2018 ESA Annual Meeting (August 5 -- 10)

PS 49-11 - Water quality impacts of small-scale hydromodification in an urban stream in Connecticut, USA

Friday, August 10, 2018
ESA Exhibit Hall, New Orleans Ernest N. Morial Convention Center

ABSTRACT WITHDRAWN

Bin Zhu1, Daniel Smith1, Anthony Benaquista1, Dylan Rossi1, Betsy Kadapuram1, Man Lok Yu1, Andrew Partlow1 and Nathan Burtch2, (1)Department of Biology, University of Hartford, West Hartford, CT, (2)Towsen University
Bin Zhu, University of Hartford; Daniel Smith, University of Hartford; Anthony Benaquista, University of Hartford; Dylan Rossi, University of Hartford; Betsy Kadapuram, University of Hartford; Man Lok Yu, University of Hartford; Andrew Partlow, University of Hartford; Nathan Burtch, Towsen University

Background/Question/Methods

Construction activities in and along urban streams increase the sediment input into surface waters, causing an overall decline in water quality and aquatic ecosystems. In this case study, we investigate the water quality impacts of local hydromodification in an urban stream. At the site of interest, workers removed a stream crossing consisting of an embankment with culverts and replaced it with a small bridge in an effort to improve flow capacity. Water samples were taken at four sites along the North Branch Park River in Connecticut, Northeastern United States. Turbidity and dissolved oxygen (DO) were measured in situ, and nitrate and total phosphorus (TP) were measured in the laboratory. Benthic macroinvertebrate samples were also collected and analyzed for taxon richness and Shannon-Weaver species diversity. Data were compared between upstream and downstream sites and before, during, and after hydromodification. We used one-way ANOVA combined with the post hoc Turkey test to derive statistical significance.

Results/Conclusions

During construction, turbidity increased temporarily by 60.9% [from 2.48 Nephelometric Turbidity Units (NTU) over ambient to 4.00 NTU]. Once construction was completed, DO increased locally from 11.0 to 13.0 mg/L. Benthic macroinvertebrate taxon richness and species diversity declined by 61.6 and 32.6% respectively, with no recovery observed in the year following construction. Water quality was only affected within 50 m downstream. Nitrate and TP concentrations were unaffected. Small-scale hydromodification temporarily increased the turbidity as a result of increased sediment input, approaching the maximum level for clean water (5 NTU). Benthic macroinvertebrate communities declined in the immediate downstream vicinity of construction but are expected to recover soon given that turbidity recovered to pre-construction levels, and DO increased. These outcomes emphasize that environmental assessment is important not only for large-scale hydromodification but also for smaller scale stream modifications.