A new hypothesis for the origin of Amazonian Dark Earths

Silva, Lucas C.R.; Corr�a, Rodrigo Studart; Wright, Jamie L.; Bomfim, Barbara; Hendricks, Lauren; Gavin, Daniel G.; Muniz, Aleksander Westphal; Martins, Gilvan Coimbra; Motta, Ant�nio Carlos Vargas; Barbosa, Julierme Zimmer; Melo, Vander de Freitas; Young, Scott D.; Broadley, Martin R.; Santos, Roberto Ventura

doi:10.1038/s41467-020-20184-2

A new hypothesis for the origin of Amazonian Dark Earths

Silva, Lucas C.R.; Corr�a, Rodrigo Studart; Wright, Jamie L.; Bomfim, Barbara; Hendricks, Lauren; Gavin, Daniel G.; Muniz, Aleksander Westphal; Martins, Gilvan Coimbra; Motta, Ant�nio Carlos Vargas; Barbosa, Julierme Zimmer; Melo, Vander de Freitas; Young, Scott D.; Broadley, Martin R.; Santos, Roberto Ventura

Authors

Lucas C.R. Silva

Rodrigo Studart Corr�a

Jamie L. Wright

Barbara Bomfim

Lauren Hendricks

Daniel G. Gavin

Aleksander Westphal Muniz

Gilvan Coimbra Martins

Ant�nio Carlos Vargas Motta

Julierme Zimmer Barbosa

Vander de Freitas Melo

Scott D. Young

MARTIN BROADLEY MARTIN.BROADLEY@NOTTINGHAM.AC.UK
Professor of Plant Nutrition

Roberto Ventura Santos

Abstract

Amazonian Dark Earths (ADEs) are unusually fertile soils characterised by elevated concentrations of microscopic charcoal particles, which confer their distinctive colouration. Frequent occurrences of pre-Columbian artefacts at ADE sites led to their ubiquitous classification as Anthrosols (soils of anthropic origin). However, it remains unclear how indigenous peoples created areas of high fertility in one of the most nutrient-impoverished environments on Earth. Here, we report new data from a well-studied ADE site in the Brazilian Amazon, which compel us to reconsider its anthropic origin. The amounts of phosphorus and calcium—two of the least abundant macronutrients in the region—are orders of magnitude higher in ADE profiles than in the surrounding soil. The elevated levels of phosphorus and calcium, which are often interpreted as evidence of human activity at other sites, correlate spatially with trace elements that indicate exogenous mineral sources rather than in situ deposition. Stable isotope ratios of neodymium, strontium, and radiocarbon activity of microcharcoal particles also indicate exogenous inputs from alluvial deposition of carbon and mineral elements to ADE profiles, beginning several thousands of years before the earliest evidence of soil management for plant cultivation in the region. Our data suggest that indigenous peoples harnessed natural processes of landscape formation, which led to the unique properties of ADEs, but were not responsible for their genesis. If corroborated elsewhere, this hypothesis would transform our understanding of human influence in Amazonia, opening new frontiers for the sustainable use of tropical landscapes going forward.

Citation

Silva, L. C., Corrêa, R. S., Wright, J. L., Bomfim, B., Hendricks, L., Gavin, D. G., …Santos, R. V. (2021). A new hypothesis for the origin of Amazonian Dark Earths. Nature Communications, 12(1), https://doi.org/10.1038/s41467-020-20184-2

Journal Article Type	Article
Acceptance Date	Oct 29, 2020
Online Publication Date	Jan 4, 2021
Publication Date	Dec 1, 2021
Deposit Date	Nov 23, 2021
Publicly Available Date	Nov 23, 2021
Journal	Nature Communications
Electronic ISSN	2041-1723
Publisher	Nature Publishing Group
Peer Reviewed	Peer Reviewed
Volume	12
Issue	1
DOI	https://doi.org/10.1038/s41467-020-20184-2
Keywords	General Biochemistry, Genetics and Molecular Biology; General Physics and Astronomy; General Chemistry
Public URL	https://nottingham-repository.worktribe.com/output/5206609
Publisher URL	https://www.nature.com/articles/s41467-020-20184-2