Underestimation of the Tambora effects in North American taiga ecosystems

The Tambora eruption (1815 AD) was one of the major eruptions of the last two millennia and has no equivalents over the last two centuries. Here, we collected an extensive network of early meteorological time series, climate simulation data and numerous, well-replicated proxy records from Eastern Ca...

Full description

Bibliographic Details
Main Authors: Gennaretti, Fabio, Boucher, Etienne, Nicault, Antoine, Gea-Izquierdo, Guillermo, Arseneault, Dominique, Berninger, Frank, Savard, Martine M, Bégin, Christian, Guiot, Joel
Format: Article in Journal/Newspaper
Language:English
Published: 2018
Subjects:
Eastern Canada
forest demography
mechanistic understanding
process-based modeling
regional climate responses
tambora legacy
terrestrial biosphere responses
Canada
taiga
Online Access:https://depositum.uqat.ca/id/eprint/1069/
https://depositum.uqat.ca/id/eprint/1069/1/gennarettietal_erl_fev2018.pdf
https://doi.org/10.1088/1748-9326%2Faaac0c
https://doi.org/10.1088/1748-9326/aaac0c
Description
Summary:The Tambora eruption (1815 AD) was one of the major eruptions of the last two millennia and has no equivalents over the last two centuries. Here, we collected an extensive network of early meteorological time series, climate simulation data and numerous, well-replicated proxy records from Eastern Canada to analyze the strength and the persistence of the Tambora impact on the regional climate and forest processes. Our results show that the Tambora impacts on the terrestrial biosphere were stronger than previously thought, and not only affected tree growth and carbon uptake for a longer period than registered in the regional climate, but also determined forest demography and structure. Increased tree mortality, four times higher than the background level, indicates that the Tambora climatic impact propagated to influence the structure of the North American taiga for several decades. We also show that the Tambora signal is more persistent in observed data (temperature, river ice dynamics, forest growth, tree mortality) than in simulated ones (climate and forest-growth simulations), indicating that our understanding of the mechanisms amplifying volcanic perturbations on climates and ecosystems is still limited, notably in the North American taiga.

Similar Items