CADDIS Volume 2: Sources, Stressors & Responses
Nitrogen in urban streams
One common water quality change associated with urban development is an increase in nutrient concentrations, especially nitrogen (Fig 24, Table 6). Wastewater inputs and stormwater runoff both contribute to increased nitrogen loading in urban catchments. Specific sources of nitrogen in urban systems include:
Human wastesAtmospheric deposition
- wastewater treatment plant effluents
- leaky sewer and septic systems
- vehicle exhaust
- other forms of fossil fuel combustion
Fertilizers applied to lawns and golf courses
Pet wastes
Landfill leachates
Legacy sources (e.g., development of agricultural land)
In addition, riparian alteration can affect nitrogen uptake and cycling, and turn urban riparian areas into nitrogen sources (Groffman et al. 2002, 2003).
Although nitrogen loading to and export from urban streams typically are elevated, many studies also have found relatively high nitrogen retention [Groffman et al. 2004, Wollheim et al. 2005 (Table 6)] in these systems. Pervious surfaces such as lawns may act as nitrogen sinks in urban areas (Raciti et al. 2008), and help to mitigate at least some nitrogen loading increases. However, this mitigation may be limited as fertilizers often are over-applied in urban systems.
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Parameter |
Urban |
Forest |
|
---|---|---|---|
Total N loading (kg km-2 y-1) |
Wet deposition (DIN) | 494 | 496 |
Dry deposition (DIN) | 290 | 290 | |
Net waste N | 350 | 586 | |
Fertilizer N | 1443 | 395 | |
SUM | 2578 | 1767 | |
River N exports (kg km-2 y-1) |
DIN (NO3 + NH4) |
333 | 7.5 |
DON | 51.5 | 51.6 | |
SUM | 384.5 | 59.1 | |
N retention (%) |
85 | 97 | |
Modified from Wollheim WM et al. 2005. N retention in urbanizing headwater catchments. Ecosystems 8:871-884. |