AI Article Synopsis
- Direct deposition of nitrogen into coastal areas like Waquoit Bay is typically estimated due to a lack of field data, but this study provides a detailed analysis using recent literature.
- The study found that direct atmospheric deposition of nitrogen compounds (NH₃, NO₃⁻, HNO₃) contributes significantly to nitrogen loading in Waquoit Bay, accounting for 7-15.5 kg total N ha⁻¹ yr⁻¹, making up a large portion of nitrogen inputs from all sources.
- Despite occasional episodic events capable of delivering nitrogen quickly, the overall contribution is insufficient to trigger large phytoplankton blooms in these coastal ecosystems.
Article Abstract
Direct deposition of atmospheric nitrogen to shallow coastal embayments is usually estimated, since insufficient field measurements are available. Using Waquoit Bay (Cape Cod, MA. USA) as a case study, and a recent review of literature, we determined reasonable bounds on wet and dry inputs of inorganic and organic N. Since precipitation and wind vary daily, we explored the potential of episodic events to stimulate phytoplankton blooms. Many coastal waterbodies like Waquoit Bay are small relative to their watersheds. Nevertheless, direct deposition of NH(3), NO(3)(-), and HNO(3) is significant in the loading budget. For Waquoit Bay, direct deposition was calculated to be 7-15.5 kg total N ha(-1)yr(-1), representing 70-150% of the atmospheric N reported to reach the bay via the watershed, and 20-45% of the total N reaching the bay from all land-based sources. Episodic events were estimated to deliver up to 65 mg N m(-2)day(-1), representing a phytoplankton stock of 12.3 mg Chl m(-2), an amount unlikely to stimulate dense blooms in shallow coastal waters in the northeastern United States.
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| http://dx.doi.org/10.1016/j.marenvres.2004.06.001 | DOI Listing |
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