Last data update: Sep 23, 2024. (Total: 47723 publications since 2009)
Records 1-4 (of 4 Records) |
Query Trace: Suárez-Soto RJ [original query] |
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Tracking hurricane-related deaths in the contiguous United States using media reports from 2012 to 2020
Williams S , Jiva S , Hanchey A , Suárez-Soto RJ , Bayleyegn T , Schnall AH . Disaster Med Public Health Prep 2022 17 1-6 Heavy rainfall, storm surges, and tornadoes are hazards associated with hurricanes that can cause property damages and loss of life. Disaster-related mortality surveillance encounters challenges, such as timely reporting of mortality data. This review demonstrates how tracking hurricane-related deaths using online media reports (eg, news media articles, press releases, social media posts) can enhance mortality surveillance during a response. The Centers for Disease Control and Prevention used online media reports from 2012 to 2020 to characterize hurricane-related deaths from 10 hurricanes that were declared major disasters and the flooding related to Hurricane Joaquin in the contiguous United States. Media reports showed that drowning (n = 139), blunt force trauma (n = 89), and carbon monoxide poisoning (n = 58) were the primary causes of death. Online media and social media reports are not official records. However, media mortality surveillance is useful for hurricane responses to target messaging and current incident decision-making. |
Risks from mercury in anadromous fish collected from Penobscot River, Maine
Melnyk LJ , Lin J , Kusnierz DH , Pugh K , Durant JT , Suarez-Soto RJ , Venkatapathy R , Sundaravadivelu D , Morris A , Lazorchak JM , Perlman G , Stover MA . Sci Total Environ 2021 781 146691 Levels of total mercury were measured in tissue of six species of migratory fish (alewife, American shad, blueback herring, rainbow smelt, striped bass, and sea lamprey), and in roe of American shad for two consecutive years collected from the Penobscot River or its estuary. The resultant mercury levels were compared to reference doses as established in the U.S. Environmental Protection Agency (EPA) Integrated Risk Information System and wildlife values. Mercury concentrations ranged from 4 μg/kg ww in roe to 1040 μg/kg ww in sea lamprey. Sea lamprey contained the highest amounts of mercury for both seasons of sampling. Current health advisories are set at sufficient levels to protect fishers from harmful consumption of the fish for mercury alone, except for sea lamprey. Based upon published wildlife values for mink, otter, and eagle, consumption of rainbow smelt, striped bass, or sea lamprey poses a risk to mink; striped bass and sea lamprey to otter; and sea lamprey to eagle. For future consideration, the resultant data may serve as a reference point for both human health and wildlife risk assessments for the consumption of anadromous fish. U.S. EPA works with federally recognized Tribes across the nation greatly impacted by restrictions on sustenance fishing, to develop culturally sensitive risk assessments. |
"Complexities in hindcasting models - when should we say enough is enough,"
Maslia ML , Aral MM , Faye RE , Grayman WM , Suarez-Soto RJ , Sautner JB , Anderson BA , Bove FJ , Ruckart PZ , Moore SM . Ground Water 2011 50 (1) 10-6; discussion 16-8 In a recent article, TP Clement (2010, hereafter referred to as TPC) discusses the complexities and limitations of "hindcasting" models and criticizes the use of complex models when undertaking investigations of subsurface reactive transport processes. TPC implies that complex numerical models that stimulate reactive transport processes in groundwater are likely if not always an inappropriate tool to apply to "hindcasting" investiagtions and that scientists and engineers who implement these investiagtions using such models are somehow not aware of teh technical and scientific complexities and limitations of such methods and approaches. To illustrate his point of view, TPC uses a case study of an ongoing health study of exposure to volatile organic compounds (VOCs) in drinking water at US Marine Corps Base Camp Lejeune, North Carolina (hereafter referred to as the case-control health study at Camp Lejeune). The article presents some thought-provoking points-of-view. However, we believe there is a lack of detail on several key issues that require specificity and clarification, particularly with respect to modleing approaches and methods, the physics of containment occurrence and reactive transport in teh subsurface, and agency policies for the review and dissemination of data and reports. |
Reconstructing historical exposures to volatile organic compound-contaminated drinking water at a U.S. military base
Maslia ML , Aral MM , Faye RE , Suarez-Soto RJ , Sautner JB , Wang J , Jang W , Bove FJ , Ruckart PZ . Water Qual Expo Health 2009 1 (1) 49-68 Two of three water-distribution systems that have historically supplied drinking water to family housing at U.S. Marine Corps Base Camp Lejeune, North Carolina, were contaminated with volatile organic compounds (VOCs). Scientific data relating to the harmful effects of VOCs on a child or fetus are limited. Therefore, the U.S. Agency for Toxic Substances and Disease Registry (ATSDR) is conducting an epidemiological study to evaluate potential associations between in utero and infant (up to 1 year of age) exposures to VOCs in contaminated drinking water at Camp Lejeune and specific birth defects and childhood cancers. The study includes births that occurred during the period 1968-1985 to women who were pregnant while they resided in family housing at Camp Lejeune. To support the epidemiological study, water-modeling techniques are being used to reconstruct historical conditions of groundwater flow, contaminant fate and transport, and the distribution of drinking water contaminated with VOCs. Results for this phase of the study indicate that PCE concentrations in drinking water, delivered to the Tarawa Terrace housing area, exceeded the current maximum contaminant level for PCE of 5 micrograms per liter (µg/L) for 346 months-November 1957-February 1987; the maximum simulated PCE concentration in Tarawa Terrace drinking water was 183 µg/L during March 1984 compared to a measured concentration of 215 µg/L during February 1985. |
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