Tracking stormwater pollutants from lawns to lakes informs capital projects & public education
Capitol Region Watershed District
St Paul, MN
Capitol Region Watershed District manages stormwater runoff to protect and manage wetlands, lakes and some Mississippi River headwaters in the densely urbanized Twin Cities area. Ambitious water quality goals require optimal water quality data management and analysis for science-based decisions.
Initial: 56.5 USD
O&M: 7.9 Thousand USD
General Fund/Existing Public Funds
Operational since 2018
Monitoring & Research Division
Managing an ever-growing amount of water data, The District knew it needed to improve its processes to enable better data analysis.
With 10 years of data and future plans to add more continuous flow sensors and water quality sampling events, The District needed process improvement.
Its current records management workflow was time-consuming. In addition staff had aggressive goals to better analyze data, in order to identify source contaminants and enable professionals to focus on water quality improvements.
The District adopted new stormwater quality software that allowed it to better manage and analyze the growing volume of water data.
In 2016 the District adopted commercial and efficient stormwater quality software to define and apply its own specific rules and procedures to its data.
After automated quality control tasks, staff has access to extensive tools to further correct data points as well as evaluate flow measurements with analytical lab results. Data visualization options quickly contextualize current and past high flow events, plus baseflow and other trends on daily, monthly, seasonal, or storm event bases.
After implementing the new system, the District added a KISTERS web portal to invite other agencies, research institutions, and the public to interact with its open data. Website visitors can select standard or custom time periods of interest, explore the map, view as well as download graphs, charts, and tables.
Automated application of storm event definitions and calculation of pollutant loads are more consistent compared to manually applied definitions & TMDL computations.
Time-savings from from automation enable expanded data analysis and better engage professional staff, so findings inform capital projects and program planning.
More accurate long-term statistics, graphs and maps are presented online to the public, enhancing education about clean water.
A custom script was identified and implemented to compute high flow events; the District further adapted the script to each monitoring station's variable factors, such as flashiness or temporarily sustained high flows following a storm event.
Who Should Consider
District w ambitious mixed use redevelopment plans. Adv data validation, calculation & analysis informed plans to sustainably manage stormwater on 122-acre former Ford Assembly Plant on Mississippi River bluff.
Last UpdatedMar 25th, 2022
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