Chamberlin Creek discharge and suspended sediment concentration, Alaska, 2015-2017

A gauging station was installed in Chamberlin Creek during the following months/years during three field seasons: May-August 2015, May-August 2016, and May-August 2017. During the 2015, 2016, and 2017 field seasons, water pressure, turbidity, temperature and conductivity measurements were acquired e...

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Bibliographic Details
Main Authors: Erik Schiefer, Lorna Thurston, Nicholas McKay, Darrell Kaufman, David Fortin, Jason Geck, Michael Loso, Anna Liljedahl
Format: Dataset
Language:unknown
Published: Arctic Data Center 2019
Subjects:
Online Access:https://doi.org/10.18739/A2BZ61825
Description
Summary:A gauging station was installed in Chamberlin Creek during the following months/years during three field seasons: May-August 2015, May-August 2016, and May-August 2017. During the 2015, 2016, and 2017 field seasons, water pressure, turbidity, temperature and conductivity measurements were acquired every 30-60 minutes using a Troll9500 (raw data). Back-up measurements for pressure and temperature were acquired using a Hobo Water Level Logger - U20L-03. Water pressure was corrected for atmospheric pressure and converted to stage, and a discharge (Q) rating curve was built for each field season by acquiring periodic discharge measurements using an hand held Hach FH950 flow meter. These continuous measurements and calculations are available in the following file: "CHB_Q_continuous". Water samples were collected during the discharge measurements using a DH-48 and suspended sediment concentration (SSC) was obtained from filtration of the water samples. These manual measurements are available in the following file: "CHB_Q_SSC_manual". Because the location of instruments in the creek changed between years, upper and lower uncertainty limits (95%) are provided for 2016-2018 datasets. Codes are provided to specify the rating curve or other method used to calculate continuous Q. Continuous Q datasets were infilled and/or extended where possible by analyzing daily photographs of the river gaging station. The study, as well as detailed 2015 and 2016 datasets, is described in a MS thesis: Thurston, L.L., 2017. Modeling Fine-grained Fluxes for Estimating Sediment Yields and Understanding Hydroclimatic and Geomorphic Processes at Lake Peters, Brooks Range, Arctic Alaska. MS Thesis, Northern Arizona University, Flagstaff, Arizona, ProQuest ID (identifier) 2025947690.