Multi-year, spatially extensive, watershed-scale synoptic stream chemistry and water quality conditions for six permafrost-underlain Arctic watersheds

Arial Shogren; Jay P. Zarnetske; Benjamin Abbott; Samuel P. Bratsman; Brian C. Brown; Michael P. Carey; Randy Fulweiber; Heather Greaves; Emma Haines; Frances Iannucci; Joshua C. Koch; Alex Medvedeff; Jonathan A. O'Donnell; Leika Patch; Brett Poulin; Tanner J. Williamson; William B. Bowden

doi:10.5194/essd-14-95-2022

Multi-year, spatially extensive, watershed-scale synoptic stream chemistry and water quality conditions for six permafrost-underlain Arctic watersheds

Earth System Science Data

By: Arial Shogren, Jay P. Zarnetske, Benjamin Abbott, Samuel P. Bratsman, Brian C. Brown, Michael P. Carey, Randy Fulweiber, Heather Greaves, Emma Haines, Frances Iannucci, Joshua C. Koch, Alex Medvedeff, Jonathan A. O'Donnell, Leika Patch, Brett Poulin, Tanner J. Williamson, and William B. Bowden

https://doi.org/10.5194/essd-14-95-2022

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Abstract

Repeated sampling of spatially distributed river chemistry can be used to assess the location, scale, and persistence of carbon and nutrient contributions to watershed exports. Here, we provide a comprehensive set of water chemistry measurements and ecohydrological metrics describing the biogeochemical conditions of permafrost-affected Arctic watersheds. These data were collected in watershed-wide synoptic campaigns in six stream networks across northern Alaska. Three watersheds are associated with the Arctic Long-Term Ecological Research site at Toolik Field Station (TFS), which were sampled seasonally each June and August from 2016 to 2018. Three watersheds were associated with the National Park Service (NPS) of Alaska and the U.S. Geological Survey (USGS) and were sampled annually from 2015 to 2019. Extensive water chemistry characterization included carbon species, dissolved nutrients, and major ions. The objective of the sampling designs and data acquisition was to characterize terrestrial–aquatic linkages and processing of material in stream networks. The data allow estimation of novel ecohydrological metrics that describe the dominant location, scale, and overall persistence of ecosystem processes in continuous permafrost. These metrics are (1) subcatchment leverage, (2) variance collapse, and (3) spatial persistence. Raw data are available at the National Park Service Integrated Resource Management Applications portal (O'Donnell et al., 2021, https://doi.org/10.5066/P9SBK2DZ) and within the Environmental Data Initiative (Abbott, 2021, https://doi.org/10.6073/pasta/258a44fb9055163dd4dd4371b9dce945).

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Multi-year, spatially extensive, watershed-scale synoptic stream chemistry and water quality conditions for six permafrost-underlain Arctic watersheds
Series title	Earth System Science Data
DOI	10.5194/essd-14-95-2022
Volume	14
Year Published	2022
Language	English
Publisher	Copernicus Publications
Contributing office(s)	Alaska Science Center Water
Description	22 p.
First page	95
Last page	116
Country	United States
State	Alaska
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