Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.

Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.

In the face of global changes, forest management must now consider adapting forests to novel and uncertain conditions alongside objectives of conservation and production. In this perspective, we modified the TRIAD zoning approach to add a resilience component through functionally diverse plantations...

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Main Authors: Clément Hardy, Christian Messier, Yan Boulanger, Dominic Cyr, Élise Filotas
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2025-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0326627
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author Clément Hardy
Christian Messier
Yan Boulanger
Dominic Cyr
Élise Filotas
author_facet Clément Hardy
Christian Messier
Yan Boulanger
Dominic Cyr
Élise Filotas
author_sort Clément Hardy
collection DOAJ
description In the face of global changes, forest management must now consider adapting forests to novel and uncertain conditions alongside objectives of conservation and production. In this perspective, we modified the TRIAD zoning approach to add a resilience component through functionally diverse plantations following harvesting in the extensive areas. We then assessed the capacity of this new "TRIAD+" zoning approach for improving the resilience of the mature forest biomass to climate change and three potential extreme pulse disturbances: a large fire, a severe drought, and an insect outbreak. We used the forest landscape simulation model LANDIS-II on a management unit in Mauricie (Quebec, Canada) to simulate and compare the TRIAD+ scenario with a classic TRIAD zoning scenario, and two business-as-usual harvesting scenarios with and without functional enrichment planting. We also simulated three different climate change scenarios (Baseline, RCP 4.5 and RCP 8.5) in which these management and extreme disturbance scenarios took place. We monitored the changes in three variables: the mature wood biomass across the landscape, the mature biomass of each functional group, and the functional diversity of stands in the landscape. Resilience was measured according to three indicators: resistance, net change and recovery time of mature biomass. TRIAD+ management resulted in a good compromise, harvesting the same amount of wood as other scenarios while increasing the surface of protected forests by around 240% compared to BAU scenarios, and improving the mean functional diversity of stands by around 15% compared to the classic TRIAD and BAU without plantations. Following the pulse disturbance events, TRIAD+ also increased the resilience of the mature biomass across the landscape. However, this increase was limited, depended on the resilience indicator and the event considered, and was negligible in terms of tree biomass recovered in the long term. It's uncertain whether these results stemmed from the relative lack of small-scale interactions in LANDIS-II through which the effect of functional diversity on stand resilience should occur, or if this effect is small to begin with. Overall, our study reveals that an adaptation component can be included in current or future management strategies, but that increasing functional diversity via plantations will likely be insufficient to significantly boost forest resilience. Future research should therefore explore other (combined) means of increasing forest resilience, and improve the representation of small-scale interactions in landscape-scale models.
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spelling doaj-art-a2ae0499c4fb47cbbe3e129ead1209382025-08-20T03:29:03ZengPublic Library of Science (PLoS)PLoS ONE1932-62032025-01-01206e032662710.1371/journal.pone.0326627Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.Clément HardyChristian MessierYan BoulangerDominic CyrÉlise FilotasIn the face of global changes, forest management must now consider adapting forests to novel and uncertain conditions alongside objectives of conservation and production. In this perspective, we modified the TRIAD zoning approach to add a resilience component through functionally diverse plantations following harvesting in the extensive areas. We then assessed the capacity of this new "TRIAD+" zoning approach for improving the resilience of the mature forest biomass to climate change and three potential extreme pulse disturbances: a large fire, a severe drought, and an insect outbreak. We used the forest landscape simulation model LANDIS-II on a management unit in Mauricie (Quebec, Canada) to simulate and compare the TRIAD+ scenario with a classic TRIAD zoning scenario, and two business-as-usual harvesting scenarios with and without functional enrichment planting. We also simulated three different climate change scenarios (Baseline, RCP 4.5 and RCP 8.5) in which these management and extreme disturbance scenarios took place. We monitored the changes in three variables: the mature wood biomass across the landscape, the mature biomass of each functional group, and the functional diversity of stands in the landscape. Resilience was measured according to three indicators: resistance, net change and recovery time of mature biomass. TRIAD+ management resulted in a good compromise, harvesting the same amount of wood as other scenarios while increasing the surface of protected forests by around 240% compared to BAU scenarios, and improving the mean functional diversity of stands by around 15% compared to the classic TRIAD and BAU without plantations. Following the pulse disturbance events, TRIAD+ also increased the resilience of the mature biomass across the landscape. However, this increase was limited, depended on the resilience indicator and the event considered, and was negligible in terms of tree biomass recovered in the long term. It's uncertain whether these results stemmed from the relative lack of small-scale interactions in LANDIS-II through which the effect of functional diversity on stand resilience should occur, or if this effect is small to begin with. Overall, our study reveals that an adaptation component can be included in current or future management strategies, but that increasing functional diversity via plantations will likely be insufficient to significantly boost forest resilience. Future research should therefore explore other (combined) means of increasing forest resilience, and improve the representation of small-scale interactions in landscape-scale models.https://doi.org/10.1371/journal.pone.0326627
spellingShingle Clément Hardy
Christian Messier
Yan Boulanger
Dominic Cyr
Élise Filotas
Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.
PLoS ONE
title Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.
title_full Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.
title_fullStr Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.
title_full_unstemmed Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.
title_short Climate is stronger than you think: Exploring functional planting and TRIAD zoning for increased forest resilience to extreme disturbances.
title_sort climate is stronger than you think exploring functional planting and triad zoning for increased forest resilience to extreme disturbances
url https://doi.org/10.1371/journal.pone.0326627
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AT dominiccyr climateisstrongerthanyouthinkexploringfunctionalplantingandtriadzoningforincreasedforestresiliencetoextremedisturbances
AT elisefilotas climateisstrongerthanyouthinkexploringfunctionalplantingandtriadzoningforincreasedforestresiliencetoextremedisturbances

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