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Biomass resilience of Neotropical secondary forests
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Journal Article
Biomass resilience of Neotropical secondary forests
2016
Overview
An analysis of above-ground biomass recovery during secondary succession in forest sites and plots, covering the major environmental gradients in the Neotropics.
Recovery potential of disturbed tropical forests
More than half the world's tropical forests are the product of secondary growth, following anthropogenic disturbance. It is therefore important to know how quickly these secondary forests recover sufficiently to provide ecosystem services equivalent to those of old-growth forest. These authors focus on carbon sequestration in Neotropical forests, and find that carbon uptake is much higher than in old-growth forest, allowing recovery to 90% of the carbon stocks in an average of 66 years, but there is also wide variation in recovery potential. This knowledge could help assess the implications of forest loss — and potential for recovery — in different areas.
Land-use change occurs nowhere more rapidly than in the tropics, where the imbalance between deforestation and forest regrowth has large consequences for the global carbon cycle
1
. However, considerable uncertainty remains about the rate of biomass recovery in secondary forests, and how these rates are influenced by climate, landscape, and prior land use
2
,
3
,
4
. Here we analyse aboveground biomass recovery during secondary succession in 45 forest sites and about 1,500 forest plots covering the major environmental gradients in the Neotropics. The studied secondary forests are highly productive and resilient. Aboveground biomass recovery after 20 years was on average 122 megagrams per hectare (Mg ha
−1
), corresponding to a net carbon uptake of 3.05 Mg C ha
−1
yr
−1
, 11 times the uptake rate of old-growth forests. Aboveground biomass stocks took a median time of 66 years to recover to 90% of old-growth values. Aboveground biomass recovery after 20 years varied 11.3-fold (from 20 to 225 Mg ha
−1
) across sites, and this recovery increased with water availability (higher local rainfall and lower climatic water deficit). We present a biomass recovery map of Latin America, which illustrates geographical and climatic variation in carbon sequestration potential during forest regrowth. The map will support policies to minimize forest loss in areas where biomass resilience is naturally low (such as seasonally dry forest regions) and promote forest regeneration and restoration in humid tropical lowland areas with high biomass resilience.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
/ Analysis
/ Biomass
/ Carbon cycle (Biogeochemistry)
/ Centre for Crop Systems Analysis
/ Ecology
/ Forest Ecology and Forest Management
/ Forests
/ Humanities and Social Sciences
/ Humidity
/ Kennis, Technologie and Innovatie
/ Knowledge Technology and Innovation
/ Land use
/ Leerstoelgroep Bosecologie en bosbeheer
/ letter
/ Methods
/ PE&RC
/ Rain
/ Regrowth
/ Science
/ Studies
