CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March 20071 Experience in monitoring of airborne POPs, mercury and other metals in Russian Arctic. Perspectives.

Slides:



Advertisements
Similar presentations
Overview of Environmental Contamination in Lao PDR Dr. Kesiny Phomkeona Department of Chemistry Faculty of Science National University of Laos.
Advertisements

PERSISTENT ORGANIC POLLUTANTS (POPs) IN WASTEWATER TREATMENT PLANTS SAMPLED BY SEMIPERMEABLE MEMBRANE DEVICES (SPMDs) Per-Anders Bergqvist, *Lijana Augulytė,
LONG TERM SEMI-CONTINUOUS D/F MONITORING SYSTEMS GENE RILEY EMISSION MEASUREMENT CENTER.
Russian experience within the UNECE LRTAP Convention: Bridging policy with science for effective mitigation of transboundary air pollution Mrs. Kristina.
African Centre for Statistics United Nations Economic Commission for Africa Session 5: Statistics on Air emissions and air quality Workshop on Environment.
Mercury Monitoring The FDEP Laboratory Perspective Timothy W. Fitzpatrick (850)
Pre-CAS TECO, Incheon, Persistent Toxic Substances (PTS) in ambient air of Russian Arctic Alexey Konoplev Centre for Environmental Chemistry.
1 THE NATIONAL DIOXIN AIR MONITORING NETWORK MEASUREMENTS OF CDDs, CDFs AND COPLANAR PCBs AT 18 RURAL, 8 NATIONAL PARKS, AND 2 SUBURBAN AREAS OF THE UNITED.
Mercurial Politics: Global and Regional Interplay in Mercury Policymaking Noelle Eckley Selin Harvard University Department of Earth and Planetary Sciences.
Climate Change Science Program Climate Policy & Voluntary Programs Mercury & Water Quality Pesticides & Other POPs Local & Regional Air Quality Intercontinental.
Faculty of Natural and Mathematical Sciences University of Banja Luka, Bosnia and Herzegovina Report on quality assessment of learning and training courses.
· Are human activities responsible for the warming? Separating out the impact of human activity from natural climate variation is extremely difficult.
The Convention on Long-range Transboundary Air Pollution and Protocols Martin Williams Chairman of the Executive Body of the United Nations Economic Commission.
Intro to sampling Adapted from “Fundamentals of Environmental Sampling and Analysis” by Chunlong Zhang.
UNEP POPs Negotiations Background Mandate Status Report Relevance to Great Lakes.
The POP protocol in practice ……………………… André Peeters Weem Sankt Petersburg October 2009.
Industrial Air Quality Monitoring. Sampling Protocols Grab vs. Integrated Personal vs. Area.
Air-Surface Exchange of Persistent Substances by Michael McLachlan ITM, Stockholm University for the summer school The Advances.
1 MANAGEMENT OF POPs CONTAMINATED SITES IN VIETNAM Dr. Nguyen Anh Tuan Vietnam Environment Administration Ministry of Natural Resources and Environment.
ENVIRONMENTAL MONITORING OF DIOXIN LIKE COMPOUNDS IN THE UNITED STATES Commission for Environmental Cooperation of North America Fourth Workshop on Sources.
Alexey Gusev, Victor Shatalov, Olga Rozovskaya
1 Task Force on Hemispheric Transport on Air Pollution, Brussels, 1-3 June EMEP/MSC-E Overview on the Hemispheric Transport on POPs Sergey Dutchak EMEP/MSC-E.
The Tiksi Hydrometeorological Observatory Program International Collaboration for Climate Studies U.S. Science Contact:
Ultra-Trace PCB Sampling
AMAP - An international cooperation in far northern conditions Yuri Tsaturov - Roshydromet & Morten Sickel – Norwegian Radiation Protection.
Enantiomeric Excess of POPs in the Environment Hiramoto S 1, Tsurukawa M 2, Matsumura C 2, Nakano T 2, Kunugi M 3 1 Hyogo Environmental Advancement Association.
1 Saxony-Anhalt EU Twinning RO 04/IB/EN/09 State Environmental Protection Agency Wolfgang GarcheWorkshop European Standards Requirements of.
Bulgarian National Emission Inventory System Assoc. Prof. N.Miloshev – Geophysical Institute BAS St. Tzonev – National Statistical Institute E. Nikolova.
1 Relations between PM and persistent toxic substances Alexey Ryaboshapko, Meteorological Synthesizing Center “East” EG on Particulate Matter, Berlin,
Field Methods of Monitoring Atmospheric Systems Measurement of Air Pollution Copyright © 2009 by DBS.
Global Modeling of Mercury in the Atmosphere using the GEOS-CHEM model Noelle Eckley, Rokjin Park, Daniel Jacob 30 January 2004.
Ultra-trace Mercury Monitoring in Air. Company History Founded in 1989 to develop custom instrumentation for environmental analysis Founded in 1989 to.
The Tiksi Hydrometeorological Observatory Program Report after trip on September 2009 U.S. Science Contact:
Technical Comments on the Brochure and updates on EDC work AG on EDCs meeting 25-26th September 2015 Derek Muir Research Scientist, Environment Canada.
Intercontinental and Hemispheric Scale Transport and the LRTAP Convention Terry J. Keating, Ph.D. Office of Air and Radiation U.S. Environmental Protection.
1 Saxony-Anhalt EU Twinning RO 04/IB/EN/09 State Environmental Protection Agency Wolfgang GarcheBukarest National Reference Laboratory for Air.
Malé Declaration Joint Training on Regional Refresher Course and Soil Acidification Asian Institute of Technology (AIT), Bangkok, Thailand from
Challenges of Conducting Analytical Chemistry in Environmental Matrices May 8 th 2006 Meg Sedlak and Don Yee San Francisco Estuary Institute Oakland, California.
HRM Houston Regional Monitoring 1 Hazardous Air Pollutants Ambient Air Monitoring Data Review Air Toxics: What We Know, What We Don’t Know, and What We.
North American Sound Management of Chemicals Initiative Commission for Environmental Cooperation Ned Brooks, Chemicals Program Manager Commission for Environmental.
1 Modeling the Atmospheric Transport and Deposition of Mercury Dr. Mark Cohen NOAA Air Resources Laboratory Silver Spring, Maryland Mercury Workshop, Great.
North American Commission for Environmental Cooperation Sound Management of Chemicals (SMOC) and Environmental Monitoring & Assessment (EM&A) Presented.
High-resolution spectroscopy and light source technology laboratory Institute of Atomic Physics and Spectroscopy University of Latvia, Riga Presentation.
Proposal for estimation of surface water bodies background levels for selected metals Slovak Republic.
Hemispheric transport – Why is EMEP interested? Peringe Grennfelt, Jurgen Schneider.
Air Quality and Seney National Wildlife Refuge Jill Webster June 14, 2007.
EMEP/WGE Bureaux, March 2015 MSC-E work plan, 2015 TaskItem Calculations of HMs/POPs for b Testing of HM/POP models in the new EMEP grid1.3.4.
UNEP Global Partnership on Mercury Air Transport and Fate Research - Canadian Contribution - Grace Howland Environment Canada, Chemicals Management Division.
California Ambient Dioxin Air Monitoring Program (CADAMP) Kathy Gill Air Resources Board Monitoring and Laboratory Division California Environmental Protection.
Preliminary Analysis by: Fawn Hornsby 1, Charles Rogers 2, & Sarah Thornton 3 1,3 North Carolina State University 2 University of Texas at El Paso Client:
7. Air Quality Modeling Laboratory: individual processes Field: system observations Numerical Models: Enable description of complex, interacting, often.
M O N T E N E G R O Negotiating Team for the Accession of Montenegro to the European Union Working Group for Chapter 27 – Environment and Climate Change.
ICP Waters International Cooperative Programme Assessment and Monitoring Effects of Air Pollution on Rivers and Lakes Item 4 Recent results and updating.
Overview of EPA Method 1631, Revision E By Roy W
Technical Comments on the Brochure and updates on EDC work
Air Transport and Fate Research Partnership Meeting,
Overview on the Hemispheric Transport on POPs
Environmental sampling and monitoring
Overview of environmental monitoring at EU and regional level
POPs and HMs Summary , EMEP TFMM.
John Munthe and Ingvar Wängberg
10th TFMM meeting, June, 2009, France, Paris
Aroclors, Homologs and Congeners – An Evaluation of the Options for PCB Analysis and a Comparison of the Interpretive Value Charles Neslund, Scientific.
MSC-E contribution concerning heavy metals
Progress and problems of POP modelling
Future activities in POP modelling
Summary: TFMM trends analysis
Co-operation with TF on Hemispheric Transport of Air Pollution
Integration of the work between EMEP and WGE
Presentation transcript:

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Experience in monitoring of airborne POPs, mercury and other metals in Russian Arctic. Perspectives for Research Program at Tiksi Observatory Alexey Konoplev Centre for Environmental Chemistry (CEC) SPA “Typhoon”, Obninsk, Russia,

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March  Identification and quantitative analysis of PTS;  Monitoring of PTS in the environment and biota;  Mechanisms of migration and transformation of PTS in the environment and process- level modeling PRINCIPAL ACTIVITIES OF THE CEC SPA “TYPHOON”

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March ANALYTICAL METHODS  For Organic Contaminants: Capillary Gas Chromatography (CGC) and Gas Chromatography/Mass- spectrometry (GC/MS)  For Heavy Metals: Atomic Absorption Spectrometry (AAS) using both flame and Zeeman graphite-furnace AA  The Center has specially equipped rooms for sample storage, sample preparation, sample extraction and instrumental analysis

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March POPs and Hg air monitoring at Russian Arctic sites  Amderma: - POPs – ; - Hg – 2001 – 2007  Dunay: - POPs – 1993 – 1994  Val’karkay (Chukchi): - POPs –

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March MONITORING OF AIRBORN POPs IN RUSSIAN ARCTIC

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Relevant previous and ongoing programs  In Canada POPs monitoring has been operating at Alert since 1992;  In USA – Point Barrow;  In Norway - Ny Alesund;

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Objectives of POPs air monitoring  To measure the concentrations of selected POPs in the atmosphere of Russian Arctic  This provides the opportunity to make comparative analysis of POPs in the ambient air for different areas of the Arctic and the basis for modelling of their environmental transport  The data allow to assess the efficacy of international Conventions such as Stockholm Convention on POPs and Convention on transboundary air pollution

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March The list of determined compounds includes 154 individual substances:  46 OCP and their metabolites (chlorobenzenes, DDT, mirex, Toxaphenes, aldrin, dieldrin, endrin, heptachlor, chlordane etc.);  88 PCB congeners;  20 PAH.

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Methods and materials The same protocols of sampling and analyses are used as for Arctic Air Toxics Network in CANADA and AMAP

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Methods and materials Weekly samples are collected by means of a high volume sampler with a size- selective inlet for particles and a collection cartridge consisting of a glass fibre filter (particles < 10  m) followed by two polyurethane foam (PUF) sorbent plugs (organic vapours). Samples are shipped to the laboratory and extracted with hexane (PUFs) or dichloromethane (filters). Approximately one-half of the extract is used for clean- up and analysis by GC-MS.

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Air POPs monitoring: Summary  In general atmospheric concentrations of most OCP at Amderma are similar to other Arctic sites  Levels of PAH at Amderma are consistent with levels from Dunai where annual average levels were greater than at Canadian Arctic sites  Concentrations of a number POPs especially PCBs and PAH at Val’karkay (Chukchi) are elevated as compare to Amderma and Dunay

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Air POPs monitoring: Summary  Atmospheric PCB contamination in Amderma during summer was rather due to evaporation from underlying surface than due to their long-range transport  In winter, contribution of long-range transport was sufficiently high and apparently determined the atmospheric PCB concentrations in Amderma  Temporally all of the data for Arctic sites are not being collected concurrently making comparison of absolute levels difficult as these are affected by multiple factors including the important influence of meteorology that is highly variable

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Objectives of Hg air monitoring  To establish monitoring station for Atmospheric Mercury Measurements in Russian Arctic  To obtain data on time dependency of gaseous elemental mercury (GEM) for Russian site and to compare with data sets for other Arctic stations

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Sites of monitoring stations at Amderma

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Instrument: TEKRAN 2537A Mercury Vapor Analyzer Training in Obninsk Training in Amderma

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Regular visits to the site

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Time dependency of mercury concentration at Amderma,

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Hg monitoring at Amderma - Main Conclusions  Gaseous elemental mercury at Amderma varies mainly within range from 1.5 to 2 ng/m 3 which corresponds to the levels for North American sites and global background level for Northern Hemisphere;  After polar sunrise (end of March - Start of June) mercury depletion event occurs - Hg concentration becomes very variable (from 0 to 2 ng/m 3 );  Maximum Hg concentration (2-2.5 ng/m 3 ) occurs at Summer time (June-July)

Perspectives for Research Program at Tiksi Observatory

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Scientific Objectives  To provide quantitative data describing the levels of persistent toxic substances (PTS) in the Arctic atmosphere at Tiksi;  To assess the rate of deposition of these contaminants to Arctic environments;  To estimate source regions for detected contaminants

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Sampling equipment  In order results of analyses of PTS at Tiksi and other Arctic stations (Alerty, Barrow, Ny Alesund) are comparable, it is recommended that one type sampling equipment.  The sampling equipment should include a system of air sampling for POPs analysis on PUFs and fiber filters and mercury analyzer Tekran 2537A.  It is proposed that mounting and testing of equipment be performed by specialists of the SPA «Typhoon».

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Air sampling at Tiksi  Sampling and maintenance of samplers will be the responsibility of local operators at Tiksi.  Training of personnel should be organized by specialists of SPA «Typhoon».  The state of the station and operations should be controlled by specialists of SPA «Typhoon» at least once a quarter.  Air sampling for POPs and analysis is planned to be performed continuously, with replacement of concentration filters once a week.  Analysis of mercury vapor in the air will be done on one-hour basis.  Exposed filters used for POPs analysis and computer data on mercury vapor content are to be delivered to the CEC SPA «Typhoon» for processing and analysis once a quarter.

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March Analysis for POPs  Samples to be collected at Tiksi station will be analyzed in the CEC of SPA «Typhoon».  Analysis for POPs will be performed by GC/MS and capillary high-resolution gas chromatography.  All analytical methods will be similar to the US EPA techniques. QA/QC will be provided according to developed program.

CEC SPA "Typhoon"Tiksi Meeting, Boulder, 7 March THANK YOU VERY MUCH FOR YOUR ATTENTION!!!