Drivers and Consequences of Alnus Alnobetula (Green Alder) Distribution at the Taiga-Tundra Ecotone of the Northwest Territories
Climate warming in the Arctic is occurring considerably faster than the global average. One of the most widespread biological responses to this warming in terrestrial systems has been a marked increase in the productivity of shrubby vegetation. Increased shrub growth and reproduction has the potenti...
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| Format: | Text |
| Language: | English |
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Scholars Commons @ Laurier
2021
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| Online Access: | https://scholars.wlu.ca/etd/2414 https://scholars.wlu.ca/context/etd/article/3552/viewcontent/Wallace_PhD_Thesis_Final_Version_Sept212021.pdf |
| Summary: | Climate warming in the Arctic is occurring considerably faster than the global average. One of the most widespread biological responses to this warming in terrestrial systems has been a marked increase in the productivity of shrubby vegetation. Increased shrub growth and reproduction has the potential to alter both local and global aspects of ecosystem function, making understanding its drivers and environmental impact an important research priority. In this context, considerable research has focused on characterizing relationships between shrub cover, abiotic conditions, and understory communities. However, fewer studies have co-located measurements of these components simultaneously in undisturbed tundra shrub patches to support a comprehensive understanding of patch habitat relative to shrub-free tundra. In addition to differences between these landcover types, variation in the physical structure of patches has also been hypothesized to be an important predictor of abiotic and biotic response to shrub growth. Direct investigations of the ways in which physical attributes of shrub patches covary and affect spatial variation in environmental conditions are limited however. In order to predict the overall ecosystem impact on shrub expansion, it is also important to understand where on the landscape to expect new shrubs to appear. Several studies have suggested that observed heterogeneity in shrub expansion is driven by topographic resource gradients, though little work has been done to directly test the mechanisms behind fine-scale variability in recruitment patterns. One of the key species involved in shrub expansion has been Alnus alnobetula (Ehrhart) K. Koch (green alder). Because this species has the capacity to fix nitrogen from the atmosphere and is one of the taller of the tundra shrubs, it may have unique potential to influence the biotic and abiotic conditions of its local environment. Here I focus on the dynamics of green alder patches at the taiga-tundra ecotone of the Northwest Territories. This tall ... |
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