Water Quality Monitoring in the Bayou Teche WatershedWhitney P. Broussard III, Jenneke M. Visser,
Adam J. Constantin, Matthew Tarkington, J. Kacey Peterson
LDEQ NPS Project Review Meeting12 December 2012
Background - Rationale
Cropland (rice and sugarcane), pasture, woodlands, wetlands, urban – “Rural” watershed
Several WWTP. Rural residential septic systems on the mainstem.
Suspected causes of impairment include oxygen demand, BOD substances, DO, nutrients, sewage.
TMDLs have been completed for 9 subsegments.
Comprehensive water quality only at Adeline, LA. Historical records at Breaux Bridge.
Detailed water quality information for the remainder of the watershed is largely unavailable.
Project ObjectivesMonthly monitoring for 12 calendar months
Record and deliver in situ field parameters
DO, turbidity, pH, electrical conductivity, and temperature
Record and deliver laboratory parameters
Nitrate, Nitrite, Phosphate, Sulfate, BOD5, TP, TS, TSS, and fecal coliform concentrations
Watershed scale monitoring – 15 located a junctures with tributaries and distributaries
Identify ‘hot spots’ by subsegments
Determine land management practices associated with hot-spot subsegments
The following questions will be addressed in the course of the project: Is there a significant difference between the concentration of NPS pollutants in the diverted Atchafalaya River water and Bayou Teche water at Charenton Canal? If so, which subsegment of the project watershed is significantly contributing to the NPS pollutant load?
15 monitoring locations are distributed along Bayou Teche from the headwaters to the mouth.
This approach, complimented by the use of a boat for sample collection, allows for the experimental design and monitoring locations to be determined by the watershed drainage network.
YSI – DO, Turbidity, pH, Cond. Temp
Callegari Laboratory – NO3, NO2, PO4, TP, SO4, BOD5, TS, TSS, fecal coliform
Geospatial techniques used to delineate station sub-basins and analyze land cover by sub-basin
Methods Notes
• Team – 1 Research Scientist, 1 Assoc. Prof., 2 Research Associates and 1 Undergraduate Student
• Purchased 2 YSI multi-parameter water quality sondes
• Set up field support laboratory and outfitted with proper field and laboratory safety equipment
• Completed QAPP
• Collected WQ data Jan-Nov
• Delineated sub-basins for each station
• Quantified land cover and NDVI data by sub-basin
• Completed map-book of land cover and WQ data for public consumption
• Spatially explicit regression analyses correlating land use and water quality parameters are ongoing
• Final report, data, and results will be completed on time at project end – Jan 2013
Progress to Date
35%
30%
11%
8%
5%3%
2%3%2%
NO3-N Spring concentration (Jan-May)
Thank you!
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