MEDEX extension
Measurement and modeling the mercury depletion events in the arctic at the Ny-Alesund Site (MEDEX)
Founded by: US-Environmental Protection Agency - Washington DC, USA
Period: 2003 2004
Introduction
The toxicity of mercury and the fragility of polar environments is a combination of much concern. Current knowledge suggests that elemental mercury has an atmospheric residence time quite long enough for circumnavigating the globe before depositing. Recent mercury (Hg) measurements in the Arctic by Canadian and United States scientists showed the depletion of atmospheric elemental Hg concentrations with the simultaneous formation of a reactive form of Hg (RGM), which being involatile either rapidly deposits or condenses onto particulate matter already present . These events occurred from the onset of polar dawn (March) until early June in conjunction with tropospheric ozone depletion events in the Arctic springtime, pointing to a seasonal variation in mercury input to the Arctic ecosystem at the exact time that microorganisms begin to flourish thus starting the Hg bioaccumulation process. Hg depletion events could therefore be, the main source of Hg contamination in wildlife both locally (at the point of deposition) and regionally (as a result of transport by surface water). The exact mechanism of the transformation of elemental Hg to RGM is as yet undetermined, the known gas phase Hg oxidation reactions appear to be too slow to account for the observed changes, but may be similar to the photochemical pathways that deplete ozone in Polar Regions.Description
A number of different sampling techniques will be used to assess the level of mercury and its compounds in the Arctic air. Two monitoring stations are foreseen in the measurement strategy: the first, on Mount Zeppelin, 474m asl where it will be possible to continuously sample mercury species in the free troposphere above the boundary layer inversion, and the second station, near the sea on the coast of the fjord, in order to collect air samples in the lower troposphere on the sea / ice pack. Following this strategy, it will be possible to compare the results obtained contemporaneously at two sites in order to evaluate the influences of different chemical-physics variables on the mercury concentrations. The Hg compound and other species measurements are summarized and described below:- The gas phase (TGM and RGM) and aerosol concentrations of mercury;
- Oxidant species O3 and H2O2 that are responsible for the transformation of the elemental Hg to RGM, and free radicals (ie BrO, ClO that may be mercury oxidants;
- Complete suite of air pollutants including the oxides of nitrogen;
- meteorological data;
- Aerosol samples for subsequent scanning electron microscopy of individual particles, trace elements and organic species;
- During the field campaign snow and rain samples will be collected and stored in clean containers for subsequent analysis. Representative snow core samples will be taken using prescribed procedures for subsequent chemical characterization.
PARAMETERS | INSTRUMENTATION | SAMPLING TIME RESOLUTION |
Hg0 | Tekran Analyzer Mod. 2537A | 5 minutes |
RGM (automatic / manual) | KCl-Coated-Annular Denuders / Tekran 2537A-Tekran 1130 | 2-hours (automatic method) 6-hours (manual method) |
TPM | Mini Quartz Traps or / and 47mm Quartz fibber filter / CVAFS | |
PM2.5 | Teflon / quartz-filters (outlet-annular denuders) | 24-hour |
Major ions | Annular Denuders / Filter Pack / Sequential System | 12-24 hours |
IC Laboratory (Dionex 100 / Dionex 90) | Air and snow samples | Continuous |
O3 | API-Ozone Analyzer Mod.400A | 5 minutes |
Objectives
Partnership
- CNR - Institute of Environmental Pollution (CNR-IIA) - COORDINATOR
- United States Environmental Protection Agency (US-EPA)
Nicholas Pirrone
Project Coordinator
email: pirrone @@@ iia.cnr.it
Working group
Ivo Allegrini
Scientific Coordinator CNR IIA
Frances Sprovieri
CNR IIA staff
email: f.sprovieri @@@ iia.cnr.it
Franco Cofone
CNR IIA staff
Ian Hedgecock
CNR IIA staff
email: i.hedgecock @@@ iia.cnr.it
Matthew Landis
US-EPA Scientific Coordinator
Merylin Engle
US-EPA staff