Recovery trends for multiple ecosystem services reveal non-linear responses and long-term tradeoffs from temperate forest harvesting

•Harvesting old-growth caused persistent declines in eight ecosystem services (ES).•ES recovered along non-linear trajectories and at markedly different timeframes.•Declines in large cedar trees used in aboriginal carving persisted over 212year.•Long timeframes of ES recovery emphasize a need for co...

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Bibliographic Details
Published in:Forest ecology and management 2016-08, Vol.374, p.61-70
Main Authors: Sutherland, Ira J., Bennett, Elena M., Gergel, Sarah E.
Format: Article
Language:English
Subjects:
Brachyramphus marmoratus
Chronosequence
Coastal temperate forests
Ecosystem service bundles
Generalized additive models
Non-timber forest products
Old-growth forest
Thuja plicata
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Summary:•Harvesting old-growth caused persistent declines in eight ecosystem services (ES).•ES recovered along non-linear trajectories and at markedly different timeframes.•Declines in large cedar trees used in aboriginal carving persisted over 212year.•Long timeframes of ES recovery emphasize a need for conserving remaining old-growth. A major challenge for forest management is to reduce unintended tradeoffs resulting from timber harvesting. However, few empirical studies provide quantitative evidence for how ecosystem service trade-offs in forests persist over longer timeframes. Here, we examine the long-term recovery of multiple ecosystem services following harvest of old-growth forest stands on Vancouver Island, BC, Canada. We used a novel 212-year forest chronosequence approach to estimate recovery of a coastal temperate forest’s capacity to provide eight ecosystem services. We examined: wood volume, carbon storage for climate regulation, potential nesting habitat for an old-growth associate bird species the marbled murrelet (Brachyramphus marmoratus), coarse woody debris, habitat provided by standing dead trees, large heritage trees, wild edible berries, and large redcedar (Thuja plicata) trees used traditionally by First Nations for carving canoes and totem poles. Ecosystem service recovery trajectories followed u-shaped or s-shaped trajectories with varying times to reach old-growth conditions. Some services remained high post-harvest (e.g., habitat services of coarse woody debris) or recovered quickly in the first 100years (e.g., carbon storage). However, cultural ecosystem services such as the large cedar trees used in traditional First Nations carving, had 200+ year delays in recovery. Our empirically-derived ecosystem services recovery trajectories demonstrate the complexity of long-term dynamics of harvest tradeoffs and help identify strengths and limitations of management approaches for sustaining multiple forest ecosystem services.
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2016.04.037