Your search keyword '"Drazen JC"' showing total 2 results

1. Carbon, Nitrogen, and Mercury Isotope Evidence for the Biogeochemical History of Mercury in Hawaiian Marine Bottomfish.

Author

Sackett DK, Drazen JC, Popp BN, Choy CA, Blum JD, and Johnson MW

Subjects

Animals, Food Chain, Hawaii, Mercury, Methylmercury Compounds, Mosquito Vectors, Carbon, Environmental Monitoring, Fishes, Mercury Isotopes, Nitrogen, Water Pollutants, Chemical

Abstract

The complex biogeochemical cycle of Hg makes identifying primary sources of fish tissue Hg problematic. To identify sources and provide insight into this cycle, we combined carbon (δ 13 C), nitrogen amino acid (δ 15 N Phe ), and Hg isotope (Δ 199 Hg, Δ 201 Hg, δ 202 Hg) data for six species of Hawaiian marine bottomfish. Results from these isotopic systems identified individuals within species that likely fed from separate food webs. Terrestrial freshwater inputs to coastal sediments were identified as the primary source of tissue Hg in the jack species, Caranx ignobilis, which inhabit shallow marine ecosystems. Thus, coastal C. ignobilis were a biological vector transporting Hg from freshwater environments into marine ecosystems. Depth profiles of Hg isotopic compositions for bottomfish (excludung C. ignobilis) were similar, but not identical, to profiles for open-ocean pelagic fishes, suggesting that in both settings inorganic Hg, which was ultimately transformed to monomethylmercury (MeHg) and bioaccumulated, was dominantly from a single source. However, differences between pelagic fish and bottomfish profiles were attributable to mass-dependent fractionation in the benthos prior to incorporation into the food web. Results also confirmed that bottomfish relied, at least in part, on a benthic food web and identified the incorporation of deeper water oceanic MeHg sources into deeper water sediments prior to food web uptake and transfer.

Published

2017

2. Mercury sources and trophic ecology for Hawaiian bottomfish.

Author

Sackett DK, Drazen JC, Choy CA, Popp B, and Pitz GL

Subjects

Animals, Carbon Isotopes analysis, Food Chain, Hawaii, Islands, Least-Squares Analysis, Nitrogen Isotopes analysis, Water Pollutants, Chemical analysis, Ecosystem, Environmental Monitoring, Fishes metabolism, Mercury analysis

Abstract

In Hawaii, some of the most important commercial and recreational fishes comprise an assemblage of lutjanids and carangids called bottomfish. Despite their importance, we know little about their trophic ecology or where the mercury (Hg) that ultimately resides in their tissue originates. Here we investigated these topics, by analyzing muscle samples for mercury content, nitrogen, carbon, and amino acid specific nitrogen isotope ratios in six species distributed across different depths from the Northwestern Hawaiian Islands (NWHI) and the Main Hawaiian Islands (MHI). Fishes had different sources of nitrogen and carbon, with isotopic values suggesting benthic food sources for shallow nearshore species. High trophic position lutjanids that foraged in deeper water, benthic environments generally had higher Hg levels. Model results also suggested that benthic Hg methylation was an important source of Hg for shallow benthic feeders, while deepwater sources of mercury may be important for those with a diet that derives, at least in part, from the pelagic environment. Further, despite the lack of freshwater sources of Hg in the NWHI, statistical models explaining the variation in tissue Hg in the MHI and NWHI were nearly identical, suggesting freshwater Hg inputs were not a major source of Hg in fish tissue.

Published

2015