4.7 Article

Time matters: Resilience of a post-disturbance forest landscape

期刊

SCIENCE OF THE TOTAL ENVIRONMENT
卷 799, 期 -, 页码 -

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ELSEVIER
DOI: 10.1016/j.scitotenv.2021.149377

关键词

Engineering resilience; Forest aboveground biomass; Climate change; Compound disturbance impacts; Central Europe

资金

  1. OPRDE [EVA4.0, CZ.02.1.01/0.0/0.0/16_019/0000803X]

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European forest landscapes are currently undergoing transformations, with the vulnerability and resilience of emerging forest generations being determined by the legacies of present-day disturbances. The study demonstrates that factors such as vegetation feedbacks, interactions between disturbances, and climate variability play crucial roles in influencing the resistance and recovery of aboveground forest biomass to disturbances. Understanding these mechanisms is essential for implementing resilience-oriented stewardship practices.
Present-day disturbances are transforming European forest landscapes, and their legacies determine the vulnerability and resilience of the emergent forest generation. To understand these legacy effects, we investigated the resilience of the aboveground forest biomass (B-abg) to a sequence of disturbances affecting the forest in different recovery phases from the initial large-scale impact. We used the model iLand to simulate windthrows that affected 13-24% of the 4 8 in a Central European forest landscape. An additional wind event was simulated 20, 40, 60, or 80 years after the initial impact (i.e., sequences of two windthrows were defined). Each windthrow triggered an outbreak of bark beetles that interacted with the recovery processes. We evaluated the resistance of the B-abg to and recovery after the impact. Random Forest models were used to identify factors influencing resilience. We found that B(abg )resistance was the lowest 20 years after the initial impact when the increased proportion of emergent wind-exposed forest edges prevailed the disturbance-dampening effect of reduced biomass levels and increased landscape heterogeneity. This forest had a remarkably high recovery rate and reached the predisturbance B-abg within 28 years. The forest exhibited a higher resistance and a slower recovery rate in the more advanced recovery phases, reaching the pre-disturbance B-abg within 60-80 years. The recovery was enhanced by higher levels of alpha and beta diversity. Under elevated air temperature, the bark beetle outbreak triggered by windthrow delayed the recovery. However, the positive effect of increased temperature on forest productivity caused the recovery rate to be higher under the warming scenario than under the reference climate. We conclude that resilience is not a static property, but its magnitude and drivers vary in time, depending on vegetation feedbacks, interactions between disturbances, and climate. Understanding these mechanisms is an essential step towards the operationalization of resilience-oriented stewardship. (C) 2021 Elsevier B.V. All rights reserved.

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