Scarce fire activity in north and north-western Amazonian forests during the last 10,000 years
Scarce fire activity in north and north-western Amazonian forests during the last 10,000 years
Background
Fire is known to affect forest biodiversity, carbon storage, and public health today; however, comparable fire histories from across forest regions in Amazonia are lacking. Consequently, the degree to which past fires could have preconditioned modern forest resilience to fire remains unknown.
Aim
We characterised the long-term (multi-millennial) fire history of forests in Amazonia to determine spatial and temporal differences in fire regimes.
Methods
We collated and standardised all available charcoal data extracted from continuously deposited lake sediments (n = 31) to reconstruct a ca. 10,000-year fire history for: (i) north and north-western, (ii) south-western, and (iii) eastern parts of Amazonia.
Results
Charcoal was found across Amazonia, but it was less abundant in the north and north-western regions. Regionally distinct periods of elevated charcoal deposition were identified at between ca. 4000 and 1500 (eastern), 3000–1000 (south-western) and 2500–2000 (north and north-western) years ago.
Conclusions
Forests in eastern and south-western Amazonia have been exposed to fire activity over recent millennia, while the forests in north and north-western Amazonia have grown under conditions largely free of fire activity. Consequently, we hypothesise that the forests in eastern and south-western Amazonia are preconditioned to be relatively more resilient to the threat of increased modern fire activity.
143-156
Gosling, William D.
75de50b1-a15e-4dda-8d84-0c14b8ab9a2d
Maezumi, S. Yoshi
f7f98c6a-4d7a-4f8c-90b8-acbd49847ba0
Heijink, Britte M.
719b2a8b-68a1-465d-91fd-eadcb7e1ef8d
Nascimento, Majoi N.
40059943-f59a-49b2-8e7e-7b3d3f7f62af
Raczka, Marco F.
1ea31004-9769-4af7-b713-1a188558854d
van der Sande, Masha T.
adbc7917-7207-4416-93e2-f86285e4ea12
Bush, Mark B.
993998ed-f863-4b27-8f6b-33f334ed0586
McMichael, Crystal N.H.
9165af5f-82ae-4700-adf1-dea2606f4e5d
4 July 2021
Gosling, William D.
75de50b1-a15e-4dda-8d84-0c14b8ab9a2d
Maezumi, S. Yoshi
f7f98c6a-4d7a-4f8c-90b8-acbd49847ba0
Heijink, Britte M.
719b2a8b-68a1-465d-91fd-eadcb7e1ef8d
Nascimento, Majoi N.
40059943-f59a-49b2-8e7e-7b3d3f7f62af
Raczka, Marco F.
1ea31004-9769-4af7-b713-1a188558854d
van der Sande, Masha T.
adbc7917-7207-4416-93e2-f86285e4ea12
Bush, Mark B.
993998ed-f863-4b27-8f6b-33f334ed0586
McMichael, Crystal N.H.
9165af5f-82ae-4700-adf1-dea2606f4e5d
Gosling, William D., Maezumi, S. Yoshi, Heijink, Britte M., Nascimento, Majoi N., Raczka, Marco F., van der Sande, Masha T., Bush, Mark B. and McMichael, Crystal N.H.
(2021)
Scarce fire activity in north and north-western Amazonian forests during the last 10,000 years.
Plant Ecology & Diversity, 14 (3-4), .
(doi:10.1080/17550874.2021.2008040).
Abstract
Background
Fire is known to affect forest biodiversity, carbon storage, and public health today; however, comparable fire histories from across forest regions in Amazonia are lacking. Consequently, the degree to which past fires could have preconditioned modern forest resilience to fire remains unknown.
Aim
We characterised the long-term (multi-millennial) fire history of forests in Amazonia to determine spatial and temporal differences in fire regimes.
Methods
We collated and standardised all available charcoal data extracted from continuously deposited lake sediments (n = 31) to reconstruct a ca. 10,000-year fire history for: (i) north and north-western, (ii) south-western, and (iii) eastern parts of Amazonia.
Results
Charcoal was found across Amazonia, but it was less abundant in the north and north-western regions. Regionally distinct periods of elevated charcoal deposition were identified at between ca. 4000 and 1500 (eastern), 3000–1000 (south-western) and 2500–2000 (north and north-western) years ago.
Conclusions
Forests in eastern and south-western Amazonia have been exposed to fire activity over recent millennia, while the forests in north and north-western Amazonia have grown under conditions largely free of fire activity. Consequently, we hypothesise that the forests in eastern and south-western Amazonia are preconditioned to be relatively more resilient to the threat of increased modern fire activity.
This record has no associated files available for download.
More information
Published date: 4 July 2021
Identifiers
Local EPrints ID: 503849
URI: http://eprints.soton.ac.uk/id/eprint/503849
ISSN: 1755-0874
PURE UUID: 67cf86ae-8db7-4704-af77-739a4409a293
Catalogue record
Date deposited: 14 Aug 2025 16:48
Last modified: 16 Aug 2025 02:16
Export record
Altmetrics
Contributors
Author:
William D. Gosling
Author:
S. Yoshi Maezumi
Author:
Britte M. Heijink
Author:
Majoi N. Nascimento
Author:
Marco F. Raczka
Author:
Masha T. van der Sande
Author:
Mark B. Bush
Author:
Crystal N.H. McMichael
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics