Forest Restoration Thinning Has Minimal Impacts on Surface Soil Carbon in a Second-Growth Temperate Rainforest

Forest restoration thinning may accelerate the development of structural complexity toward old-growth conditions faster than a natural forest, yet associated changes in forest carbon (C) are poorly understood. Old-growth forests are characterized by high levels of sequestered C in aboveground biomas...

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Veröffentlicht in:	Forests 2024-10, Vol.15 (10), p.1758
Hauptverfasser:	Quick, Steven A., Fischer, Dylan G., Case, Michael J.
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Sprache:	eng
Schlagworte:	Basins Carbon Carbon sequestration Climate change Environmental restoration Forest management Forestry Growth conditions Harvest Rainforests Respiration Restoration Soil conservation Soil surfaces Thinning Timber Topography Trees Trends Vegetation
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creator	Quick, Steven A. Fischer, Dylan G. Case, Michael J.
description	Forest restoration thinning may accelerate the development of structural complexity toward old-growth conditions faster than a natural forest, yet associated changes in forest carbon (C) are poorly understood. Old-growth forests are characterized by high levels of sequestered C in aboveground biomass and soil C pools, yet active management has well-recognized negative impacts on stored C. Effects of forest restoration thinning on forest C can be determined using longitudinal measurements and modeling based on stand conditions and tree growth. At Ellsworth Creek Preserve in Southwest Washington, forest restoration efforts in a second-growth temperate rainforest have been monitored using permanent plots since 2007. Here, we compare repeat measurements from 2020, modeled forest C, and measurements of O-horizon C pools from 2022 to determine C impacts of silvicultural treatments for old-growth restoration. We found good general agreement between empirical measurements and models of forest C using the Forest Vegetation Simulator (FVS). However, treatment alone was not a strong indicator for C conditions; rather, forest age and age–treatment interactions better predicted soil C responses to restoration treatments. These data may indicate that “light” forest restoration thinning can accelerate old-growth development with minimal effects on soil carbon—a win-win conservation strategy for old-growth forests and the climate.
doi_str_mv	10.3390/f15101758
format	Article
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subjects	Basins Carbon Carbon sequestration Climate change Environmental restoration Forest management Forestry Growth conditions Harvest Rainforests Respiration Restoration Soil conservation Soil surfaces Thinning Timber Topography Trees Trends Vegetation
title	Forest Restoration Thinning Has Minimal Impacts on Surface Soil Carbon in a Second-Growth Temperate Rainforest
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