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Nitrogen fixation by associative cyanobacteria in the Canadian Arctic.
Katherine Stewart (author)Darwyn Coxson (Thesis advisor)University of Northern British Columbia (Degree granting institution)
Doctor of Philosophy (PhD)
Natural Resources & Environmental Studies
Number of pages in document: 165
Atmospheric N\u2082-fixation by cyanobacteria is a key source of newly fixed N in nutrient-poor arctic ecosystems. To further determine the causes of N limitation and predict long-term responses to climate change the controls of biological N\u2082-fixation must be better understood. Using acetylene reduction assays we evaluated the spatial and temporal variation in N\u2082-fixation by associative cyanobacteria in various ecosystem types in both the low and high Canadian Arctic. The direct and indirect effects of soil moisture, plant community functional composition, and bryophyte and lichen abundance on rates of N\u2082-fixation were examined at sites varying in latitude and vegetation type. The linkages between N and C cycling processes in arctic systems were examined through paired measurements of N\u2082-fixation, inorganic soil N with surface greenhouse gas fluxes, including CO\u2082, N\u2082O and CH\u2084. Total growing season N\u2082-fixation input across a low arctic landscape was estimated at 0.68 kg ha\u207b~yr\u207b~, which is slightly less than twice the estimated average N input 0.39 kg ha\u207b~yr\u207b~ via precipitation. N\u2082-fixation by bryophyte-cyanobacterial associations appear to be very important across the Canadian Arctic. Increasing soil moisture was strongly associated with an increasing presence of bryophytes and increasing bryophyte abundance was a major factor determining higher N\u2082-fixation rates at all sites. Shrubs had a negative effect on bryophyte abundance; competition from vascular plants, potentially through shading, may negatively influence N\u2082-fixation. Soil N status was linked to rates or N\u2082-fixation in both the high and low Arctic indicating that these N\u2082-fixing associations act as important point sources of soil N. Higher rates of nitrification may be associated with warmer and drier vegetation types; however, increasing NO\u2083-N availability does not appear to increase rates of denitrification. Loss of N through denitrification was not a significant factor in the N cycle at the high arctic sites examined. We found many factors control both the spatial and temporal variability of N\u2082-fixation, including topography, microtopography, vegetation characteristics, microclimatic conditions, nifH abundance and availability of other nutrients, such as phosphorus. Moisture, however, appears to be a key factor not only in determining N\u2082-fixation but also by influencing related nutrient cycling processes.
Nitrogen -- Fixation -- Canada, Northern.Cyanobacteria -- Canada, Northern.