Quantifying septic nitrogen loadings to receiving waters: Waquoit Bay,Massachusetts |
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| Authors: | CHI HO SHAM JOHN W. BRAWLEY MAX A. MORITZ |
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| Affiliation: | 1. The Cadmus Group Inc. , 135 Beaver Street, Waltham, Massachusetts, 02154, USA;2. Centre for Environmental and Estuarine Studies, University of Maryland at Solomons , Solomons, Maryland, 20688, USA;3. Department of Geography , University of California at Santa Barbara , SantaBarbara, California, 93106, USA |
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| Abstract: | Abstract Waquoit Bay, a shallow bay on Cape Cod, Massachusetts, is exhibiting symptoms of eutrophication, largely attributed to septic nitrogen inputs. This study assessed septic nitrogen inputs by linking a three-dimensional ground-water model, a geographic information system (GIS), and a customized spatio-temporal nitrogen loading program. Owing to the slow speed of ground-water movement, the bulk of septic nitrogen entering the bay lags behind development by nearly a decade. Even if residential development is held at 1989 levels, nitrogen input from septic systems wilt increase by 36% over the current levels. At full residential build-out (i.e., development), septic nitrogen loading will eventually increase to more than twice the current levels. |
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| Keywords: | Spatialization Distance Similarity Human subject testing |
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