Fire in the clouds: how changing land use shaped an Andean biodiversity hotspot
Fire in the clouds: how changing land use shaped an Andean biodiversity hotspot
Past land use, particularly fire, affects modern tropical forests. Charcoal from lake sediments is commonly used to estimate past fire parameters such as burn severity and frequency, but fire intensity also plays a major role in shaping vegetation and vegetation change. Past fire intensity has remained elusive using common paleoecological approaches. We present a new approach to reconstruct past fire (pyrolysis) temperature, a metric of fire intensity, and reveal how human fire use changed and shaped biodiverse Andean montane forests over the last 2100 years. We use spectra obtained from micro-Fourier Transformed Infrared Spectroscopy (FTIR) of individual charcoal particles recovered from the sediments of Lagua de los Condores (Peru) to characterize its chemical composition. We then compare the spectra generated from the sedimentary charcoal fragments with a modern reference dataset to infer the pyrolysis temperature at which they were formed. Reconstructed maximum pyrolysis temperature varied with changes in land use and changes in precipitation. Mid-temperature fires (500–600 °C) dominated the record, and co-occurred with maize cultivation. After 1200 CE the Chachapoya people, referred to as cloud warriors by the Incas, started to use the site for ceremonial purposes as the climate got wetter. We demonstrate a concomitant change in the complete fire regime with fires becoming less severe, less frequent and burning at a lower temperature after this transition. This change in land use resulted in the first forest recovery in 2000 years, which was mainly composed of species with low bark thickness, a trait of fire sensitivity. Our reconstruction of pyrolysis temperature demonstrates that the analysis of fire severity, frequency, and our added metric of intensity, is needed to understand the drivers of past vegetation change.
Nascimento, Majoi de Novaes
40059943-f59a-49b2-8e7e-7b3d3f7f62af
McMichael, Crystal N.H.
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Kleijwegt, Zoe
757ac897-4d49-4f67-8bea-ce74043ad65e
Åkesson, Christine
6702ace7-01e5-4bb7-9e51-c1e6b2a6e6e9
Gredal, Charlotte
664f334f-df7c-47f9-a5a5-0af74fea24a5
Maezumi, S. Yoshi
f7f98c6a-4d7a-4f8c-90b8-acbd49847ba0
Bush, Mark B.
993998ed-f863-4b27-8f6b-33f334ed0586
Gosling, William D.
75de50b1-a15e-4dda-8d84-0c14b8ab9a2d
1 October 2023
Nascimento, Majoi de Novaes
40059943-f59a-49b2-8e7e-7b3d3f7f62af
McMichael, Crystal N.H.
9165af5f-82ae-4700-adf1-dea2606f4e5d
Kleijwegt, Zoe
757ac897-4d49-4f67-8bea-ce74043ad65e
Åkesson, Christine
6702ace7-01e5-4bb7-9e51-c1e6b2a6e6e9
Gredal, Charlotte
664f334f-df7c-47f9-a5a5-0af74fea24a5
Maezumi, S. Yoshi
f7f98c6a-4d7a-4f8c-90b8-acbd49847ba0
Bush, Mark B.
993998ed-f863-4b27-8f6b-33f334ed0586
Gosling, William D.
75de50b1-a15e-4dda-8d84-0c14b8ab9a2d
Nascimento, Majoi de Novaes, McMichael, Crystal N.H., Kleijwegt, Zoe, Åkesson, Christine, Gredal, Charlotte, Maezumi, S. Yoshi, Bush, Mark B. and Gosling, William D.
(2023)
Fire in the clouds: how changing land use shaped an Andean biodiversity hotspot.
Quaternary Science Reviews, 317, [108278].
(doi:10.1016/j.quascirev.2023.108278).
Abstract
Past land use, particularly fire, affects modern tropical forests. Charcoal from lake sediments is commonly used to estimate past fire parameters such as burn severity and frequency, but fire intensity also plays a major role in shaping vegetation and vegetation change. Past fire intensity has remained elusive using common paleoecological approaches. We present a new approach to reconstruct past fire (pyrolysis) temperature, a metric of fire intensity, and reveal how human fire use changed and shaped biodiverse Andean montane forests over the last 2100 years. We use spectra obtained from micro-Fourier Transformed Infrared Spectroscopy (FTIR) of individual charcoal particles recovered from the sediments of Lagua de los Condores (Peru) to characterize its chemical composition. We then compare the spectra generated from the sedimentary charcoal fragments with a modern reference dataset to infer the pyrolysis temperature at which they were formed. Reconstructed maximum pyrolysis temperature varied with changes in land use and changes in precipitation. Mid-temperature fires (500–600 °C) dominated the record, and co-occurred with maize cultivation. After 1200 CE the Chachapoya people, referred to as cloud warriors by the Incas, started to use the site for ceremonial purposes as the climate got wetter. We demonstrate a concomitant change in the complete fire regime with fires becoming less severe, less frequent and burning at a lower temperature after this transition. This change in land use resulted in the first forest recovery in 2000 years, which was mainly composed of species with low bark thickness, a trait of fire sensitivity. Our reconstruction of pyrolysis temperature demonstrates that the analysis of fire severity, frequency, and our added metric of intensity, is needed to understand the drivers of past vegetation change.
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Accepted/In Press date: 16 August 2023
Published date: 1 October 2023
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Local EPrints ID: 503843
URI: http://eprints.soton.ac.uk/id/eprint/503843
ISSN: 0277-3791
PURE UUID: 421248a5-868d-40d5-836f-71a60e572da8
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Date deposited: 14 Aug 2025 16:48
Last modified: 16 Aug 2025 02:16
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Author:
Majoi de Novaes Nascimento
Author:
Crystal N.H. McMichael
Author:
Zoe Kleijwegt
Author:
Christine Åkesson
Author:
Charlotte Gredal
Author:
S. Yoshi Maezumi
Author:
Mark B. Bush
Author:
William D. Gosling
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