Late Holocene multiphasic use and occupation around a western Amazonian Lake

Bianca Tacoronte Gomes; Crystal N.H. McMichael; Nina Witteveen; Kiara Martel; Cathelijne Kool; Susann R. Canales-Aguilera; Larry C. Peterson; Susana C. León-Yánez; Mark B. Bush

doi:10.1016/j.quascirev.2025.109387

Late Holocene multiphasic use and occupation around a western Amazonian Lake

Bianca Tacoronte Gomes^*, Crystal N.H. McMichael, Nina Witteveen, Kiara Martel, Cathelijne Kool, Susann R. Canales-Aguilera, Larry C. Peterson, Susana C. León-Yánez, Mark B. Bush

^*Autor correspondiente de este trabajo

Pontificia Universidad Católica del Ecuador

Producción científica: Revista › Artículo › revisión exhaustiva

Resumen

Competing hypotheses exist regarding the relative importance of flood events, droughts, and human activity in shaping northwest Amazonian vegetation within the last 2000 years. We hypothesize that drier conditions were more favorable for human occupation in these ever-wet forests, and we present a high-resolution multiproxy paleoecological record of the last two millennia from a currently uninhabited lake, Zancudococha, in northwestern Ecuador. Pollen, phytoliths, charcoal, XRF, and loss-on-ignition data were analyzed to reconstruct the relative roles of climatic changes and human activity in shaping local vegetation. Humans were probably already influencing this system at the onset of our study period. By modeling past forest cover changes using pollen percentages, we showed that land-use intensity was highest between c. 470 and 1360 CE. Overall, drier conditions were more likely to have supported maize cultivation over the last 2000 years than wet ones, and this was especially clear during the Medieval Climate Anomaly (c. 900–1250 CE). An abandonment phase occurred between 1360 and c. 1630 CE, when all signs of human activity disappeared from the record and forest cover increased. The lake was later reoccupied, and there were small-scale clearances during the Jesuit (1680–1890 CE) and Rubber Boom (1890–1925 CE) times, with near modern abandonment occurring c. 1925 CE.

Idioma original	Inglés
Número de artículo	109387
Publicación	Quaternary Science Reviews
Volumen	359
N.º	1
DOI	https://doi.org/10.1016/j.quascirev.2025.109387
Estado	Publicada - 1 jul. 2025

Nota bibliográfica

Publisher Copyright:
© 2025 Elsevier Ltd

Financiación

We sincerely thank the people of Ecuador for allowing us to research in the Zancudococha area. We also thank Kees Nooren for assistance in pollen identification and counts, Annemarie Philip for sample processing of pollen and photos, and the lab team that assisted in fieldwork, Ansis Blaus, Julian Beltran, Meghan O'Connor, and Molly Kingston. The work was supported by funding from the US National Science Foundation to MBB by HEGS grant 2148984 , National Geographic Society Award NGS-66319R-19 , and an ERC grant StG 853394 to CNHM. KM and CK were supported by the University of Amsterdam Bachelor of Biology Program.

Financiadores	Número del financiador
National Science Foundation	2148984
National Geographic Society	NGS-66319R-19
Engineering Research Centers	StG 853394

Palabras clave

Amazonia charcoal Maize
Pre-columbian Rubber boom
Fossil pollen
Fire
Cultivation

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title = "Late Holocene multiphasic use and occupation around a western Amazonian Lake",

abstract = "Competing hypotheses exist regarding the relative importance of flood events, droughts, and human activity in shaping northwest Amazonian vegetation within the last 2000 years. We hypothesize that drier conditions were more favorable for human occupation in these ever-wet forests, and we present a high-resolution multiproxy paleoecological record of the last two millennia from a currently uninhabited lake, Zancudococha, in northwestern Ecuador. Pollen, phytoliths, charcoal, XRF, and loss-on-ignition data were analyzed to reconstruct the relative roles of climatic changes and human activity in shaping local vegetation. Humans were probably already influencing this system at the onset of our study period. By modeling past forest cover changes using pollen percentages, we showed that land-use intensity was highest between c. 470 and 1360 CE. Overall, drier conditions were more likely to have supported maize cultivation over the last 2000 years than wet ones, and this was especially clear during the Medieval Climate Anomaly (c. 900–1250 CE). An abandonment phase occurred between 1360 and c. 1630 CE, when all signs of human activity disappeared from the record and forest cover increased. The lake was later reoccupied, and there were small-scale clearances during the Jesuit (1680–1890 CE) and Rubber Boom (1890–1925 CE) times, with near modern abandonment occurring c. 1925 CE.",

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author = "Gomes, \{Bianca Tacoronte\} and McMichael, \{Crystal N.H.\} and Nina Witteveen and Kiara Martel and Cathelijne Kool and \{R. Canales-Aguilera\}, Susann and Peterson, \{Larry C.\} and \{C. Le{\'o}n-Y{\'a}nez\}, Susana and Bush, \{Mark B.\}",

note = "Publisher Copyright: {\textcopyright} 2025 Elsevier Ltd",

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month = jul,

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doi = "10.1016/j.quascirev.2025.109387",

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T1 - Late Holocene multiphasic use and occupation around a western Amazonian Lake

AU - Gomes, Bianca Tacoronte

AU - McMichael, Crystal N.H.

AU - Witteveen, Nina

AU - Martel, Kiara

AU - Kool, Cathelijne

AU - R. Canales-Aguilera, Susann

AU - Peterson, Larry C.

AU - C. León-Yánez, Susana

AU - Bush, Mark B.

PY - 2025/7/1

Y1 - 2025/7/1

N2 - Competing hypotheses exist regarding the relative importance of flood events, droughts, and human activity in shaping northwest Amazonian vegetation within the last 2000 years. We hypothesize that drier conditions were more favorable for human occupation in these ever-wet forests, and we present a high-resolution multiproxy paleoecological record of the last two millennia from a currently uninhabited lake, Zancudococha, in northwestern Ecuador. Pollen, phytoliths, charcoal, XRF, and loss-on-ignition data were analyzed to reconstruct the relative roles of climatic changes and human activity in shaping local vegetation. Humans were probably already influencing this system at the onset of our study period. By modeling past forest cover changes using pollen percentages, we showed that land-use intensity was highest between c. 470 and 1360 CE. Overall, drier conditions were more likely to have supported maize cultivation over the last 2000 years than wet ones, and this was especially clear during the Medieval Climate Anomaly (c. 900–1250 CE). An abandonment phase occurred between 1360 and c. 1630 CE, when all signs of human activity disappeared from the record and forest cover increased. The lake was later reoccupied, and there were small-scale clearances during the Jesuit (1680–1890 CE) and Rubber Boom (1890–1925 CE) times, with near modern abandonment occurring c. 1925 CE.

AB - Competing hypotheses exist regarding the relative importance of flood events, droughts, and human activity in shaping northwest Amazonian vegetation within the last 2000 years. We hypothesize that drier conditions were more favorable for human occupation in these ever-wet forests, and we present a high-resolution multiproxy paleoecological record of the last two millennia from a currently uninhabited lake, Zancudococha, in northwestern Ecuador. Pollen, phytoliths, charcoal, XRF, and loss-on-ignition data were analyzed to reconstruct the relative roles of climatic changes and human activity in shaping local vegetation. Humans were probably already influencing this system at the onset of our study period. By modeling past forest cover changes using pollen percentages, we showed that land-use intensity was highest between c. 470 and 1360 CE. Overall, drier conditions were more likely to have supported maize cultivation over the last 2000 years than wet ones, and this was especially clear during the Medieval Climate Anomaly (c. 900–1250 CE). An abandonment phase occurred between 1360 and c. 1630 CE, when all signs of human activity disappeared from the record and forest cover increased. The lake was later reoccupied, and there were small-scale clearances during the Jesuit (1680–1890 CE) and Rubber Boom (1890–1925 CE) times, with near modern abandonment occurring c. 1925 CE.

KW - Amazonia

KW - Cultivation

KW - Fire

KW - Fossil charcoal

KW - Fossil pollen

KW - Maize

KW - Pre-columbian

KW - Rubber boom

KW - Amazonia charcoal Maize

KW - Pre-columbian Rubber boom

KW - Fossil pollen

KW - Fire

KW - Cultivation

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DO - 10.1016/j.quascirev.2025.109387

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