Constraining nitrogen inputs to urban streams from leaking sewers using inverse modeling: implications for dissolved inorganic nitrogen (DIN) retention in urban environments.

@article{Divers2013ConstrainingNI,
  title={Constraining nitrogen inputs to urban streams from leaking sewers using inverse modeling: implications for dissolved inorganic nitrogen (DIN) retention in urban environments.},
  author={Marion T. Divers and Emily M. Elliott and Daniel J. Bain},
  journal={Environmental science \& technology},
  year={2013},
  volume={47 4},
  pages={
          1816-23
        }
}
Leaking sewer infrastructure contributes nonpoint nitrogen pollution to groundwater and surface water in urban watersheds. However, these inputs are poorly quantified in watershed budgets, potentially underestimating pollutant loadings. In this study, we used inverse methods to constrain dissolved inorganic nitrogen (DIN) inputs from sewage to Nine Mile Run (NMR), an urban watershed (1570 ha) in Pittsburgh, Pennsylvania (USA) characterized by extensive impervious surface cover (38%). Water… 
View on PubMed
eelliottnew.weebly.com
43 Citations
Highly Influential Citations
1
Background Citations
15
Methods Citations
1

Figures and Tables from this paper

43 Citations

Citation Type

Citation Type

Response to comment on "Constraining nitrogen inputs to urban streams from leaking sewers using inverse modeling: implications for DIN retention in urban environments".
TLDR
Organic nitrogen originating from sewage can be transformed to nitrate in a number of well-documented environmental conditions, and sewer-derived DIN inputs to urban surface waters to address substantial imbalances in watershed-scale material budgets are estimated.
Quantification of nitrate sources to an urban stream using dual nitrate isotopes.
TLDR
Results indicate that up to 94% of nitrate in streamwater originated from sewage sources during baseflow conditions, although sewage-derived nitrate remained the dominant source during storms.
SOURCES AND DYNAMICS OF REACTIVE NITROGEN TO AN URBAN WATERSHED
Excess nitrate contributes to the overall degraded quality of streams in densely populated, human-engineered regions, compounding existing problems of pollution in urban landscapes. Urban watersheds
Antecedent rainfall and land use controlling the fate of nitrogen in karst urban rivers, elucidated by an isotopic approach
Influence of infrastructure on water quality and greenhouse gas dynamics in urban streams.
TLDR
Despite a decline in gas saturation between the headwaters and stream outlet, streams remained saturated with GHGs throughout the drainage network, suggesting that urban streams are continuous sources of CO2, CH4, and N2O.
Longitudinal patterns in carbon and nitrogen fluxes and stream metabolism along an urban watershed continuum
An urban watershed continuum framework hypothesizes that there are coupled changes in (1) carbon and nitrogen cycling, (2) groundwater-surface water interactions, and (3) ecosystem metabolism along
Watershed urban development controls on urban streamwater chemistry variability
Watershed urbanization increases the concentrations of major ions in downstream freshwater ecosystems. Non-point source ions from human activities and the chemical weathering of infrastructure are
Tracking nitrate and sulfate sources in groundwater of an urbanized valley using a multi-tracer approach combined with a Bayesian isotope mixing model.
Linking Nitrogen Export to Landscape Heterogeneity: The Role of Infrastructure and Storm Flows in a Mediterranean Urban System†
Urban ecosystems are often sources of nonpoint source (NPS) nitrogen (N) pollution to aquatic ecosystems. However, N export from urban watersheds is highly variable. Examples of densely urbanized
Exploring the potential for groundwater inundation in coastal US cities due to interactions between sewer infrastructure and global change
Urbanization, in particular, the culverting and burying of streams in sewer infrastructure, has affected both surface and subsurface flow regimes. While researchers have examined the impact of stream
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 40 REFERENCES
Loadings of non-agricultural nitrogen in urban groundwater
In the groundwater under Nottingham, nitrate concentrations are as high as they are in the surrounding rural groundwater. Fertilizer and agricultural practices are the main sources of rural nitrates,
Tracking nonpoint source nitrogen pollution in human-impacted watersheds.
TLDR
Overall, nonpoint sources such as atmospheric deposition, wastewater, and fertilizer showed different susceptibility to watershed N export, and anticipating source changes in response to climate and storms will be critical for managing nonpoint N pollution.
NITROGEN LOADING FROM COASTAL WATERSHEDS TO RECEIVING ESTUARIES: NEW METHOD AND APPLICATION
In this paper we develop a model to estimate nitrogen loading to watersheds and receiving waters, and then apply the model to gain insight about sources, losses, and transport of nitrogen in
Role of wetlands and developed land use on dissolved organic nitrogen concentrations and DON/TDN in northeastern U.S. rivers and streams
Previous studies have shown that watersheds with significant human development (i.e., urban and agricultural land use) generally have higher concentrations and fluxes of dissolved inorganic nitrogen
N Retention in Urbanizing Headwater Catchments
Urbanization can potentially alter watershed nitrogen (N) retention via combined changes in N loading, water runoff, and N processing potential. We examined N export and retention for two headwater
Estimation of sewer leakage to urban groundwater using depth‐specific hydrochemistry
The contribution of sewer leakage to urban groundwater recharge remains poorly characterised. There has been a tendency to focus on estimating leakage from pipe network characteristics rather than
Sedimented organic nitrogen isotopes in freshwater wetlands record long-term changes in watershed nitrogen source and land use.
  • E. Elliott, G. Brush
  • Environmental Science, Geography
    Environmental science & technology
  • 2006
TLDR
The results illustrate the importance of hydrologic connectivity in delivering waste-derived N in a watershed characterized by relatively low human population density and demonstrate how this approach can expand the temporal horizon over which the authors can assess human impacts to watershed N dynamics.
The Influence of Urban Density and Drainage Infrastructure on the Concentrations and Loads of Pollutants in Small Streams
Effective water quality management of streams in urbanized basins requires identification of the elements of urbanization that contribute most to pollutant concentrations and loads. Drainage
Nitrogen Fluxes and Retention in Urban Watershed Ecosystems
AbstractAlthough the watershed approach has long been used to study whole-ecosystem function, it has seldom been applied to study human-dominated systems, especially those dominated by urban and
Interaction between urbanization and climate variability amplifies watershed nitrate export in Maryland.
TLDR
The results suggest that urban land use change can increase the vulnerability of ecosystem nitrogen retention functions to climatic variability, and further work is necessary to characterize patterns of nitrate-N export and retention in small urbanizing watersheds under varying climatic conditions to improve future forecasting and watershed scale restoration efforts aimed at improving nitrates-N retention.
...
1
2
3
4
...