You are here:
Relationships between Concentrations of Phytoplankton Chlorophyll a and Total Nitrogen in Ten U.S. Estuaries
Dettmann, E. Relationships between Concentrations of Phytoplankton Chlorophyll a and Total Nitrogen in Ten U.S. Estuaries. Presented at Coastal and Estuarine Research Federation (CERF) 22nd Biennial Conference, San Diego, CA, November 03 - 07, 2013.
The purpose of this poster presentation is to describe results of an analysis of relationships between phytoplankton abundance and nitrogen concentrations in estuaries. This analysis is designed to inform research being conducted by the ORD Safe and Sustainable Water Resources Research Program’s (SSWR) Project 2.3.A (Optimized Solutions for Sustainable Nutrient Management) and (SSWR) Project 6.1 (Narragansett Bay and Watershed Sustainability–Demonstration Project). The results of this research are relevant to classification of estuaries according to their response to nutrient loading, and to development of nutrient criteria for estuaries and other coastal waters. The purpose of the Optimized Solutions for Sustainable Nutrient Management Project is to develop methods to sustainably manage nutrients in estuaries of the northeastern United States. The purpose of the Narragansett Bay and Watershed Sustainability–Demonstration Project is to develop and demonstrate an ecosystem-based management approach that will help achieve more integrated and effective management of nutrients in Southern New England.
This presentation focuses on the summertime response of phytoplankton chlorophyll to nitrogen concentrations in the upper water columns of ten U.S. estuaries. Using publicly available data from monitoring programs, regression relationships have been developed between summer surface concentrations of phytoplankton chlorophyll a and total (inorganic + organic) nitrogen (TN) for four estuarine embayments and six riverine estuaries on the U.S. Atlantic and Gulf of Mexico coasts. All systems show spatial gradients in chlorophyll a and nitrogen concentrations, and regressions over all stations within each estuary reveal substantial year-to-year variability in relationships between summer chlorophyll a and TN. Averaging data by station over several summers gives a measure of the mean response of chlorophyll a to TN for individual estuaries over an extended period, and facilitates comparisons among estuaries. Relationships found in this study fall into two classes. Relationships between chlorophyll a and TN for the four estuarine embayments are similar, with differences explained by concentrations of total suspended solids (TSS), used as a proxy for water clarity. Relationships between chlorophyll a and TN concentrations for the six riverine estuaries are weaker and more system-specific than for estuarine embayments. Unlike the estuarine embayments, these riverine systems exhibit substantial spatial gradients in TSS. When chlorophyll a – TN relationships are derived for spatial zones having relatively constant TSS, these relationships strengthen, with differences among most riverine estuaries explained by water clarity, as is the case for estuarine embayments. Included will be discussion of: 1) year-to-year variability in chlorophyll a–TN relationships, 2) similarities in long-term chlorophyll a–TN relationships among estuaries, and 3) implications of these results for classification of estuaries.
Record Details:Record Type: DOCUMENT (PRESENTATION/POSTER)
Organization:U.S. ENVIRONMENTAL PROTECTION AGENCY
OFFICE OF RESEARCH AND DEVELOPMENT
NATIONAL HEALTH AND ENVIRONMENTAL EFFECTS RESEARCH LABORATORY
ATLANTIC ECOLOGY DIVISION
WATERSHED DIAGNOSTICS BRANCH