Congruent Long‐Term Declines in Carbon and Biodiversity Are a Signature of Forest Degradation

ABSTRACT Recent global policy initiatives aimed at reducing forest degradation require practical definitions of degradation that are readily monitored. However, consistent approaches for monitoring forest degradation over the long term and at broad scales are lacking. We quantified the long‐term eff...

Full description

Saved in:
Bibliographic Details
Published in:Global change biology 2024-11, Vol.30 (11), p.e17541-n/a
Main Authors: Betts, Matthew G., Yang, Zhiqiang, Gunn, John S., Healey, Sean P.
Format: Article
Language:English
Subjects:
Animals
Biodiversity
Biomass
Birds - physiology
Carbon
Carbon - analysis
Carbon dioxide
Carbon Dioxide - analysis
Carbon dioxide emissions
Conservation of Natural Resources
Degradation
Emissions
Forest degradation
Forest management
Forestry
Forests
Habitats
Land degradation
life‐cycle analysis
management
New Brunswick
Population decline
Stored products
Wood
Wood products
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:ABSTRACT Recent global policy initiatives aimed at reducing forest degradation require practical definitions of degradation that are readily monitored. However, consistent approaches for monitoring forest degradation over the long term and at broad scales are lacking. We quantified the long‐term effects of intensive wood harvest on above‐ground carbon and biodiversity at fine resolutions (30 m2) and broad scales (New Brunswick, Canada; 72,908 km2). Model predictions for above‐ground biomass were highly correlated with independent data (r = 0.77). After accounting for carbon stored in wood products, net CO2 emissions from forests for the region from 1985 to 2020 were 141 CO2e Tg (4.02 TgCO2e year−1; 32% of all reported emissions). We found strong positive correlations between locations with declines in above‐ground carbon and habitats for old‐forest bird species, which have lost > 20% habitat over 35 years. High congruence between biodiversity and forest carbon offers potential for policy incentives to conserve both objectives simultaneously and slow rates of forest degradation. These methods could be used to track forest degradation for managed forest regions worldwide. We quantified the long‐term effects of intensive wood harvest on above‐ground carbon and biodiversity at fine resolutions and broad spatial scales for New Brunswick, Canada. After accounting for carbon stored in wood products, net CO2 emissions from forest management from 1985 to 2020 were 4.02 TgCO2e year−1, 32% of all reported emissions. We found strong positive correlations between locations with declines in above‐ground carbon and habitats for old‐forest bird species, which have lost > 20% habitat over 35 years. High congruence between biodiversity and forest carbon offers potential for policy incentives to conserve both objectives simultaneously and slow rates of forest degradation.
ISSN:1354-1013
1365-2486
1365-2486
DOI:10.1111/gcb.17541