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Trinidad Head - AGAGE
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| Category |
Air sampling observation |
| Sampling Type |
continuous |
| Sampling Height/Depth |
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| Sampling and Analysis Frequency |
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| Sampling Environment |
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| Measurement Method |
Gas Chromatography (MS) |
| Current status and history of Instruments |
Automated gas chromatograph-mass spectrometer with an adsorption-desorption system (ADS GC-MS)
Mace Head, Ireland (started in October 1994)
Cape Grim, Tasmania (started in January 1998)
MEDUSA Gas Chromatography with Mass Spectrometry (Medusa GC-MS)
Medusa GC-MS instrument has been deployed (from November 2003 to June 2006) at all (five) AGAGE stations and at the Scripps Institution of Oceanography (SIO) calibration laboratory. |
| Description of Instruments |
http://agage.eas.gatech.edu/instruments-overview.htm
http://agage.eas.gatech.edu/instruments-gcms-medusa.htm |
| Time Zone |
UTC |
| Data Period |
2005-03-18 - 2009-03-31 |
| Data Type |
event, monthly |
| Parameter detail |
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| Other Descriptions for Sampling and Analyses |
http://agage.eas.gatech.edu/index.htm |
| Scientific Aim |
Mission
The scientific objectives of the ALE/GAGE/AGAGE programs are several in number and of considerable importance in furthering our understanding of a number of important global chemical and climatic phenomena. They are:
1. To optimally determine from observations, the rate of emission and/or chemical destruction (i.e. lifetime) of the anthropogenic chemicals (e.g. chlorocarbons, chlorofluorocarbons (CFCs), and bromocarbons) that contribute most of the reactive chlorine and bromine released into the stratosphere and/or are strong infrared absorbers.
2. To accurately document the global distributions and temporal behavior of the biogenic/anthropogenic gases N2O, CH4, CO, H2, CH3Cl, CH3Br, CH2Cl2, and CHCl3.
3. To optimally determine the average concentrations and trends of OH radicals in the troposphere by determining the rates of destruction of atmospheric CH3CCl3 and other hydrohalocarbons from continuous measurements of their concentrations together with industrial estimates of their emissions.
4. To determine optimally, using high frequency trace gas data (and theoretical estimates of their rates of destruction), the magnitudes and distributions by region of the surface sources of these gases.
5. To provide an accurate data base on the rates of accumulation of trace gases over the globe which can be used to test the synoptic-, regional- and global-scale circulation predicted by three dimensional models and/or to determine characteristics of the sources of these gases near the stations.
6. To provide routine measurements of CH4, CO and H2, and estimates of OH levels that can be used to test primary oxidation pathways in the atmosphere.
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| Supporting Contributor(s) |
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| Last update |
2009-11-19 |
| Situation |
ongoing |
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This site is maintained by the Japan Meteorological Agency
in cooperation with the World Meteorological Organization
(Created : 2001/07/02 Modified : 2010/09/02)
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WMO World Data Centre for Greenhouse Gases
c/o Japan Meteorological Agency
1-3-4, Otemachi, Chiyoda-ku
Tokyo 100-8122, Japan
| Tel: |
+81-3-3287-3439 |
| Fax: |
+81-3-3211-4640 |
| E-mail: |
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WDCGG Data Submission and Dissemination Guide (PDF 1.2Mbyte)
WDCGG leaflet (PDF 2.7MByte, July 2008)