Hydrobiogeochemical Controls on the Delivery of Dissolved Organic Matter to Boreal Headwater Streams

Roebuck, J. Alan; Prestegaard, Karen; Gaviria, Christian; Myers‐Pigg, Allison; Ziegler, Susan E.

doi:10.1029/2022wr033358

Cited by 2 publications

References 100 publications

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Hillslope Hydrologic Influences on Soil Carbon Content Informs Climate Impacts on Boreal Forest Mineral Soil Stocks

Patrick,

Myers-Pigg,

Gates

et al. 2024

Preprint

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Hillslope Hydrologic Influences on Soil Carbon Content Informs Climate Impacts on Boreal Forest Mineral Soil Stocks

Patrick,

Myers-Pigg,

Gates

et al. 2024

Preprint

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The influence of burn severity on dissolved organic carbon concentrations across a stream network differs based on seasonal wetness conditions

Wampler,

Bladon,

Myers-Pigg

2024

Biogeosciences

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Abstract. Large, high-severity wildfires in many regions across the globe have increased concerns about their impacts on carbon cycling in watersheds. Altered sources of carbon and changes in catchment hydrology after wildfire can lead to shifts in dissolved organic carbon (DOC) concentrations in streams, which can have negative impacts on aquatic ecosystem health and downstream drinking-water treatment. Despite its importance, post-fire DOC responses remain relatively unconstrained in the literature, and we lack critical knowledge of how burn severity, landscape elements, and climate interact to affect DOC concentrations. To improve our understanding of the impact of burn severity on DOC concentrations, we measured DOC at 129 sites across a stream network extending upstream, within, and downstream of a large, high-severity wildfire in Oregon, USA. We collected samples across the study sub-basin during four distinct seasonal wetness conditions. We used our high-spatial-resolution data to develop spatial stream network (SSN) models to predict DOC across the stream network and to improve our understanding of the controls on DOC concentrations. Spatially, we found no obvious wildfire signal – instead, we observed a pattern of increasing DOC concentrations from the high-elevation headwaters to the sub-basin outlet, while the mainstem maintained consistently low DOC concentrations. This suggests that effects from large wildfires may be “averaged” out at higher stream orders and larger spatial scales. When we grouped DOC concentrations by burn severity group, we observed a significant decrease in the variability of DOC concentrations in the moderate and high burn severity sub-catchments. However, our SSN models were able to predict decreases in DOC concentrations with increases in burn severity across the stream network. Decreases in DOC concentrations were also highly variable across seasonal wetness conditions, with the greatest (−1.40 to −1.64 mg L−1) decrease occurring in the high-severity group during the wetting season. Additionally, our models indicated that in all seasons, baseflow index was more influential in predicting DOC concentrations than burn severity was, indicating that groundwater discharge can obscure the impacts of wildfire in a stream network. Overall, our results suggested that landscape characteristics can regulate the DOC response to wildfire. Moreover, our results also indicated that the seasonal timing of sampling can influence the observed response of DOC concentrations to wildfire.

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Hydrobiogeochemical Controls on the Delivery of Dissolved Organic Matter to Boreal Headwater Streams

Cited by 2 publications

References 100 publications

Hillslope Hydrologic Influences on Soil Carbon Content Informs Climate Impacts on Boreal Forest Mineral Soil Stocks

Hillslope Hydrologic Influences on Soil Carbon Content Informs Climate Impacts on Boreal Forest Mineral Soil Stocks

The influence of burn severity on dissolved organic carbon concentrations across a stream network differs based on seasonal wetness conditions

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