Enterococci in the Hudson River What is Enterococci bacteria What are Potential Sources of Sewage in the Hudson CSO Facts as long as New York City
Thomas, Darla, Operations Manager has reference to this Academic Journal, PHwiki organized this Journal Enterococci in the Hudson River What is it What does it tell us How does it get in the river How do we test as long as it What can we do about it PPT adapted from the summer 2007 research of Suzanne Young, Barnard graduate. Project funded by The Hudson River Foundation through a Polgar Fellowship. (adapted by M. Turrin as long as Snapshot Day website) What is Enterococci bacteria A bacteria correlated with many of the human pathogens found in raw sewage. It replaced fecal coli as long as m as the federal st in addition to ard as long as water quality in public beaches in brackish/estuarine waters. Enterococci strongly correlates with swimmer illness so it is useful as long as testing in areas where the water carries a recreational use classification It is a goal of the Hudson River Estuary Program Action Plan that much of the river will fall under this classification. What are Potential Sources of Sewage in the Hudson Combined sewer outfalls Malfunctioning wastewater treatment facilities Malfunctioning septic tanks Runoff from streets in addition to banks of waterways Waste from boats in addition to swimmers where sewage in addition to storm drains are connected – as in NYC in addition to – rainfall can cause the system to overload, bypassing the treatment facility
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NYCDEP How do CSOs work CSO Facts as long as New York City 70% of NYCs sewers are combined More than 494 outfalls in NYC Overflow can occur with 1/10th inch of rainfall due to all the pavement in addition to other impervious surfaces! Individual outfalls release sewage 50-80 times per year 27 billion gallons/year is released in NYC Take a look at a ruler in addition to see what a little amount of rain 1/10th inch is! That equates to once every 4.5 to 7 days, or the equivalent of one to two times a week! In this study Enterococci is studied as indicators of raw sewage in the Hudson River focusing on two locations Piermont Pier in Rockl in addition to County 125th street in West Harlem
125th Street: Future Harlem Piers Piermont Pier Suzanne collecting a water sample Tested using EPA Method 1600, which does not distinguish sources of the bacteria, only presence & rate of presence Absence – Clean agar plate with no growth Presence – shows entero colonies to be counted The EPA st in addition to ard as long as a single sample maximum is 104 Colony Forming Units (104) per 100ml of sample water.
EPA Method 1600: Membrane Filtration The Procedure Collect samples Dilute samples Filter diluted samples Incubate on mEI agar plates Count colony growth Filtration Incubation at 41°C Colony Count (As viewed through a microscope) West Harlem Results Enterococci concentration reported as Colony Forming Units (CFU) as long as ming per 100 ml – charted with Rainfall events Look at this graph – Do you see a correlation between Enterococci (ENT) concentrations & rainfall How often do ENT counts go higher than 104 CFUs/000ml X axis represents dates June-Aug 2007
>1500 CFUs/100ml Combined sewage outfall >1500 CFUs/100ml 3ml dilution Piermont Sampling Sites North Side of Pier Sparkill Creek: Below Dam South Side of Pier End of Pier Sparkill Creek: Above Dam Second Site – Piermont Pier – sampled in 2 places in Sparkill Creek in addition to 3 spots around the pier
Piermont: Enterococci in addition to Rainfall as long as a 2 week period July 16-30th Rainfall does not seem to be a main source of enterococci in the Sparkill – there is a consistent loading from another source lets see if we can tell what might be a contributor If you are comparing this graph to the Harlem River Site graph be careful to note that the Y axis here is in much lower increments, so overall rates of entero would be lower as long as this site. Piermont: North in addition to South of Pier P-value= .007 P-value <.05 Here is the data from sampling both sides of the pier. It seems the south side has a regular contribution. See next slide as long as discussion of geometric mean Geometric mean & water quality Many wastewater dischargers, or regulators who monitor swimming beaches in addition to shellfish areas, must test as long as in addition to report bacteria concentrations. Often, the data must be summarized as a "geometric mean" (a type of average) of all the test results obtained during a reporting period. WHY A geometric mean, unlike an arithmetic mean, tends to reduce the effect of very high or low values, which might bias the mean if a straight average (arithmetic mean) were calculated. This is helpful when analyzing bacteria concentrations, because levels may vary anywhere from 10 to 10,000 fold over a given period. In our sample on the previous page the range was from 10 to 1500, still a large span. Very generally the geometric mean is really a log-trans as long as mation of data to enable meaningful statistical evaluations. Practical definition: The average of the logarithmic values of a data set, converted back to a base 10 number. Outfall Pipe North Side South Side On the South side of the pier is the Sparkill Creek in addition to an outfall pipe. Look at the next slides to see if you can tell how much each might have contributed to the ENT counts. Sparkill Creek P-value= .18 Both the upper & lower Sparkill sites seem to be regular contributors P-value= .055 Outfall in addition to Mid-Channel Comparison Piermont Outfall (from boat) Tappan Zee Mid-channel Sampling at the outfall varies considerably with just over half the samples exceeding st in addition to ards. Piermont Pier Outfall sampling site from boat Mid-Channel sampling site from boat Tappan Zee Bridge Could you argue that the Sparkill Creek also contributes to the Outfall sampling site Would the tidal cycle at sampling time have any impact on contributions found from the Sparkill or the Outfall Previous Studies have considered other items like: Salinity - found salinity negatively correlates with ENT Grazing Communities - will affect bacteria mortality & inactivity UV light - affects bacteria mortality & inactivity Sediment - Like many other contaminants, bacteria can be retained & resuspended in sediments. Tidal resuspension of sediments is a factor to consider. Conclusions Rainfall strongly correlates with ENT concentrations Tidal action may influence persistence of ENT or disturb sediment in addition to resuspend Some wastewater treatment plants are not up-to-date with effective treatment processes There is a need as long as holistic approaches, ecologically sound practices such as those suggested in the following slides
Current CSO Legislation – legislation attempts to control the problem through laws/legal remedies Clean Water Act – enacted 1977 EPA CSO Control Policy Long Term Control Plans (submitted 6/30/07) Tank construction Floatables controls Wet weather capacity upgrades Sewer system improvements No discussion of BMPs (best management practices) to reduce stormwater volume We need to switch from thinking of stormwater as a WASTE to be treated (costing the city more money in addition to energy) to looking at it as a RESOURCE to be used. Yes, capturing more stormwater so that less volume actually reaches the rivers or sewers in addition to treatment plants One small way – encouraging Green Roofs/Rooftop Gardens Capture in addition to absorb stormwater Create wildlife habitat Counteract urban heat isl in addition to effect Aesthetic benefits Costs ~$8-10/sq.ft. more than reg.
Incentives first municipal green roof in country atop city hall Provides grants in addition to stormwater credits Density bonus in central business district Expedited permit process, fee waivers Chicago leads U.S. in sq.ft. of green roofs PLANYC In 2007, property tax abatement to offset 35% of the installation cost of green roofs What Other Ideas Can you Think Of 1.More street trees 2.Rain barrels 3. 4. 5.
Suzannes research was supported with help from: Peter Bower Greg OMullan Sarah McGrath John Lipscomb in addition to Riverkeeper Lamont Doherty Earth Observatory Hudson River Foundation Natural Resources Defense Council
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