Abstract
In September 2011 and March 2012, benthic nutrient fluxes were measured in the San Francisco Bay Delta, across a gradient from above the confluence of the Sacramento and San Joaquin Rivers to Suisun Bay. Dark and illuminated core incubation techniques were used to measure rates of denitrification, nutrient fluxes (phosphate, ammonium, nitrate), and oxygen fluxes. While benthic nutrient fluxes have been assessed at several sites in northern San Francisco Bay, such data across a Delta–Bay transect have not previously been determined. Average September rates of DIN (nitrate, nitrite, ammonium) flux were net positive across all sites, while March DIN flux indicated net uptake of DIN at some sites. Denitrification rates based on the N2/Ar ratio approach were between 0.6 and 1.0 mmol m−2 day−1, similar to other mesotrophic estuarine sediments. Coupled nitrification–denitrification was the dominant denitrification pathway in September, with higher overlying water nitrate concentrations in March resulting in denitrification driven by nitrate flux into the sediments. Estimated benthic microalgal productivity was variable and surprisingly high in Delta sediments and may represent a major source of labile carbon to this ecosystem. Variable N/P stoichiometry was observed in these sediments, with deviations from Redfield driven by processes such as denitrification, variable light/dark uptake of nutrients by microalgae, and adsorption of soluble reactive phosphorus.
Highlights
Management issues related to the San Francisco Bay Delta are complex
Fluxes of N were directed both into and out of the sediments and both direction and magnitude varied as a result of the multiple processes contributing to such fluxes, including denitrification, nitrification, assimilation by benthic microalgae, and dissimilatory reduction of NO3− to NH4+ (DNRA), as well as a broad range of organic matter loading to the different sediments tested
When compared to previous measured rates of denitrification worldwide compiled by Joye and Anderson (2008) using similar Membrane inlet mass spectrometry (MIMS) techniques, the rates measured are comparable to most other estuaries (Table 3)
Summary
Management issues related to the San Francisco Bay Delta are complex. Many management questions and actions are directly affected by the extent to which the factors contributing to food web changes can be identified and managed. While impacts of nutrients have long been ignored in this system compared to other stressors such as invasive bivalves (Alpine and Cloern 1992; Greene et al 2011), nutrients are gaining attention as important ecosystem stressors (Dugdale et al 2007; van Nieuwenhuyse 2007; Jassby 2008; Glibert 2010, 2012; Glibert et al 2011; Parker et al 2012). Without consideration of the role of nutrient sources and fluxes, the Estuaries and Coasts (2014) 37:1120–1133 potential success of restoration of habitat restoration for native species will likely remain unpredictable
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