Continuous water quality sensor data from the main channel and a backwater of the Upper Mississippi River from 2015-2018
Dates
Publication Date
2023-04-24
Start Date
2015-06-01
End Date
2018-10-12
Citation
Jankowski, K.J., Houser, J.N., and Waite, T., 2023, Continuous water quality sensor data from the main channel and a backwater of the Upper Mississippi River from 2015-2018: U.S. Geological Survey data release, https://doi.org/10.5066/P9FGYHVS.
Summary
This dataset includes high-frequency sensor data collected during four consecutive summers from buoys deployed at main channel and backwater sites in Pool 8 of the Upper Mississippi River from 2015-2018. It also includes the event-specific concentration-discharge metrics (hysteresis and slope) calculated by combining the water quality sensor data with discharge data from a nearby USGS gage in Winona, MN (05378500). High-frequency sensor data were collected using water quality buoys (PISCES monitoring platforms; EMM350 Water Monitoring Pontoon Platform | ysi.com | ysi.com; Yellow Springs, Ohio) set up with EXO2 Multiparameter Sondes (YSI, Inc, Yellow Springs, Ohio) to monitor hourly or bi-hourly concentrations of chlorophyll-a, phycocyanin [...]
Summary
This dataset includes high-frequency sensor data collected during four consecutive summers from buoys deployed at main channel and backwater sites in Pool 8 of the Upper Mississippi River from 2015-2018. It also includes the event-specific concentration-discharge metrics (hysteresis and slope) calculated by combining the water quality sensor data with discharge data from a nearby USGS gage in Winona, MN (05378500). High-frequency sensor data were collected using water quality buoys (PISCES monitoring platforms; EMM350 Water Monitoring Pontoon Platform | ysi.com | ysi.com; Yellow Springs, Ohio) set up with EXO2 Multiparameter Sondes (YSI, Inc, Yellow Springs, Ohio) to monitor hourly or bi-hourly concentrations of chlorophyll-a, phycocyanin (metric of cyanobacteria abundance), fluorescent dissolved organic matter (FDOM; QSU), and turbidity (FNU), and water temperature (Celsius) as well as a SUNA v2 nitrate sensor (Sea-Bird Scientific, Bellevue, Washington) to monitor nitrate concentration.
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Related External Resources
Type: Related Primary Publication
Waite, T., Jankowski, K. J., Bruesewitz, D. A., Van Appledorn, M., Johnston, M., Houser, J. N., et al. (2023). River geomorphology affects biogeochemical responses to hydrologic events in a large river ecosystem. Water Resources Research, 59, e2022WR033662. https://doi.org/10.1029/2022WR033662
These data were used to understand the response of water quality to high discharge events between channel and backwater areas in the Upper Mississippi River.