There is growing interest in applying delta N-15 in biota as an indicator of anthropogenic nutrient inputs to coastal environments because changes in delta N-15 correlate to inputs of land-based nutrients. In complex coastal receiving waters, however, land-use effects on biota delta N-15 may be masked by local hydrologic processes, especially exchange with coastal waters of different geochemical character. We examined delta N-15 differences among larval fish, a novel biotic indicator, in coastal receiving waters at both among and within watershed scales. Our goal was to characterize how hydrologic processes within coastal river mouths and embayments mediate the effect of land-based N sources on larval fish delta N-15. We sampled three Lake Superior river-embayment systems from watersheds that span a large population density gradient. Over all stations, mean fish delta N-15 ranged from 2.7 aEuro degrees to 10.8 aEuro degrees. Within each system, we found a different pattern in delta N-15 across the river-lake transition zone. Correlations between fish delta N-15 and water quality, particularly NH (4) (+) and total nitrogen, were highly significant and corresponded to known differences in sewage waste water inputs. A multivariate model that included both watershed-based population density and NH (4) (+) was found to provide the best fit to the delta N-15 data among a series of multi- and univariate candidate models. These results demonstrate that: (1) fish larvae delta N-15 responded at within watershed scales, and (2) within coastal receiving waters, fish larvae delta N-15 was related to waste water inputs at the watershed scale; however, expression at specific locations within a coastal system was strongly influenced by local hydrologic processes.

• 出版日期2012-11