Abstract
Spruce budworm (Choristoneura fumiferana) is the main defoliator of conifer trees in North American boreal forests, affecting extensive areas and causing marked losses of timber supplies. In 2017, spruce budworm affected more than 7 million ha of Eastern Canadian forest. Defoliation was particularly severe for black spruce (Picea mariana (Mill.) B.S.P.), one of the most important commercial trees in Canada. During the last decades, intensive forest exploitation practices have created vast stands of young balsam fir (Abies balsamea (L.) Mill.) and black spruce. Most research focused on the impacts of spruce budworm has been on mature stands; its effects on regeneration, however, have been neglected. This study evaluates the impacts of spruce budworm on the defoliation of conifer seedlings (black spruce and balsam fir) in clearcuts. We measured the cumulative and annual defoliation of seedlings within six clearcut black spruce stands in Quebec (Canada) that had experienced severe levels of defoliation due to spruce budworm. For all sampled seedlings, we recorded tree species, height class, and distance to the residual forest. Seedling height and species strongly influenced defoliation level. Small seedlings were less affected by spruce budworm activity. As well, cumulative defoliation for balsam fir was double that of black spruce (21% and 9%, respectively). Distance to residual stands had no significant effect on seedling defoliation. As insect outbreaks in boreal forests are expected to become more severe and frequent in the near future, our results are important for adapting forest management strategies to insect outbreaks in a context of climate change.
Highlights
Natural and anthropic disturbances determine the dynamics, structure, and composition of forests and control the functioning of forested ecosystems [1,2]
Much effort is being placed on the study of insect outbreaks in the boreal forest to better understand the spatial patterns, future scenarios, insect-climate interactions, and past dynamics of insect outbreaks [71]
Most studies focus on mature trees; the vulnerability of seedling regeneration to insect outbreak and the selection of silvicultural practices that minimize the effects of insect outbreak on stand regeneration remain understudied aspects of forest ecology
Summary
Natural and anthropic disturbances determine the dynamics, structure, and composition of forests and control the functioning of forested ecosystems [1,2]. In forests with long fire cycles, disturbances such as insect outbreaks and windthrow play major roles in forest landscapes [3,4,5]. Insect outbreaks must be considered in forestry planning due to the important economic and ecological implications of these disturbances [6,7]. Insect outbreaks affect timber supplies and have a marked impact on overall forest productivity. For this reason, many studies have evaluated the vulnerability of mature trees in boreal forests to this type of disturbance (e.g., References [8,9,10]). There is still a lack of information regarding the impact of insect outbreaks on seedling regeneration. The Forests 2019, 10, 850; doi:10.3390/f10100850 www.mdpi.com/journal/forests
Sign-in/Register to view highlights & summary 
Published Version (
Free)
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call