Annika Seppälä
University of Otago
H-index: 39
Oceania-New Zealand
Top articles of Annika Seppälä
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
Potential drivers of the recent large Antarctic ozone holes | Nature Communications | Hannah E Kessenich Annika Seppälä Craig J Rodger | 2023/11/21 |
Observed Loss of Polar Mesospheric Ozone Following Substorm‐Driven Electron Precipitation | Geophysical Research Letters | Keeta Chapman‐Smith Annika Seppälä Craig J Rodger Aaron Hendy Colin Forsyth | 2023/9/16 |
Towards the definition of a solar forcing dataset for CMIP7 | Bernd Funke Thierry Dudok de Wit Ilaria Ermolli Margit Haberreiter Doug Kinnison | 2023/7/27 | |
The influence of energetic particle precipitation on Antarctic stratospheric chlorine and ozone over the 20th century | Atmospheric Chemistry and Physics | Ville Maliniemi Pavle Arsenovic Annika Seppälä Hilde Nesse Tyssøy | 2022/6/23 |
Ozone impact from solar energetic particles cools the polar stratosphere | Nature Communications | Monika E Szela̧g Daniel R Marsh Pekka T Verronen Annika Seppälä Niilo Kalakoski | 2022/11/12 |
Polar middle atmospheric responses to medium energy electron (Mee) precipitation using numerical model simulations | Atmosphere | Ji-Hee Lee Geonhwa Jee Young-Sil Kwak Heejin Hwang Annika Seppälä | 2021/1/20 |
SAO-QBO Coupling before the 2019 and 2002 Southern Sudden Stratospheric Warmings | EGU General Assembly Conference Abstracts | Viktoria Nordström Annika Seppälä | 2021/4 |
Does the coupling of the mesospheric semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings? | Atmospheric Chemistry and Physics Discussions | Viktoria J Nordström Annika Seppälä | 2021/1/12 |
Observational evidence of polar mesospheric ozone loss following substorm events | EGU General Assembly Conference Abstracts | Keeta Chapman-Smith Annika Seppälä Craig Rodger Aaron Hendry | 2021/4 |
Predictability of variable solar–terrestrial coupling | Annales Geophysicae | Ioannis A Daglis Loren C Chang Sergio Dasso Nat Gopalswamy Olga V Khabarova | 2021/12/10 |
Observational evidence of solar activity interaction with chlorine chemistry curbing Antarctic ozone loss | EGU General Assembly Conference Abstracts | Annika Seppälä Emily Gordon Bernd Funke Johanna Tamminen Kaley Walker | 2021/4 |
Does the coupling of the semiannual oscillation with the quasi-biennial oscillation provide predictability of Antarctic sudden stratospheric warmings? | AGU Fall Meeting Abstracts | Annika Seppala Viktoria Nordstrom | 2021/12 |
Impact of EMIC‐wave driven electron precipitation on the radiation belts and the atmosphere | Journal of Geophysical Research: Space Physics | AT Hendry A Seppälä CJ Rodger MA Clilverd | 2021/3 |
Observational evidence of polar ozone loss following substorm events | AGU Fall Meeting Abstracts | Keeta Chapman-Smith Annika Seppala Craig Rodger Aaron Hendry Colin Forsyth | 2021/12 |
Observational evidence of energetic particle precipitation NOx (EPP-NOx) interaction with chlorine curbing Antarctic ozone loss | Atmospheric Chemistry and Physics | Emily M Gordon Annika Seppälä Bernd Funke Johanna Tamminen Kaley A Walker | 2021/2/24 |
Role Of the Sun and the Middle atmosphere/thermosphere/ionosphere In Climate (ROSMIC): a retrospective and prospective view | William Ward Annika Seppälä Erdal Yiğit Takuji Nakamura Claudia Stolle | 2021/12 | |
Observational evidence of EPP-NOx interaction with chlorine curbing Antarctic ozone loss. | Atmospheric Chemistry & Physics Discussions | Emily M Gordon Annika Seppala Bernd Funke Johanna Tamminen Kaley A Walker | 2020/9/29 |
Statistical response of middle atmosphere composition to solar proton events in WACCM-D simulations: the importance of lower ionospheric chemistry | Atmospheric Chemistry and Physics | Niilo Kalakoski Pekka T Verronen Annika Seppälä Monika E Szeląg Antti Kero | 2020/7/28 |
Evidence for energetic particle precipitation and quasi-biennial oscillation modulations of the Antarctic NO2 springtime stratospheric column from OMI observations | Atmospheric Chemistry and Physics | Emily M Gordon Annika Seppälä Johanna Tamminen | 2020/6/2 |