversial. Analysis of a sediment core e.g. fossil pollen, X-ray Fluorescence (XRF) and charcoal from Lake Malachite on the Hill of Six Lakes in northwestern Brazil provided a deglacial history of climate, vegetation change and fire. Pollen revealed a forested landscape throughout, with shifts in composition that were driven by warming and changes in precipitation. The glacial cooling of c. 4–5 °C had brought species characteristic of cooler climates into the Amazon lowlands and was followed by an initial warming that began at least 19.5 thousand calibrated years before the present (cal kyr BP). Temperature oscillations and changes in precipitation between (18–14.6 cal kyr BP) associated with Heinrich Stadial 1 were observed as wet-dry-wet oscillations similar to some of the previous studies, and were evident in both pollen and XRF data. The pollen spectra were consistent that of a mesic forest before and after the peak of the Last Glacial Maximum. Cool-adapted taxa had previously been described from other cores from the Hill of Six Lakes, and persisted in low abundances until c. 14.1 cal kyr BP. No distinct response to the Atlantic Cold Reversal was evident in our proxy data. The early Holocene was marked by pollen, charcoal, and sedimentary changes that could reflect a peak drought stress on the forest. The large occurrence of charcoal indicating an increase in fires coincided with disturbance elements e.g. Cecropia and Alchornea, that could have been consistent with human disturbance of the forest at c. 10.2 cal kyr BP.

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Accepted/In Press date: 7 April 2024
Published date: 15 May 2024
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Identifiers

Local EPrints ID: 503836
URI: http://eprints.soton.ac.uk/id/eprint/503836
DOI: doi:10.1016/j.quascirev.2024.108662
ISSN: 0277-3791
PURE UUID: f34c8c43-21d1-43b7-9a2d-1b67c7a98b2e
ORCID for Majoi Nascimento: ORCID iD orcid.org/0000-0003-4009-4905

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Date deposited: 14 Aug 2025 16:47
Last modified: 15 Aug 2025 02:14

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Contributors

Author: A. Blaus
Author: Majoi Nascimento ORCID iD
Author: L.C. Peterson
Author: Crystal McMichael
Author: M.B. Bush

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