John A. Pyle
Affiliations: | Chemistry | University of Cambridge, Cambridge, England, United Kingdom |
Website:
https://www.ch.cam.ac.uk/person/jap12Google:
"John A. Pyle"Bio:
https://royalsociety.org/people/john-pyle-12127/
https://en.wikipedia.org/wiki/John_A._Pyle
Pyle, J. A. Some Problems in the Numerical Modelling of the Atmosphere.
PhD diss., University of Oxford, 1976.
DOI: 10.1002/qj.49710143003
Parents
Sign in to add mentor| Robert S. Harwood | grad student | 1976 | Oxford (Meteorology Tree) | |
| (Some Problems in the Numerical Modelling of the Atmosphere) | ||||
Children
Sign in to add trainee| Joanna D. Haigh | grad student | 1980 | Oxford (Meteorology Tree) |
| Mathew John Evans | grad student | 1995-1999 | Cambridge |
| Marcus Koehler | grad student | 2000-2004 | Cambridge (Geotree) |
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Publications
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| Pyle JA, Keeble J, Abraham NL, et al. (2022) Integrated ozone depletion as a metric for ozone recovery. Nature. 608: 719-723 |
| Lamy K, Portafaix T, Josse B, et al. (2019) Ultraviolet radiation modelling using output from the Chemistry Climate Model Initiative. Atmospheric Chemistry and Physics Discussions : Acpd. 19: 10087-10110 |
| Rae CD, Keeble J, Hitchcock P, et al. (2019) Prescribing Zonally Asymmetric Ozone Climatologies in Climate Models: Performance Compared to a Chemistry-Climate Model. Journal of Advances in Modeling Earth Systems. 11: 918-933 |
| Esentürk E, Abraham NL, Archer-Nicholls S, et al. (2018) Quasi-Newton methods for atmospheric chemistry simulations: implementation in UKCA UM vn10.8 Geoscientific Model Development. 11: 3089-3108 |
| Nowack P, Braesicke P, Haigh J, et al. (2018) Using machine learning to build temperature-based ozone parameterizations for climate sensitivity simulations Environmental Research Letters. 13: 104016 |
| Nowack PJ, Braesicke P, Luke Abraham N, et al. (2017) On the role of ozone feedback in the ENSO amplitude response under global warming. Geophysical Research Letters. 44: 3858-3866 |
| Hossaini R, Chipperfield MP, Montzka SA, et al. (2017) The increasing threat to stratospheric ozone from dichloromethane. Nature Communications. 8: 15962 |
| Jones BT, Muller J, O'Shea S, et al. (2017) Are the Fenno-Scandinavian Arctic Wetlands a Significant Regional Source of Formic Acid? Atmosphere. 8: 112 |
| Godin-Beekmann S, Petropavloskikh I, Reis S, et al. (2017) The Quadrennial Ozone Symposium 2016 Advances in Atmospheric Sciences. 34: 283-288 |
| France JL, Cain M, Fisher RE, et al. (2016) Measurements of δC in CH and using particle dispersion modeling to characterize sources of Arctic methane within an air mass. Journal of Geophysical Research. Atmospheres : Jgr. 121: 14257-14270 |