Nitrogen Sources and Environmental and Public Health...
Transcript of Nitrogen Sources and Environmental and Public Health...
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Nitrogen Sources and Environmental and Public Health
Issues in Coastal Watersheds
Lorraine Joubert and Art GoldCoastal Institute / Cooperative Extension
University of Rhode Island
2010 Land Grant and Sea Grant National ConferenceFebruary 22, 2010
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RI NEMO Nonpoint Education for Municipal OfficialsLorraine Joubert, Program Director
Lisa D. Philo, Communication Specialist [email protected]
Dr. Art Gold, Hydrology Professor and DirectorCooperative Extension Water Quality ProgramUniversity of Rhode Island, Kingston RI
www.uri.edu/ce/wqContacts
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Nonpoint Education for Municipal Officials
RI NEMO provides training and technical support to local decision makers in evaluating and managing impacts of land use
on local water resources.
RI NEMO is part of URI’s Cooperative Extension Water Quality Program
Funded by RI HEALTH, RI DOT, RI DEM and EPA
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Topics
1. Why worry about nitrogen
2. Estimating nitrogen inputs
3. Management
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Topics
1. Why worry about nitrogen
• sources, effects to health and environment
2. Estimating nitrogen inputs
3. Management
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Why worry about nitrogen?
• Nitrogen is a drinking water contaminant.
• Critical nutrient overfertilizing coastal waters.
N is is a pollutant
• High groundwater NO3-N (nitrate-nitrogen) indicates human impact• NO3-N is soluble and mobile in deep groundwater – used to model potential development impacts.
Indicator of Pollution
• N in wastewater, fertilizers and stormwater.
• N removal potential in hydric (wetland) soils.
Inputs linked to land use
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Nitrogen – too much of a good thing?
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Source: World Resources Institute 2008 http://news.nationalgeographic.com/news/bigphotos/14793409.html
415
http://disc.sci.gsfc.nasa.gov/oceancolor/additional/science-focus/ocean-color/dead_zones.shtml
Pamlico Sound, NC
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Stream
NO3
N Inputs• Fertilizers• Animal waste• Human waste• Precip - NOx
Atmosphere 78% nitrogen
NH3, NO3Used by plants
N2
N2 Fixation (Nitrification) Natural N2 fixation by soil bacteria living on roots of legumes, also algae & lightening.
N Outputs• Stream flow• Crop uptake
• Microbial Denitrification
Artificial N2 fixation invented 1909 by Fritz Haber and used to make WW1 bombs. More than half of world’s supply of useable N is now man made.
DenitrificationN2, N2O
Completing the cycle
N2 FixationNOx
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Major Sources of Nitrogen to Groundwater
Agricultural Activities– Commercial fertilizers– Varies by type of crop– Animal manure
Onsite Wastewater Treatment Systems- Failed systems (Org.-N and NH4+-N)- Systems working properly (NO3-N)
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Health Impacts Public drinking water supply standardsEPA and RI Dept of Health
10 mg/l nitrate-N Maximum Contaminant Level (MCL)
Sources: Weyer, et.al., 2001; Ward, et. al., 1996.; URI HomeAsyst factsheet “Nitrate-Nitrogen in Private Drinking Water Wells. http://www.uri.edu/ce/wq/has/PDFs/Nitrate_handout_Revised.pdf
Concentration
milligram per liter (mg/l) = parts per million (ppm)
Most labs report nitrate as nitrate-nitrogen, the amount of N in that form (NO3-N)
MCL prevents methemoglobinemia “blue baby syndrome” in infants < 6 months old.
Supplier must take action to reduce. Should not use to mix infant formula.
5 mg/l nitrate-N Action Level
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Other Health Issues
Sources: Weyer, et.al., 2001; Ward, et. al., 1996.; URI HomeAsyst factsheet “Nitrate-Nitrogen in Private Drinking Water Wells. http://www.uri.edu/ce/wq/has/PDFs/Nitrate_handout_Revised.pdf
Suspected Risks2.5 – 4 mg/l nitrate-N associated with cancer risk.
> 19 mg/l implicated in miscarriage.
Private wellsAnnual monitoring recommended, but not required.Homeowners are on their own.
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Monitored Maximum Nitrate-N Concentration (mg/l) RI HEALTH major community public wells
1996-2001
0.10.3
0.6 0.60.8
1.21.4 1.5
22.2
2.6 2.7 2.8 2.83.2 3.2
3.8
4.4 4.5
5.6
6.6
0
1
2
3
4
5
6
7
Wells 3,7
&8 NK
Barrington
Crandall
South Sho
re
Cumb. M
anvill
e
Noyes A
ve.
Lincoln Lonsda
le
Cumb. A
bbott R
un
Well 6 NK
Frenchtow
n Kent
United
Mishnock
Bradford
Whiteroc
k
Kingsto
n
Wells 1,2
,4&5 NK URI
Pawtucke
t
Frenchtow
n EDC
Spring Lak
e Kent
Frenchtow
n NK
Nitra
tes
(mg/
l)
RI Major Community Water Supplies are meeting all drinking water standards – but maximum levels near 5 mg/l is a concern
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Wastewater impacts to private wells1996 field study by A. Veeger (1996)
Study area• Densely developed, unsewered, private wells.
• Slowly permeable, high water table soils.
• Lot size: Median < ½ acre; many < 7,500 sf.
• 119 private wells sampled.
Jamestown Shores, Jamestown RIResultsHigh NO3 is associated with fecal coliform and small lot size
• Fecal Coliform bacteria detected in 15% of wells.
• Wells with bacteria detects averaged 3.6 mg/l nitrate-N, compared to 2.3 mg/l nitrate-N for all wells.
• Lots < 1acre averaged 3.2 mg/l NO3 and were most likely to have fecal coliform detects.
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Wastewater impacts to private wells1996 field study by A. Veeger (1996)
As a result of this study:
Town worked with URI Cooperative Extension to estimate N sources and other pollution threats
Town adopted High water table ordinance for lots < 1 acre which:• limits impervious cover,
• requires on-lot stormwater management, and
• advanced wastewater treatment.
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Current “Non Point” Pollution Problem: Nutrient enrichment (eutrophication) of coastal waters based on total amount or loading of nitrogen (lbs/yr), all forms.
Old direct discharge problem: Ammonia toxicity (NH3 ) with high concentration of untreated discharge and drop in dissolved oxygen with conversion to nitrate (NO3).
Aquatic life impacts
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• Eelgrass filters pollutants, adds
oxygen.
• Sandy bottom sediment
• Good habitat for fish and shellfish
Healthy Coastal Waters with Low Nutrients
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Attached and suspended
algae reduces light and eelgrass
function.
Muck sediment poor habitat for fish and shellfish.
Degraded Coastal Waters with High Nutrients
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Nitrogen Enrichment
Nuisance seaweed replaces eelgrass,
Smothers habitat,
Algae decays and consumes oxygen.
Many poorly flushed coastal waters are impaired due to excessive
nutrients and low oxygen.
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Direct effect of coastal nitrogen contamination- Low dissolved oxygen leads to summer fish kills.
- Sediments may continue to store and recycle nutrients.
Greenwich Bay fish kill, RI August 2003
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0.5 mg/l or lessNatural back-ground in RI groundwater in forested areas.
Healthy shellfishinghabitat at 0.3 mg/l or less.
1 mg/lSign of impactto groundwater from waste water or fertilizer. (USGS,2000)Freshwater EPA guideline for Total N lakes 0.32 mg/l, rivers 0.71 mg/l
5 mg/lPublic drinking water action level. Triggers additional monitoring.
Standard adopted by some towns.
10 mg/lDrinking water standard.
Acute health effects to infants. With “blue baby syndrome” nitrate replaces oxygen in blood.
Suspected risk of cancer other health effects.
Summary - How much nitrogen is too much?
2.5 mg/lIncreasing risk of impact to groundwater supplies and coastal habitat.
Increasing pollution risk
Increasing nitrogen
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Topics
1. Why worry about nitrogen.
2. Estimating nitrogen inputs
3. Management
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How much Nitrogen comes from septic system vs. other sources?
One parcel vs. watershed?
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Source: Gold et al., 1990 and Morton et al, 1988.1. Based on 3-bedroom house septic system with 1-acre.2. Loss estimates based on 17,000 feet of lawn and forest.3. Nitrogen application rate 5lbs./1000 sq. ft/yr; watered 1.5 inches/ week.4. Nitrogen application rate 5lbs/1000 sq ft/ yr; watered 0.5 inches when dry.5. Losses based on 17,000 sq ft of forest.
Annual Losses of Nitrate-nitrogen to Groundwater from a 1-Acre Residential Lot
0
5
10
15
20
25
Septic Systems Law n Fertilizedand Overw atered
Law n Fertilized Law n Unfertilized Forest
lbs/yr
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Septic System7 lbs N/person/yr 90% Leaching = 6 lbs/person
Lawn Fertilizer175 lbs N/ac/yr 6-20% leaching = 10-35 lbs /acre
Pet Waste0.41 N/person/yr
Groundwater Nitrate-N Loading Mass balance
Source assumptions:
Tilled Cropland175 - 215 lbs N/ac/yr 20-30 % leaching =35-65 lbs/acre
Forest and unfertilized Area1.2 lbs N/ac/yr
Atmospheric 8 lbs N/ac/yr
•15% leaching from forest
•100% input to surface waters and pavement.
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Estimated Sources of Nitrogen to a rural / suburban coastal watershed
Pawcatuck Watershed RI
• 156,700 acres
• 73% forest & wetland
• 3% surface water
• 5.5% Cropland fertilized
• 99% unsewered
• Impervious 3 - 4% avg.
• Protected shoreline buffers - 83% vegetated.
URI MANAGE, 1995 land use
Surface Runoff 34%
Precipon water
3%
Groundwater
recharge 63%
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Estimated Sources of Nitrogen to a rural / suburban coastal watershed
Pawcatuck Watershed RI
• 156,700 acres
• 73% forest & wetland
• 3% surface water
• 3.5% Cropland fertilized
• 99% unsewered
• Impervious 3 - 4% avg.
• Protected shoreline buffers - 83% vegetated.
URI MANAGE, 1995 land use
5.2 lbs N /acre /yr loading
1.1 mg/l NO3-N average in recharge
Other14%
Pet Waste2%
Agri. Fert37%
Lawn Fert.8%
Septic Systems 39%
Estimated Sources of N to Groundwater Recharge
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Green Hill Pond RI
• 3,400 acres
•14% surface water
• 13% Impervious
• 55% shoreline disturbed
• 100% unsewered
• Up to 8 units/acre
• Shellfishing ban
Estimated Sources of Nitrogen to a developed Coastal Pond watershed
14.2 lbs N /ac/yr loading to groundwater
3.4 mg/l NO3-N average in recharge
Pet Waste5%
Other4%
Agri. Fert9%
Lawn Fert.9%
Septic Systems73%
Runoff 20%
Precip 6%
Recharge
74%
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Caveats in using simplified nutrient loading models
• Screening level analysis designed best applied over entire aquifer, wellhead or watershed.
• Results useful in identifying relative impacts and location of pollution risks.
• Doesn’t address all sources, contaminants, and effluent plumes.
• Does not take into account N removal and delivery – an active area of research…
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Riparian (shoreline) areas can be N treatment zones
Potential for denitrification as shallow groundwater moves
through hydric soils NO3 N2 O N2
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048
121620242832
0
2
4
6
8
val R
ate
(µ
g k
g -1
d-1
)
Hydric Soils Nonhydric Soils
Nitr
ate-
N R
emov
al R
ate
(μg
kg-1
d-1 ) 32
28
24
20
16
12
8
4
0
Nitrate-N Removal
Hydric Soils Non-hydric Soils
Hydric soils in both wetlands and wetland buffers can be N sinks
Nitrogen removal rates
> 80% within wetlands generally
50-78% in high water table transition zones to wetlands.
Source: Simmons, R.C., A.J. Gold, and P.M. Groffman, 1992
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Potential Denitrification Hot Spots
• Wet soils • Land-Water interface at riparian zones • Headwater streams• Ponds and Reservoirs
Current Research Premise: High resolution spatial data can improve identification,
management and assessment of watershed N sinks
Source: Art Gold, D.Q. Kellogg, Kelly Addy, Suzanne Cox, Peter Groffman
Digital topography & hydrography(1:24,000) apply digital
elevation models to track
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Topics
1. Why worry about nitrogen
2. Estimating nitrogen inputs
3. Management
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50%10%
Natural Landscape Low runoff High recharge Healthy summer stream flow Natural pollutant treatment
Land Use Alters Hydrology
15%
Developed- High runoff, Low recharge- Nuisance flooding- Lower water tables- Low stream flow
30%40%
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N movement with change in hydrology
Runoff
• Increased N in runoff from land use activities and precipitation.
• Bypass natural filtering and treatment by plants and hydric soil.
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Original coastal wetland with high denitrification soils
Tile drain or stormdrain
Fill
water table
Retaining Wall
Stream
Effect of Storm Drains and Shoreline Alteration:Riparian ecosystem with potential for denitrification is lost
Original ground surface
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Stormdrains deliver higher and faster peak flows and volume
Effects of stormwater runoff on riparian areas
Photo: Carolyn Klocker, BESLTER
Stream channels enlarged by incisement and downcutting.
Lowered water tables with reduced ground water rechargeand stream incisement
Source: TK Watson, DQ Kellogg, K Addy, AJ Gold,MH Stolt, PM Groffman.
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Control N source
• Agricultural fertilizers and manure
• OWTS loading – denite in high risk areas
• Residential lawn management.
Managing Nitrogen
Maintain Natural N Sinks
• Protect hydric soils, wetland buffers, and headwater streams.
• Use site design and stormwater management to maintain infiltration
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Increases road frontage and pavement.
Consumes open space.
Compacted soils reduce infiltration, increases runoff volume
Large lawns often have high fertilizer, water use.
Water use in large lot subdivisions often 3 times higher in summer.
Avoid conventional large lot development
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22 ft paved cleared
ROWTotal roadway width 34 ft
7 ft
Usquqpaug Hills, South Kingstown, RI
Conservation Development - compact, flexible subdivision and street design, low impervious.
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Low maintenance bioretention area infiltrating runoff from a commercial site since 1999. W.Kingston, RI
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Engineered Swales, Bioretention Basins and Porous Pavers
Jordan Cove, CT - subdivision road
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OVERFLOW LOT
CONVENTIONAL LOT
Parking Strategies - based on actual demand, consider permeable pavement
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“Bioreactors”- A New Denitrification Method
Source: Betty Buckley, URI Graduate School of Oceanography
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Source: Betty Buckley, URI Graduate School of Oceanography
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Filling trench box with wood chips
Photo courtesy of Betty Buckley, URI Graduate School of Oceanography
Bioreactor Future Trends?
• Small scale units installed at surface.
• Retrofit treatment units for tile drains and stormdrains.
• In-line applications for streams.
• Animal waste runoff treatment systems for pastures and feedlots.
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Summary
1. Nitrogen concentration (mg/l) is a concern in groundwater drinking water supplies.
Major sources:
• Agricultural fertilizers and animal waste
• Densely sited septic systems
• Septic systems and other sources within inner protected well radius (100 ft private wells, 200-400 ft public wells).
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2. Nitrogen loading (lbs/yr) is a concern in coastal watersheds.
Major sources:
• Septic systems
• Agricultural fertilizers and animal wastes
• Stormwater runoff and loss of natural N sinks.
• Location influences delivery to surface waters – shorelines, hydric soils.
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3. Denitrification ‘hot spots’ reduce N delivery to coastal waters• Hydric soils, riparian areas, headwater streams
and ponds serve as N sinks.
• Landscape denitrification depends on groundwater recharge and flow paths.
• “Low impact” stormwater controls can help maintain or restore pre-development hydrology.
• Current URI research applies GIS to identify N sinks to support local land use decisions.
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Thank you for your attention!
Contacts:Lorraine Joubert Tel: 874-2138 [email protected] DeProspo Philo Tel: 874-5687 [email protected] of Rhode Island, Natural Resources Science
Resources at www.uri.edu/ce/wq and ristormwatersolutions.org