Browsing Folkins, Ian by Author "Folkins, I."
Now showing items 1-15 of 15
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A barrier to vertical mixing at 14 km in the tropics: Evidence from ozonesondes and aircraft measurements
Folkins, I., M. Loewenstein, J. Podolske, SJ Oltmans, et al. 1999. "A barrier to vertical mixing at 14 km in the tropics: Evidence from ozonesondes and aircraft measurements." Journal of Geophysical Research-Atmospheres 104(D18): 22095-22102.No abstract available. -
Biomass burning and deep convection in southeastern Asia: Results from ASHOE/MAESA
Folkins, I., R. Chatfield, D. Baumgardner, and M. Proffitt. 1997. "Biomass burning and deep convection in southeastern Asia: Results from ASHOE/MAESA." Journal of Geophysical Research-Atmospheres 102(11D): 13291-13299.No abstract available. -
Convective damping of buoyancy anomalies and its effect on lapse rates in the tropical lower troposphere
Folkins, I.. 2006. "Convective damping of buoyancy anomalies and its effect on lapse rates in the tropical lower troposphere." Atmospheric Chemistry and Physics 6: 1-12.No abstract available. -
Estimating the contribution of bromoform to stratospheric bromine and its relation to dehydration in the tropical tropopause layer
Sinnhuber, B. -M, and I. Folkins. 2006. "Estimating the contribution of bromoform to stratospheric bromine and its relation to dehydration in the tropical tropopause layer." Atmospheric Chemistry and Physics 6: 4755-4761.No abstract available. -
Impact of acetone on ozone production and OH in the upper troposphere at high NOx
Folkins, I., and R. Chatfield. 2000. "Impact of acetone on ozone production and OH in the upper troposphere at high NOx." Journal of Geophysical Research-Atmospheres 105(D9): 11585-11599.No abstract available. -
The melting level stability anomaly in the tropics
Folkins, I.. 2013. "The melting level stability anomaly in the tropics." Atmospheric Chemistry and Physics 13(3): 1167-1176.No abstract available. -
OH, HO2, and NO in two biomass burning plumes: Sources of HOx and implications for ozone production
Folkins, I., PO Wennberg, TF Hanisco, JG Anderson, et al. 1997. "OH, HO2, and NO in two biomass burning plumes: Sources of HOx and implications for ozone production." Geophysical Research Letters 24(24): 3185-3188.No abstract available. -
Ozone and potential vorticity at the subtropical tropopause break
Folkins, I., and C. Appenzeller. 1996. "Ozone and potential vorticity at the subtropical tropopause break." Journal of Geophysical Research-Atmospheres 101(D13): 18787-18792.No abstract available. -
Ozone production efficiencies of acetone and peroxides in the upper troposphere
Folkins, I., R. Chatfield, H. Singh, Y. Chen, et al. 1998. "Ozone production efficiencies of acetone and peroxides in the upper troposphere." Geophysical Research Letters 25(9): 1305-1308.No abstract available. -
A simple explanation for the increase in relative humidity between 11 and 14 km in the tropics
Folkins, I., KK Kelly, and EM Weinstock. 2002. "A simple explanation for the increase in relative humidity between 11 and 14 km in the tropics." Journal of Geophysical Research-Atmospheres 107(D23): 4736-4736.No abstract available. -
Tropical convective outflow and near surface equivalent potential temperatures
Folkins, I., SJ Oltmans, and AM Thompson. 2000. "Tropical convective outflow and near surface equivalent potential temperatures." Geophysical Research Letters 27(16): 2549-2552.No abstract available. -
Tropical ozone as an indicator of deep convection
Folkins, I., C. Braun, AM Thompson, and J. Witte. 2002. "Tropical ozone as an indicator of deep convection." Journal of Geophysical Research-Atmospheres 107(D13): 4184-4184.No abstract available. -
Tropical rainfall and boundary layer moist entropy
Folkins, I., and C. Braun. 2003. "Tropical rainfall and boundary layer moist entropy." Journal of Climate 16(11): 1807-1820.No abstract available. -
Tropical Tropopause Layer
Fueglistaler, S., A. E. Dessler, T. J. Dunkerton, I. Folkins, et al. 2009. "Tropical Tropopause Layer." Reviews of Geophysics 47: 1004-RG1004.No abstract available. -
The vertical structure of tropical convection and its impact on the budgets of water vapor and ozone
Folkins, I., and RV Martin. 2005. "The vertical structure of tropical convection and its impact on the budgets of water vapor and ozone." Journal of the Atmospheric Sciences 62(5): 1560-1573.No abstract available.