Utilising conservative tracers and spatial surveys to identify controls on pathways and DOC exports in an Arctic catchment
Lessels, J.S.; Tetzlaff, D.; Dinsmore, K.J.; Street, L.; Dean, J.; Washbourne, I.; Billett, M.; Baxter, R.; Subke, J.A.; Smith, P.; Wookey, P.A.. 2014 Utilising conservative tracers and spatial surveys to identify controls on pathways and DOC exports in an Arctic catchment. [Poster] In: AGU Fall Meeting 2014, San Francisco, USA, 15-19 Dec 2014. (Unpublished)
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Abstract/Summary
Dissolved organic carbon (DOC) is typically the predominant form of carbon exported from headwater streams, it therefore represents a major carbon export from Arctic catchments. The projected deepening of thaw depth in permafrost regions, due to an increase in air temperature, may have a significant effect on the amount of DOC exported from these systems. However, quantification of the impacts of climate driven changes on DOC export are still highly uncertain. Understanding the processes controlling DOC export is therefore crucial in predicting the potential impact of projected environmental changes. The controls of DOC production and transport are heavily influenced by soil and vegetation, which are highly variable across the landscape. To completely understand these systems information regarding spatial variability of plants, soils and thaw depths must be taken into account. In this study sub-weekly sampling of DOC was undertaken throughout 2014 in a headwater (<1 km2) catchment in the Northwest Territories, Canada. Spatial surveys of soil properties, active thaw depth and normalised difference vegetation index (NDVI) were collected and used in conjunction with conservative stable water isotopes tracers and major ions to understand sources, flow pathways and timing of DOC exports from the catchment. Stable isotope tracers act as fingerprints of water allowing sources and pathways to be assessed. Observations reveal changing DOC concentrations throughout the season as the active layer deepens and the connectivity of the soils to the stream network throughout the catchment increases. Linking the DOC data with the conservative tracer response improves the identification of carbon pathways and fluxes from the soils; preliminary analysis indicates DOC is being delivered via deeper more mineral soils later in the season. The results indicate that the active layer depth has a strong influence on the amount of DOC exported from the system, independent of the amount of carbon stored in these deeper soils.
Item Type: | Publication - Conference Item (Poster) |
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UKCEH and CEH Sections/Science Areas: | UKCEH Fellows Dise |
NORA Subject Terms: | Ecology and Environment |
Date made live: | 10 Dec 2014 10:55 +0 (UTC) |
URI: | https://nora.nerc.ac.uk/id/eprint/509038 |
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