Global emissions of HFC-143a (CH 3 CF 3) and HFC-32 (CH 2 F 2) from in situ and air archive atmospheric observations (original) (raw)
Supplementary material to "Global emissions of HFC-143a (CH3CF3) and HFC-32 (CH2F2) from in situ and air archive atmospheric observations
O. Hermansen
2014
View PDFchevron_right
Atmospheric histories and growth trends of C<sub>4</sub>F<sub>10</sub>, C<sub>5</sub>F<sub>12</sub>, C<sub>6</sub>F<sub>14</sub>,...
Ronald Prinn
Atmospheric Chemistry and Physics, 2012
View PDFchevron_right
Atmospheric histories and emissions of chlorofluorocarbons CFC-13(CClF<sub>3</sub>), CFC-114 (C<sub>2</sub>Cl<sub>2</sub>F<sub>4</sub>), and CFC-115 (C<sub>2</sub>ClF<sub>5</sub>)
Ronald Prinn
2017
View PDFchevron_right
Atmospheric histories and growth trends of C<sub>4</sub>F<sub>10</sub>, C<sub>5</sub>F<sub>12</sub>, C<sub>6</sub>F<sub>14</sub>, C<sub>7</sub>F<sub>16</sub> and C<sub>8</sub>F<sub>18...
Ronald Prinn
2012
View PDFchevron_right
A history of δ 13 C in atmospheric CH 4 from the Cape Grim Air Archive and Antarctic firn air
R. Langenfelds
Journal of Geophysical Research, 1999
View PDFchevron_right
Supplementary material to "Levels of persistent organic pollutants (POPs) in the Antarctic atmosphere over time (1980 to 2021) and estimation of their atmospheric half-lives
Thais Luarte
View PDFchevron_right
Atmospheric histories and emissions of chlorofluorocarbons CFC-13 (CClF3), ΣCFC-114 (C2Cl2F4), and CFC-115 (C2ClF5)
Matthias Hill
Atmospheric Chemistry and Physics, 2018
View PDFchevron_right
Reply [to “Comment on “Global OH trend inferred from methylchloroform measurements” by Maarten Krol et al.”]
Jos Lelieveld
Journal of Geophysical Research, 2001
View PDFchevron_right
Atmospheric histories and growth trends of C[subscript 4]F[subscript 10], C[subscript 5]F[subscript 12], C[subscript 6]F[subscript 14], C[subscript 7]F[subscript 16] and C[subscript 8]F[subscript 18]
Ronald Prinn
2012
View PDFchevron_right
Trends in N<sub>2</sub>O and SF<sub>6</sub> mole fraction in archived air samples from Cape Meares, Oregon (USA) 1978–1996
terry rolfe
Atmospheric Chemistry and Physics Discussions, 2019
View PDFchevron_right
HFC-43-10mee atmospheric abundances and global emission estimates
Ronald Prinn
Geophysical Research Letters, 2014
View PDFchevron_right
Global emissions of HFC-143a (CH3CF3) and HFC-32 (CH2F2) from in situ and air archive atmospheric observations
N. Schmidbauer
Atmospheric Chemistry and Physics Discussions, 2014
View PDFchevron_right
Independent variations of CH4 emissions and isotopic composition over the past 160,000 years
Melanie Behrens
Nature Geoscience, 2013
View PDFchevron_right
Recent increases in the atmospheric growth rate and emissions of HFC-23 (CHF<sub>3</sub>) and the link to HCFC-22 (CHClF<sub>2</sub>) production
Ronald Prinn
Atmospheric Chemistry and Physics, 2018
View PDFchevron_right
Increase in the vertical column abundance of HCFC22 (CHClF2) above Lauder, New Zealand, between 1985 and 1994
Cirilo Bernardo
Journal of Geophysical Research, 1997
View PDFchevron_right
Linking emissions of fossil fuel CO2and other anthropogenic trace gases using atmospheric14CO2
Jocelyn Turnbull
Journal of Geophysical Research: Atmospheres, 2012
View PDFchevron_right
Records of the δ 13 C of atmospheric CH 4 over the last 2 centuries as recorded in Antarctic snow and ice
T. Sowers
Global Biogeochemical Cycles, 2005
View PDFchevron_right
Global and regional emissions of HFC-125 (CHF[subscript 2]CF[subscript 3]) from in situ and air archive atmospheric observations at AGAGE and SOGE observatories
O. Hermansen
2009
View PDFchevron_right
Development of analytical methods and measurements of 13C/12C in atmospheric CH4 from the NOAA Climate Monitoring and Diagnostic Laboratory Global Air Sampling Network
Ken MacClune
View PDFchevron_right
Influence of nonlocal chemistry on tracer distributions: Inferring the mean age of air from SF 6
Darryn Waugh
Journal of Geophysical Research, 1998
View PDFchevron_right
Development of analytical methods and measurements of 13C/12C in atmospheric CH4 from the NOAA Climate Monitoring and Diagnostics Laboratory Global Air Sampling Network
Kenneth MacClune
Journal of Geophysical Research, 2002
View PDFchevron_right
Early anthropogenic CH 4 emissions and the variation of CH 4 and 13 CH 4 over the last millennium
Kees Klein Goldewijk
Global Biogeochemical Cycles, 2008
View PDFchevron_right
Abrupt reversal in emissions and atmospheric abundance of HCFC-133a (CF3 CH2 Cl)
Matthias Hill
Geophysical Research Letters, 2015
View PDFchevron_right
Intercomparisons of δ<sup>13</sup>C and δD measurements of atmospheric CH<sub>4</sub> for combined use of datasets from different laboratories
Todd Sowers
Atmospheric Measurement Techniques Discussions, 2017
View PDFchevron_right
Changes in the global atmospheric methane budget over the last decades inferred from 13C and D isotopic analysis of Antarctic firn air
Olivier Aballain
Journal of Geophysical Research: Atmospheres, 2001
View PDFchevron_right
Reconciling reported and unreported HFC emissions with atmospheric observations
Ronald Prinn
Proceedings of the National Academy of Sciences of the United States of America, 2015
View PDFchevron_right
Atmospheric HCFC-22, HFC-125, and HFC-152a at Cape Point, South Africa
Timothy Lesch
Environmental Science & Technology, 2019
View PDFchevron_right
Trends in N2O and SF6 mole fractions in archived air samples from Cape Meares, Oregon (USA), 1978–1996
terry rolfe
Atmospheric Chemistry and Physics, 2019
View PDFchevron_right
Evidence for a CO increase in the SH during the 20th century based on firn air samples from Berkner Island, Antarctica
Robert Mulvaney
Atmospheric Chemistry and Physics, 2007
View PDFchevron_right