Elevated ozone in the boundary layer at South Pole - Doug Davis
Elevated ozone in the boundary layer at South Pole - Doug Davis
Elevated ozone in the boundary layer at South Pole - Doug Davis
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ARTICLE IN PRESS<br />
D. Helmig et al. / Atmospheric Environment 42 (2008) 2788–2803 2803<br />
Atmospheric Environment, <strong>in</strong> press, doi:10.1016/j.<strong>at</strong>mosenv.<br />
2006.06.064.<br />
Helmig, D., Ganzeveld, L., Butler, T., Oltmans, S.J., 2007d. The<br />
role of <strong>ozone</strong> <strong>at</strong>mosphere-snow gas exchange on polar,<br />
<strong>boundary</strong>-<strong>layer</strong> <strong>ozone</strong>—a review and sensitivity analysis.<br />
Atmospheric Chemistry and Physics 7, 15–30.<br />
Helmig, D., Oltmans, S.J., Morse, T.O., Dibb, J.E., 2007e. Wh<strong>at</strong><br />
is caus<strong>in</strong>g high <strong>ozone</strong> <strong>at</strong> Summit, Greenland? Atmospheric<br />
Environment, <strong>in</strong> press, doi:10.1016/j.<strong>at</strong>mosenv.2006.05.084.<br />
Honr<strong>at</strong>h, R.E., Peterson, M.C., Guo, S., Dibb, J.E., Shepson,<br />
P.B., Campbell, B., 1999. Evidence of NO production with<strong>in</strong><br />
or upon ice particles <strong>in</strong> <strong>the</strong> Greenland snowpack. Geophysical<br />
Research Letters 26, 695–698.<br />
Honr<strong>at</strong>h, R.E., Peterson, M.C., Dziobak, M.P., Dibb, J.E.,<br />
Arsenault, M.A., Green, S.A., 2000a. Release of NO x from<br />
sunlight-irradi<strong>at</strong>ed midl<strong>at</strong>itude snow. Geophysical Research<br />
Letters 27, 2237–2240.<br />
Honr<strong>at</strong>h, R.E., Guo, S., Peterson, M.C., Dziobak, M.P., Dibb,<br />
J.E., Arsenault, M.A., 2000b. Photochemical production of<br />
gas phase NO x from ice crystal NO 3 . Journal of Geophysical<br />
Research 105, 24,183–24,190.<br />
Honr<strong>at</strong>h, R.E., Yu, Y., Peterson, M.C., Dibb, J.E., Arsenault,<br />
M.A., Cullen, N.J., Steffen, K., 2002. Vertical fluxes of NO x ,<br />
HONO, and HNO 3 above <strong>the</strong> snowpack <strong>at</strong> Summit, Greenland.<br />
Atmospheric Environment 36, 2629–2640.<br />
Johnson, B., Helmig, D., Oltmans, S.J., 2007. Evalu<strong>at</strong>ion of<br />
<strong>ozone</strong> measurements from a te<strong>the</strong>red balloon sampl<strong>in</strong>g<br />
pl<strong>at</strong>form <strong>at</strong> <strong>South</strong> <strong>Pole</strong> St<strong>at</strong>ion <strong>in</strong> December, 2003. Atmospheric<br />
Environment, <strong>in</strong> press, doi:10.1016/j.<strong>at</strong>mosenv.<br />
2007.03.043.<br />
Jones, A.E., Weller, R., Wolff, E.W., Jacobi, H.W., 2000.<br />
Speci<strong>at</strong>ion and r<strong>at</strong>e of photochemical NO and NO 2 production<br />
<strong>in</strong> Antarctic snow. Geophysical Research Letters 27,<br />
345–348.<br />
Jones, A.E., Weller, R., Anderson, P.S., Jacobi, H.W., Wolff,<br />
E.W., Schrems, O., Miller, H., 2001. Measurements of NO x<br />
emissions from <strong>the</strong> Antarctic snowpack. Geophysical Research<br />
Letters 28, 1499–1502.<br />
Jones, A.E., Wolff, E.W., 2003. An analysis of <strong>the</strong> oxid<strong>at</strong>ion<br />
potential of <strong>the</strong> <strong>South</strong> <strong>Pole</strong> <strong>boundary</strong> <strong>layer</strong> and <strong>the</strong> <strong>in</strong>fluence<br />
of str<strong>at</strong>ospheric <strong>ozone</strong> depletion. Journal of Geophysical<br />
Research 108, 4565 doi:10.1029/2003JD003379.<br />
Kalnay, E., Kanamitsu, M., Kistler, R., Coll<strong>in</strong>s, W., Deaven, D.,<br />
Gand<strong>in</strong>, L., Iredell, M., Saha, S., White, G., Woollen, J., Zhu,<br />
Y., Chelliah, M., Ebisuzaki, W., Higg<strong>in</strong>s, W., Janowiak, J.,<br />
Mo, K.C., Ropelewski, C., Wang, J., Leetmaa, A., Reynolds,<br />
B., Jenne, R., Joseph, D., 1996. The NCEP/NCAR 40-year<br />
reanalysis project. Bullet<strong>in</strong> of <strong>the</strong> American Meteorological<br />
Society 77, 437–471.<br />
K<strong>in</strong>g, J.C., Argent<strong>in</strong>i, S.A., Anderson, P.S., 2006. Contrasts<br />
between <strong>the</strong> summertime surface energy balance and <strong>boundary</strong><br />
<strong>layer</strong> structure <strong>at</strong> Dome C and Halley st<strong>at</strong>ions,<br />
Antarctica. Journal of Geophysical Research 111 doi:10.1029/<br />
2005JD006130.<br />
Neff, W.D., 1999. Decadal time scale trends and variability <strong>in</strong> <strong>the</strong><br />
tropospheric circul<strong>at</strong>ion over <strong>the</strong> <strong>South</strong> <strong>Pole</strong>. Journal of<br />
Geophysical Research 104, 27,217–27,251.<br />
Neff, W.D., Helmig, D., Garchev, A., <strong>Davis</strong>, D., 2007. A study of<br />
<strong>boundary</strong> <strong>layer</strong> behavior associ<strong>at</strong>ed with high surface NO<br />
concentr<strong>at</strong>ions <strong>at</strong> <strong>the</strong> <strong>South</strong> <strong>Pole</strong> us<strong>in</strong>g a M<strong>in</strong>iSodar, te<strong>the</strong>red<br />
balloon, and sonic anemometer. Atmospheric Environment,<br />
<strong>in</strong> press, doi:10.1016/j.<strong>at</strong>mosenv.2007.01.033.<br />
Oltmans, S.J., Komhyr, W.D., 1976. Surface <strong>ozone</strong> <strong>in</strong> Antarctica.<br />
Journal of Geophysical Research 81, 5359–5364.<br />
Oltmans, S.J., Lefohn, A.S., Harris, J.M., Galbally, I., Scheel,<br />
H.E., Bodecker, G., Brunke, E., Claude, H., Tarasick, D.,<br />
Johnson, B.J., Simmonds, P., Shadwick, D., Anlauf, K.,<br />
Hayden, K., Schmidl<strong>in</strong>, F., Fujimoto, T., Akagi, K., Meyer,<br />
C., Nichol, S., Davies, J., Redondas, A., Cuevas, E., 2006.<br />
Long-term changes <strong>in</strong> tropospheric <strong>ozone</strong>. Atmospheric<br />
Environment 40, 3156–3173.<br />
Oltmans S.J., Johnson B.J., Helmig D., 2007, Episodes of high<br />
surface <strong>ozone</strong> amounts <strong>at</strong> <strong>South</strong> <strong>Pole</strong> dur<strong>in</strong>g summer and<br />
<strong>the</strong>ir impact on <strong>the</strong> long-term <strong>ozone</strong> vari<strong>at</strong>ion. Atmospheric<br />
Environment, <strong>in</strong> press, doi:10.1016/j.<strong>at</strong>mosenv.2007.01.020.<br />
Oncley, S.P., Buhr, M., Lenschow, D.H., <strong>Davis</strong>, D., Semmer,<br />
S.R., 2004. Observ<strong>at</strong>ions of summertime NO fluxes and<br />
<strong>boundary</strong>-<strong>layer</strong> height <strong>at</strong> <strong>the</strong> <strong>South</strong> <strong>Pole</strong> dur<strong>in</strong>g ISCAT 2000<br />
us<strong>in</strong>g scalar similarity. Atmospheric Environment 38,<br />
5389–5398.<br />
Schnell, R.C., Liu, S.C., Oltmans, S.J., Stone, R.S., Hofmann,<br />
D.J., Dutton, E.G., Deshler, T., Sturges, W.T., Harder, J.W.,<br />
Sewell, S.D., Tra<strong>in</strong>er, M., Harris, J.M., 1991. Decrease of<br />
summer tropospheric <strong>ozone</strong> concentr<strong>at</strong>ions <strong>in</strong> Antarctica.<br />
N<strong>at</strong>ure 351, 726–729.<br />
Swanson, A.L., Lefer, B.L., Stroud, V., Atlas, E., 2005. Trace gas<br />
emissions through a w<strong>in</strong>ter snowpack <strong>in</strong> <strong>the</strong> subalp<strong>in</strong>e<br />
ecosystem <strong>at</strong> Niwot Ridge, Colorado. Geophysical Research<br />
Letters 32, L03805, doi:10.1029/2004GL21809.<br />
Thompson, D.W.J., Solomon, S., 2002. Interpret<strong>at</strong>ion of recent<br />
Sou<strong>the</strong>rn Hemisphere clim<strong>at</strong>e change. Science 296, 895–899.<br />
Wang, Y., Choi, Y., Zeng, T., <strong>Davis</strong>, D., Buhr, M., Huey, L.G.,<br />
Neff, W., 2007. Assess<strong>in</strong>g <strong>the</strong> photochemical impact of snow<br />
NO x emissions over Antarctica dur<strong>in</strong>g ANTCI 2003. Atmospheric<br />
Environment, <strong>in</strong> press, doi:10.1016/j.<strong>at</strong>mosenv.<br />
2007.01.056.<br />
Zeller, K., 2000. W<strong>in</strong>tertime <strong>ozone</strong> fluxes and profiles above a<br />
subalp<strong>in</strong>e spruce-fir forest. Journal of Applied Meteology 39,<br />
92–101.<br />
Zeller, K., Hehn, T., 1994. W<strong>in</strong>tertime anomalies <strong>in</strong> <strong>ozone</strong><br />
deposition above a subalp<strong>in</strong>e spruce-fir forest. Research and<br />
applic<strong>at</strong>ions of chemical sciences <strong>in</strong> forestry. Proceed<strong>in</strong>gs of<br />
<strong>the</strong> Fourth Sou<strong>the</strong>rn St<strong>at</strong>ion Chemical Sciences Meet<strong>in</strong>g, New<br />
Orleans. General Technical Report SO-104, pp. 131–138.<br />
Zeller, K., Hehn, T., 1996. Measurements of upward turbulent<br />
<strong>ozone</strong> fluxes above a subalp<strong>in</strong>e spruce-fir forest. Geophysical<br />
Research Letters 23, 841–844.