National Status and Trends: Bioeffects Program - Magnitude and Extent of Sediment Toxicity in Four Bays of the Florida Panhandle: Pensacola, Choctawhatchee, St. Andrew and Apalachicola
APB_metadata
eng
Dataset
biota
environment
oceans
Environmental Monitoring
Microtox
Mutatox
NCCOS Research Data Type > Field Observation
NCCOS Research Priority > Long-term Monitoring
NCCOS Research Priority > Stressors, Impacts, Mitigation, and Restoration (SIMR)
NCCOS Research Topic > Bioeffects/Toxicity
NCCOS Research Topic > Chemical Contaminants
NCCOS Research Topic > Monitoring
PAH
PCB
Site
amphipod
analytes
bioassay
butyltins
chemical
contaminants
date
estuary
inorganic
latitude
location
longitude
national status and trends
nsandt
organic
organochlorines
parameter
pesticides
polychlorinated biphenyls
polynuclear aromatic hydrocarbons
region
sediment
state
station
toxicity
Apalachicola Bay
Choctawhatchee Bay
Gulf Coast
NCCOS Research Location > Geographic Area > Coastal Ocean
NCCOS Research Location > Region > Gulf of Mexico
NCCOS Research Location > U.S. States and Territories > Florida
Pensacola Bay
St. Andrew Bay
The toxicity of sediments in Pensacola, Choctawhatchee, St. Andrew and Apalachicola Bays was determined as part of bioeffects assessments performed by NOAA's National Status and Trends Program. The objectives of the survey were to determine: (1) the spatial patterns in toxicity throughout each bay, (2) the spatial extent of toxicity throughout and among the bays, (3) the severity or degree of toxicity, and (4) the relationships between chemical contamination and toxicity. The survey was conducted over two years: Pensacola Bay and St. Andrew Bay were sampled in 1993; and Choctawhatchee Bay, Apalachicola Bay and Bayou Chico (a sub-basin of Pensacola Bay) were sampled during 1994. Surficial sediment samples were collected from 123 randomly-chosen locations throughout the five areas. Multiple toxicity tests were conducted on all samples, and chemical analyses were performed on 102 of the 123 samples. Toxicological tests were conducted to determine survival, reproductive success, morphological development, metabolic activity, and genotoxicity; all bays showed toxicity in at least some of the samples. Toxicity was most severe in Bayou Chico, an industrialized basin adjoining Pensacola Bay. Other developed bayous adjoining Pensacola Bay and the other bays also showed relatively severe toxicity. The main basins of the bays generally showed lower toxicity than the adjoining bayous. The different toxicity tests, however, indicated differences in severity, incidence, spatial patterns, and spatial extent in toxicity. The most sensitive test, a bioassay of metabolic activity of bioluminescent bacteria, indicated toxicity was pervasive throughout the entire study area. The least sensitive test, an acute bioassay performed with a benthic amphipod, indicated toxicity was restricted to a very small portion of the area. Causes of toxicity were not determined in the survey. However, mixtures of potentially toxic substances, including pesticides, petroleum constituents, trace metals, and ammonia, were associated statistically with the measures of toxicity. The concentrations of many substances were highest in Bayou Chico, where the most severe toxicity was observed. At these toxic sites, some of the substances had considerably elevated concentrations, often exceeding numerical guidelines or known toxicity thresholds. The relationships between toxicity and chemical concentrations differed among the bays and toxicity tests.
National Centers for Coastal Ocean Science
National Centers for Coastal Ocean Science
https://www.fisheries.noaa.gov/inport/item/38733
https://www.fisheries.noaa.gov/inport/item/37215
northlimit=30.47383;
eastlimit=-84.89967;
southlimit=29.6135;
westlimit=-86.59117;
start=1993;
end=1994;
None
2007-10