High Gain Backward Lasing in Atmospheric Air: Remote Atomic Oxygen and Nitrogen Lasers
Atmospheric Oxygen in and above Forests
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Transcript of Atmospheric Oxygen in and above Forests
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Atmospheric Oxygen in and above ForestsBritton Stephens, National Center for Atmospheric Research,
Boulder, Colorado, USA
• Harvard Forest, Massachusetts, USA VUV Absorption, August 1998
• WLEF Tall Tower, Wisconsin, USA Fuel Cell, June 2000 – November 2003
• Applications:
Terrestrial O2:CO2 relationships for global carbon budgeting
Plant physiology and nutrient cycling
Fossil fuel emission characterization and verification
Continental atmospheric transport of oceanic O2 signals
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Fuel-Cell Oxygen Analyzer
• Off the shelf: 25 per meg rms in 1 sec and ~100 per meg hourly drift
• Modifications: – removed plastic tubing and filters
– removed heat exchanger
– common outlet plumbing
– cryogenic drying
– active pressure and flow control
– multiple inlets and reference gases
– 1-minute switching cycle
– inlet pick-off tees
• Resulting Precision:– 2.5 per meg rms on in 2 minutes
– 1.5 per meg rms on a 6 minute measurement every 20 minutes
– 2.5 per meg drift over 6 hours
Sable Systems, NV (S/N OX0001‑02)
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Fuel-Cell Oxygen Analyzer (cont.)
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Previous results:
-1.2 from a soil incubation study [J. Severinghaus]
-1.05 from a wood composition survey [R. Keeling]
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O2 in urban pollution studies and emission verification
0.0Cement Production
-1.98 ± 0.07Gas Flaring
-1.95 ± 0.04Natural Gas
-1.44 ± 0.03Liquid Fuel
-1.17 ± 0.03Coal
Oxidative Ratios for CO2 Sources
[R. Keeling, 1995]
Mexico
Expected ratio =
-1.46 mol O2:mol CO2
Expected ratio =
-1.13 mol O2:mol CO2
People’s Republic of China
Expected ratio =
-1.44 mol O2:mol CO2
United States of America
[from Marland, Boden, and Andres, http://cdiac.esd.ornl.gov]
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-200
-300
-400
400
380
360
per meg O2/N2
ppm CO2
Average diurnal cycles for O2 (panel tops) and CO2 (panel bottoms)
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Monthly O2:CO2 and standard errors from ODR fitJu
ne,
2000
Janu
ary
200
1 July
, 20
01
Q. What do these numbers actually represent?
A1. Complex combinations of local photosynthesis and respiration influences and synoptic transport of terrestrial, industrial, and oceanic signals
A2. Not likely equal to B, but potentially related to forest growth state and nutrient partitioning.
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-O2:CO2
PQ = 1.05
OR = 1.15
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WLEF Comparison to Scripps CBA Curves
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Blue Box and Controller
RAF Oxygen Analyzer (ROXAN)Vacuum Ultraviolet Absorption – 3 per meg rms on in 6 seconds
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Potential Future Directions
• Fuel-cell:– Restart at WLEF with well-characterized and improved
accuracy– Deploy at another terrestrial site– Deploy on a ship– Deploy at South Pole
• VUV:– Cylinder calibrations– Airborne industrial, terrestrial, oceanic, and stratospheric
studies– Wind-tunnel studies of aircraft inlet fractionation
– Eddy-correlation measurements of air-sea O2 fluxes