Mercury Concentrations and Mercury Methylation Along the Freshwater to Marine Continuum

Mercury (Hg) is a neurotoxin that can have detrimental impacts on the human nervous system and on brain development in infants. Methylmercury (MeHg) is the most toxic form of Hg and can concentrate to potentially harmful levels in higher levels of marine food webs. Production of MeHg in oxic water c...

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Bibliographic Details
Main Author: Starr, Lindsay D.
Format: Text
Language:unknown
Published: CORE Scholar 2022
Subjects:
Department of Earth and Environmental Sciences
Environmental Science
mercury
methylmercury
marine food webs
freshwater Hg
marine Hg
Hg water column distribution
speciation
methylation
nitrification
Lake Erie
Tropical North Atlantic Ocean
Central Pacific Ocean
Environmental Sciences
Physical Sciences and Mathematics
Detroit
Pacific
Western Basin
Western Lake
North Atlantic
Online Access:https://corescholar.libraries.wright.edu/etd_all/2603
https://corescholar.libraries.wright.edu/cgi/viewcontent.cgi?article=3744&context=etd_all
Description
Summary:Mercury (Hg) is a neurotoxin that can have detrimental impacts on the human nervous system and on brain development in infants. Methylmercury (MeHg) is the most toxic form of Hg and can concentrate to potentially harmful levels in higher levels of marine food webs. Production of MeHg in oxic water columns is poorly understood due to lack of knowledge of the mechanisms of formation and distribution. Recent work has reported widespread, putative Hg methylation genes in nitrite oxidizers, but any relationship with nitrifiers is unknown. This work focuses on Hg water column distribution, speciation, and methylation. The aims of this dissertation are to quantify: (1) rates and distribution of HgT and MeHg in the western basin of Lake Erie; (2) Hg methylation and nitrification rates in the Tropical North Atlantic Ocean; and (3) Hg species distribution in the Central Pacific Ocean. In Lake Erie, a Laurentian Great Lake, the mean fraction of total Hg as MeHg in water column measurements from lake areas near three Lake Erie river inputs (summers of 2018, 2019, and 2021) were comparable (~5%), suggesting similar biogeochemical cycling for rivers feeding Lake Erie. Estimated river fluxes of MeHg were an order of magnitude greater than in situ production, and greater from the Detroit River (9.5 kg yr–1) than from either the Maumee River (0.78 kg yr–1) or Sandusky iii Bay (0.03 kg yr–1), as expected since the Detroit River accounts for about 95% of total water discharge into Lake Erie. These results suggest that the Detroit River is a major source of MeHg from the upper Great Lakes basin to western Lake Erie. Overall, Hg concentrations and fluxes observed in this study were up to orders of magnitude less than those reported in previous decades, which may be a positive result of the Ohio Clean Air and Water Act of 2004. In a marine system, potential Hg methylation and nitrification rates were measured in Western Tropical North Atlantic Ocean surface waters (June and July 2019), within and near the Amazon River plume. The Hg ...

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