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Co-ordinated research project on health impacts of mercury cycling in contaminated environments studied by nuclear techniques. Report on the first research co-ordination meeting

Abstract

The specific research objective of this coordinated research project is to study and assess the factors influencing the dynamics of Hg cycling and its impact on human health in mercury contaminated ecosystems, especially in tropical environments, using radioisotopes and enriched stable isotope tracers and/or complementary analytical techniques. Areas of research include: Evaluation of the relevant environmental factors influencing mercury transformations, transportation (mass balances), and partitioning in ecosystems; Development, validation and application of appropriate methodologies for the measurement of Hg methylation and de-methylation rates in various environmental compartments; Development, validation and application of appropriate methodologies for the measurement of Hg fluxes at natural interfaces such as sediment-water, water-air, land-air, plant-air, and saline-water-fresh-water, etc.; Determination and evaluation of the human exposure to Hg using bio-indicators such as hair, blood, and urine in light of epidemiological requirements; Preparation of an appropriate test sample of tropical sediment for comparability studies. Expected research outputs are: Recommended approaches for the determination of mercury methylation and de-methylation rates and flux measurements; A compilation of reliable data on mercury methylation and de-methylation rates and fluxes in contaminated tropical ecosystems for comparison with existing data from temperate regions; Generated knowledge on factors influencing mercury transformations, transport and partitioning in  More>>
Authors:
"NONE"
Publication Date:
Jul 01, 2001
Product Type:
Technical Report
Report Number:
NAHRES-61
Reference Number:
EDB-01:099076
Resource Relation:
Conference: 1. research co-ordination meeting on co-ordinated research project on health impacts of mercury cycling in contaminated environments studied by nuclear techniques, Ljubljana (Slovenia), 29 Nov - 3 Dec 1999; Other Information: Refs, figs, tabs; PBD: 2001
Subject:
54 ENVIRONMENTAL SCIENCES; 63 RADIATION, THERMAL, AND OTHER ENVIRONMENTAL POLLUTANT EFFECTS ON LIVING ORGANISMS AND BIOLOGICAL MATERIALS; ECOLOGICAL CONCENTRATION; ENVIRONMENTAL EXPOSURE; ENVIRONMENTAL QUALITY; HEALTH HAZARDS; ISOTOPE APPLICATIONS; LEADING ABSTRACT; MERCURY; MINERAL CYCLING; PUBLIC HEALTH; RADIOCHEMICAL ANALYSIS; MEETINGS
OSTI ID:
20202763
Research Organizations:
International Atomic Energy Agency, Section of Nutritional and Health-Related Environmental Studies, Vienna (Austria)
Country of Origin:
IAEA
Language:
English
Other Identifying Numbers:
TRN: XA0102842053327
Availability:
Available from INIS in electronic form
Submitting Site:
INIS
Size:
164 pages
Announcement Date:

Citation Formats

Co-ordinated research project on health impacts of mercury cycling in contaminated environments studied by nuclear techniques. Report on the first research co-ordination meeting. IAEA: N. p., 2001. Web.
Co-ordinated research project on health impacts of mercury cycling in contaminated environments studied by nuclear techniques. Report on the first research co-ordination meeting. IAEA.
2001. "Co-ordinated research project on health impacts of mercury cycling in contaminated environments studied by nuclear techniques. Report on the first research co-ordination meeting." IAEA.
@misc{etde_20202763,
title = {Co-ordinated research project on health impacts of mercury cycling in contaminated environments studied by nuclear techniques. Report on the first research co-ordination meeting}
abstractNote = {The specific research objective of this coordinated research project is to study and assess the factors influencing the dynamics of Hg cycling and its impact on human health in mercury contaminated ecosystems, especially in tropical environments, using radioisotopes and enriched stable isotope tracers and/or complementary analytical techniques. Areas of research include: Evaluation of the relevant environmental factors influencing mercury transformations, transportation (mass balances), and partitioning in ecosystems; Development, validation and application of appropriate methodologies for the measurement of Hg methylation and de-methylation rates in various environmental compartments; Development, validation and application of appropriate methodologies for the measurement of Hg fluxes at natural interfaces such as sediment-water, water-air, land-air, plant-air, and saline-water-fresh-water, etc.; Determination and evaluation of the human exposure to Hg using bio-indicators such as hair, blood, and urine in light of epidemiological requirements; Preparation of an appropriate test sample of tropical sediment for comparability studies. Expected research outputs are: Recommended approaches for the determination of mercury methylation and de-methylation rates and flux measurements; A compilation of reliable data on mercury methylation and de-methylation rates and fluxes in contaminated tropical ecosystems for comparison with existing data from temperate regions; Generated knowledge on factors influencing mercury transformations, transport and partitioning in various ecosystems; Test sample of tropical sediment for comparability studies; Database of bio-indicator measurements (hair, blood, and urine, etc.) of human Hg exposure in contaminated tropical ecosystems; and Recommended countermeasures for the prevention and/or reduction of mercury contamination in polluted areas.}
place = {IAEA}
year = {2001}
month = {Jul}
}