Continuous water-quality data need careful review and often require drift or fouling corrections to ensure accuracy. This session explains when and how to correct records, describes manual and automatic methods in Aquarius Time Series, and discusses percent versus multi-point corrections. The session also addresses data censoring. Participants will examine how to apply corrections for various continuous water-quality parameters and field conditions.
Do you use water-quality monitors and want to learn more about troubleshooting? This course will look at common problems with water-quality monitors and will demonstrate how to identify problems and fix them.
An Innovative, Tiered, Multi‑Platform Framework for High‑Resolution Water‑Quality Monitoring and Mapping (NWDTW 2026)
Theresa Armijo, Hydrologic Technician, Colorado Water Science Center Matt Burgess, Geographer, National Uncrewed Systems Office Matt Gyves, Physical Scientist, Pennsylvania Water Science Center Tyler King, Research Hydrologist, Hydrologic Remote Sensing Branch
Effective assessment of water-quality conditions requires strategies that capture spatial and temporal variability and complexities of biogeochemical processes. In this talk we present and seek feedback on a tiered, multi-platform monitoring framework that integrates satellite observations, Uncrewed Aircraft System (UAS)-based hyperspectral imaging, boat-based discrete sampling, in-situ water-quality measurements, and micro-sized autonomous underwater vehicles (AUVs; Jaia Robotics JaiaBot BIO) measurements. Together, these platforms form a scalable and adaptive system for characterizing water-quality dynamics across broad spatial and temporal scales. This approach will be piloted in August 2026 to characterize conditions in two Colorado reservoirs affected by harmful algal blooms (HABs). Integrating sampling and monitoring technologies within a tiered and multi-platform framework enhances the resolution of water-quality assessments and supports early event detection. This allows for targeted sampling campaigns, and improved mapping of spatially complex environments—including reservoirs, river networks, and estuarine systems. The multi-platform framework provides an efficient path toward cost-effective, repeatable monitoring, scalable and transferable platforms that can be tailored to diverse management objectives such as site-specific studies to basin-wide or regional initiatives. With this approach, we aim to characterize conditions at increasingly fine resolution.
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