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Title: | Widespread Amazon forest tree mortality from a single cross-basin squall line event |
Authors: | Negrón-Juárez, Robinson I. Chambers, Jeffrey Quintin Guimarães, Giuliano Piotto Zeng, Hongcheng Raupp, Carlos Frederico Mendonça Marra, Daniel Magnabosco Ribeiro, Gabriel Henrique Pires de Mello Saatchi, Sassan S. Nelson, Bruce Walker Higuchi, Niro |
Keywords: | Deforestation Precipitation (meteorology) Storms Amazon Forests Amazonia Biomass Accumulation Climate System Convective Storms Extreme Precipitation Forest Patches Forest Plots Mortality Rate Power Law Distribution Scaling Exponent Squall Lines Storm Intensity Tree Mortality Warming Climate Climate Change Atmospheric Pollution Biomass Biomonitoring Carbon Emission Cluster Analysis Convective System Deforestation Global Warming Mortality Population Distribution Power Law Distribution Precipitation (climatology) Quantitative Analysis Squall Line Storm Tree Vulnerability Climates Deforestation Precipitation Amazonas Brasil Manaus |
Issue Date: | 2010 |
metadata.dc.publisher.journal: | Geophysical Research Letters |
metadata.dc.relation.ispartof: | Volume 37, Número 16 |
Abstract: | Climate change is expected to increase the intensity of extreme precipitation events in Amazonia that in turn might produce more forest blowdowns associated with convective storms. Yet quantitative tree mortality associated with convective storms has never been reported across Amazonia, representing an important additional source of carbon to the atmosphere. Here we demonstrate that a single squall line (aligned cluster of convective storm cells) propagating across Amazonia in January, 2005, caused widespread forest tree mortality and may have contributed to the elevated mortality observed that year. Forest plot data demonstrated that the same year represented the second highest mortality rate over a 15-year annual monitoring interval. Over the Manaus region, disturbed forest patches generated by the squall followed a power-law distribution (scaling exponent α = 1.48) and produced a mortality of 0.3-0.5 million trees, equivalent to 30% of the observed annual deforestation reported in 2005 over the same area. Basin-wide, potential tree mortality from this one event was estimated at 542 ± 121 million trees, equivalent to 23% of the mean annual biomass accumulation estimated for these forests. Our results highlight the vulnerability of Amazon trees to wind-driven mortality associated with convective storms. Storm intensity is expected to increase with a warming climate, which would result in additional tree mortality and carbon release to the atmosphere, with the potential to further warm the climate system. © 2010 by the American Geophysical Union. |
metadata.dc.identifier.doi: | 10.1029/2010GL043733 |
Appears in Collections: | Artigos |
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