Laurentian Forestry Centre, Canadian Forest Service, Natural Resources Canada, 1055 du P.E.P.S., P.O. Box 10380, Station Sainte-Foy, Quebec City, Quebec, G1V 4C7, Canada.
Great Lakes Forestry Centre, Canadian Forest Service, Natural Resources Canada, 1219 Queen Street East, Sault Ste Marie, Ontario, P6A 2E5, Canada.
Ecol Appl. 2018 Jul;28(5):1245-1259. doi: 10.1002/eap.1724. Epub 2018 Jun 5.
Canada's forests are shaped by disturbances such as fire, insect outbreaks, and droughts that often overlap in time and space. The resulting cumulative disturbance risks and potential impacts on forests are generally not well accounted for by models used to predict future impacts of disturbances on forest. This study aims at projecting future cumulative effects of four main natural disturbances, fire, mountain pine beetle, spruce budworm and drought, on timber volumes across Canada's forests using an approach that accounts for potential overlap among disturbances. Available predictive models for the four natural disturbances were used to project timber volumes at risk under aggressive climate forcing up to 2100. Projections applied to the current vegetation suggest increases of volumes at risk related to fire, mountain pine beetle, and drought over time in many regions of Canada, but a decrease of the volume at risk related to spruce budworm. When disturbance effects are accumulated, important changes in volumes at risk are projected to occur as early as 2011-2041, particularly in central and eastern Canada. In our last simulation period covering 2071-2100, nearly all timber volumes in most of Canada's forest regions could be at risk of being affected by at least one of the four natural disturbances considered in our analysis, a six-fold increase relative to the baseline period (1981-2010). Tree species particularly vulnerable to specific disturbances (e.g., trembling aspen to drought) could suffer disproportionate increases in their volume at risk with potential impacts on forest composition. By 2100, estimated wood volumes not considered to be at risk could be lower than current annual timber harvests in central and eastern Canada. Current level of harvesting could thus be difficult to maintain without the implementation of adaptation measures to cope with these disturbances.
加拿大的森林受到火灾、虫害和干旱等干扰的影响,这些干扰往往在时间和空间上重叠。用于预测干扰对森林未来影响的模型通常不能很好地考虑到由此产生的累积干扰风险和潜在影响。本研究旨在通过一种考虑干扰之间潜在重叠的方法,预测加拿大森林中四种主要自然干扰(火灾、山松甲虫、云杉卷叶蛾和干旱)未来的累积效应。利用四种自然干扰的现有预测模型,根据激进的气候强迫预测,到 2100 年,木材量面临风险的情况。将这些预测应用于当前的植被,表明随着时间的推移,加拿大许多地区与火灾、山松甲虫和干旱相关的风险木材量会增加,但与云杉卷叶蛾相关的风险木材量会减少。当干扰效应累积时,预计到 2011-2041 年,加拿大各地的风险木材量将发生重大变化,特别是在加拿大中部和东部。在涵盖 2071-2100 年的最后一个模拟期内,加拿大大部分森林地区的近所有木材量都可能面临我们分析中考虑的四种自然干扰之一的影响,与基线期(1981-2010 年)相比增加了六倍。特别容易受到特定干扰影响的树种(如干旱对颤杨)可能会不成比例地增加其面临风险的木材量,这可能会对森林组成产生影响。到 2100 年,估计不会面临风险的木材量可能低于加拿大中部和东部目前的年度木材采伐量。如果不实施适应措施来应对这些干扰,目前的采伐水平可能难以维持。
