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Dataset associated with “Aufeis as a Major Forcing Mechanism for Channel Avulsion and Implications of Warming Climate”

Date

2022

Authors

Wohl, Ellen
Scamardo, Julianne

Journal Title

Journal ISSN

Volume Title

Abstract

Prompted by field observation of an aufeis-induced channel avulsion along the Hula Hula River in June 2021, we use measurements of channel migration zone width along 15 rivers flowing north across the Arctic coastal plain in Alaska, USA. We differentiated sites with aufeis that covered > 1 km2 in early summer during the period 2017-2021 from sites without such aufeis formation. All but 4 of the 28 sites with aufeis have widths greater than the 95% confidence interval and 20 sites fall outside of the 95% prediction interval for channel width based on drainage area. Pairwise comparison indicates that the population of aufeis sites have significantly wider channel migration zones (p < 0.0001) than non-aufeis sites after accounting for drainage area. Seasonal aufeis facilitates lateral channel migration and associated heterogeneity. Loss of aufeis under warming climate may reduce habitat diversity in these river corridors.

Description

The dataset is a comma separated values (CSV) file that contains the basic data used in analyses (river name, reach number, latitude and longitude of each measurement site, drainage area in km2 at each measurement site, and indication of presence/absence of persistent aufeis accumulation).
Department of Geosciences

Rights Access

Subject

floodplain
Alaska
Arctic coastal plain

Citation

Associated Publications

Wohl, E., & Scamardo, J. E. (2022). Aufeis as a major forcing mechanism for channel avulsion and implications of warming climate. Geophysical Research Letters, 49, e2022GL100246. https://doi.org/10.1029/2022GL100246