TCAPP and CTIP business plans

노트 : National Renewable Energy Laboratory interagency agreementProject title: Technology cooperation agreement pilot (TCAPP

TCAPP and CTIP FY00 workplan

노트 : National Renewable Energy Laboratory interagency agreementProject title: Technology cooperation agreement pilot (TCAPP

Fish Consumption and Mercury Exposure among Louisiana Recreational Anglers

Ba c k g r o u n d: Methylmercury (MeHg) exposure assessments among average fish consumers in the United States may underestimate exposures among U.S. subpopulations with high intakes of region-ally specific fish. obj e c t i v e s: We examined relationships among fish consumption, estimated mercury (Hg) intake, and measured Hg exposure within one such potentially highlyexposed group, recreational anglers in the state of Louisiana, USA. Me t h o d s: We surveyed 534 anglers in 2006 using interviews at boat launches and fishing tourna-ments combined with an Internet-based survey method. Hair samples from 402 of these anglers were collected and analyzed for total Hg. Questionnaires provided information on species-specific fish consumption during the 3 months before the survey. re s u l t s: Anglers’ median hairHg concentration was 0.81 μg/g (n = 398; range, 0.02–10.7 μg/g);40% of participants had levels >1 μg/g, which approximately corresponds to the U.S. Environmental Protection Agency’s reference dose. Fish consumption and Hg intake were significantly positively associated with hairHg. Participants reported consuming nearly 80 different fish types, many of which are specific to the region. Unlike the general U.S. population, which acquires most of its Hg from commercial seafood sources, approximately 64% of participants’ fish meals and 74% of their estimated Hg intake came from recreationally caught seafood. co n c l u s i o n s: Study participants had relatively elevated hairHg concentrations and reported con-sumption of a wide variety of fish, particularly locally caught fish. This group represents a highlyexposed subpopulation with an exposure profile that differs from fish consumers in other regions of the United States, suggesting a need for more regionallyspecific exposure estimates and public health advisories.ISSN:1552-9924ISSN:0091-676

A Personal Perspective on the Initial Federal Health-Based Regulation to Remove Lead from Gasoline

Objective: This article describes the personal experience and perspective of the authors, who had primary responsibility for drafting the initial health-based regulation limiting lead content of gasoline during the early 1970s while employed by the U.S. Environmental Protection Agency (EPA). Data s o u r c e: Information used by the U.S. EPA in developing the initial health-based regulation limiting lead content of gasoline in December 1973 and studies documenting the impact of that and subsequent actions. Data extraction: Among the lessons learned from this experience is the importance of having input from independent scientists to the regulatory decision-making process. This also demonstrates the critical role of independent peer-reviewed research, such as that supported by the National Institutes of Health, as well as research conducted by scientists from the Centers for Disease Control and Prevention, in delineating the consequences of lead exposure in the population. Data synthesis: Removal of lead from gasoline in the United States has been described as one of the great public health achievements of the 20th century, but it almost did not happen. The experience of the authors in developing this regulation may be helpful to others involved in developing health-based regulatory policy in the future. Co n c l u s i o n: The initial U.S. EPA health-based regulation to remove lead from gasoline is clearly an example where science successfully affected public policy. The leadership of the U.S. EPA at that time deserves much credit for establishing an atmosphere in which this was possible

Biodiesel Exhaust: The Need for Health Effects Research

BACKGROUND: Biodiesel is a diesel fuel alternative that has shown potential of becoming a commercially accepted part of the United States’ energy infrastructure. In November 2004, the signing of the Jobs Creation Bill HR 4520 marked an important turning point for the future production of biodiesel in the United States because it offers a federal excise tax credit. By the end of 2005, industry production was 75 million gallons, a 300% increase in 1 year. Current industry capacity, however, stands at just over 300 million gallons/year, and current expansion and new plant construction could double the industry’s capacity within a few years. Biodiesel exhaust emission has been extensively characterized under field and laboratory conditions, but there have been limited cytotoxicity and mutagenicity studies on the effects of biodiesel exhaust in biologic systems. OBJECTIVES: We reviewed pertinent medical literature and addressed recommendations on testing specific research needs in the field of biodiesel toxicity. DISCUSSION: Employment of biodiesel fuel is favorably viewed, and there are suggestions that its exhaust emissions are less likely to present any risk to human health relative to petroleum diesel emissions. CONCLUSION: The speculative nature of a reduction in health effects based on chemical composition of biodiesel exhaust needs to be followed up with investigations in biologic systems