Identifying Conifer Tree vs. Deciduous Shrub and Tree Regeneration Trajectories in a Space-for-Time Boreal Peatland Fire Chronosequence Using Multispectral Lidar

Wildland fires and anthropogenic disturbances can cause changes in vegetation species composition and structure in boreal peatlands. These could potentially alter regeneration trajectories following severe fire or through cumulative impacts of climate-mediated drying, fire, and/or anthropogenic dist...

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Bibliographic Details
Main Authors: Enayetullah, Humaira, Chasmer, Laura, Hopkinson, Christopher, Thompson, Dan, Cobbaert, Danielle
Other Authors: MDPI AG
Format: Text
Language:unknown
Published: Hosted by Utah State University Libraries 2022
Subjects:
remote sensing
machine learning
vegetation classification
climate change
wildland fire
Agriculture
Ecology and Evolutionary Biology
Forest Sciences
Genetics and Genomics
Plant Sciences
Canada
Fort McMurray
Online Access:https://digitalcommons.usu.edu/aspen_bib/7962
https://digitalcommons.usu.edu/cgi/viewcontent.cgi?article=8963&context=aspen_bib
Description
Summary:Wildland fires and anthropogenic disturbances can cause changes in vegetation species composition and structure in boreal peatlands. These could potentially alter regeneration trajectories following severe fire or through cumulative impacts of climate-mediated drying, fire, and/or anthropogenic disturbance. We used lidar-derived point cloud metrics, and site-specific locational attributes to assess trajectories of post-disturbance vegetation regeneration in boreal peatlands south of Fort McMurray, Alberta, Canada using a space-for-time-chronosequence. The objectives were to (a) develop methods to identify conifer trees vs. deciduous shrubs and trees using multi-spectral lidar data, (b) quantify the proportional coverage of shrubs and trees to determine environmental conditions driving shrub regeneration, and (c) determine the spatial variations in shrub and tree heights as an indicator of cumulative growth since the fire. The results show that the use of lidar-derived structural metrics predicted areas of deciduous shrub establishment (92% accuracy) and classification of deciduous and conifer trees (71% accuracy). Burned bogs and fens were more prone to shrub regeneration up to and including 38 years after the fire. The transition from deciduous to conifer trees occurred approximately 30 years post-fire. These results improve the understanding of environmental conditions that are sensitive to disturbance and impacts of disturbance on northern peatlands within a changing climate.

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