Patterns of late Holocene and historical extinctions on Madagascar

Laurie R. Godfrey; Zachary S. Klukkert; Brooke E. Crowley; Robin R. Dawson; Peterson Faina; Benjamin Z. Freed; Evon Hekkala; Cortni Borgerson; Harimanjaka A.M. Rasolonjatovo; Patricia C. Wright; Stephen J. Burns

doi:10.1017/ext.2024.19

Patterns of late Holocene and historical extinctions on Madagascar

Laurie R. Godfrey, Zachary S. Klukkert, Brooke E. Crowley, Robin R. Dawson, Peterson Faina, Benjamin Z. Freed, Evon Hekkala, Cortni Borgerson, Harimanjaka A.M. Rasolonjatovo, Patricia C. Wright, Stephen J. Burns

Anthropology

Research output: Contribution to journal › Review article › peer-review

Abstract

Around 1000 years ago, Madagascar experienced the collapse of populations of large vertebrates that ultimately resulted in many species going extinct. The factors that led to this collapse appear to have differed regionally, but in some ways, key processes were similar across the island. This review evaluates four hypotheses that have been proposed to explain the loss of large vertebrates on Madagascar: Overkill, aridification, synergy, and subsistence shift. We explore regional differences in the paths to extinction and the significance of a prolonged extinction window across the island. The data suggest that people who arrived early and depended on hunting, fishing, and foraging had little effect on Madagascar's large endemic vertebrates. Megafaunal decline was triggered initially by aridification in the driest bioclimatic zone, and by the arrival of farmers and herders in the wetter bioclimatic zones. Ultimately, it was the expansion of agropastoralism across both wet and dry regions that drove large endemic vertebrates to extinction everywhere.

Original language	English
Article number	e9
Journal	Cambridge Prisms: Extinction
Volume	3
DOIs	https://doi.org/10.1017/ext.2024.19
State	Published - 5 Jun 2025

Keywords

anthropogenic impacts
megafauna
paleoclimate
Quaternary extinctions
subsistence shift hypothesis

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title = "Patterns of late Holocene and historical extinctions on Madagascar",

abstract = "Around 1000 years ago, Madagascar experienced the collapse of populations of large vertebrates that ultimately resulted in many species going extinct. The factors that led to this collapse appear to have differed regionally, but in some ways, key processes were similar across the island. This review evaluates four hypotheses that have been proposed to explain the loss of large vertebrates on Madagascar: Overkill, aridification, synergy, and subsistence shift. We explore regional differences in the paths to extinction and the significance of a prolonged extinction window across the island. The data suggest that people who arrived early and depended on hunting, fishing, and foraging had little effect on Madagascar's large endemic vertebrates. Megafaunal decline was triggered initially by aridification in the driest bioclimatic zone, and by the arrival of farmers and herders in the wetter bioclimatic zones. Ultimately, it was the expansion of agropastoralism across both wet and dry regions that drove large endemic vertebrates to extinction everywhere.",

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AU - Godfrey, Laurie R.

AU - Klukkert, Zachary S.

AU - Crowley, Brooke E.

AU - Dawson, Robin R.

AU - Faina, Peterson

AU - Freed, Benjamin Z.

AU - Hekkala, Evon

AU - Borgerson, Cortni

AU - Rasolonjatovo, Harimanjaka A.M.

AU - Wright, Patricia C.

AU - Burns, Stephen J.

N1 - Publisher Copyright: © The Author(s), 2025.

PY - 2025/6/5

Y1 - 2025/6/5

N2 - Around 1000 years ago, Madagascar experienced the collapse of populations of large vertebrates that ultimately resulted in many species going extinct. The factors that led to this collapse appear to have differed regionally, but in some ways, key processes were similar across the island. This review evaluates four hypotheses that have been proposed to explain the loss of large vertebrates on Madagascar: Overkill, aridification, synergy, and subsistence shift. We explore regional differences in the paths to extinction and the significance of a prolonged extinction window across the island. The data suggest that people who arrived early and depended on hunting, fishing, and foraging had little effect on Madagascar's large endemic vertebrates. Megafaunal decline was triggered initially by aridification in the driest bioclimatic zone, and by the arrival of farmers and herders in the wetter bioclimatic zones. Ultimately, it was the expansion of agropastoralism across both wet and dry regions that drove large endemic vertebrates to extinction everywhere.

AB - Around 1000 years ago, Madagascar experienced the collapse of populations of large vertebrates that ultimately resulted in many species going extinct. The factors that led to this collapse appear to have differed regionally, but in some ways, key processes were similar across the island. This review evaluates four hypotheses that have been proposed to explain the loss of large vertebrates on Madagascar: Overkill, aridification, synergy, and subsistence shift. We explore regional differences in the paths to extinction and the significance of a prolonged extinction window across the island. The data suggest that people who arrived early and depended on hunting, fishing, and foraging had little effect on Madagascar's large endemic vertebrates. Megafaunal decline was triggered initially by aridification in the driest bioclimatic zone, and by the arrival of farmers and herders in the wetter bioclimatic zones. Ultimately, it was the expansion of agropastoralism across both wet and dry regions that drove large endemic vertebrates to extinction everywhere.

KW - anthropogenic impacts

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KW - paleoclimate

KW - Quaternary extinctions

KW - subsistence shift hypothesis

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U2 - 10.1017/ext.2024.19

DO - 10.1017/ext.2024.19

M3 - Review article

AN - SCOPUS:105007655335

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VL - 3

JO - Cambridge Prisms: Extinction

JF - Cambridge Prisms: Extinction

M1 - e9

ER -

Patterns of late Holocene and historical extinctions on Madagascar

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Keywords

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