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Atmospheric response to NOy source due to energetic electron precipitation. / Rozanov, E; Callis, L; Schlesinger, M; Andronova, N.

в: Geophysical Research Letters, Том 32, № 14, 14811, 22.07.2005.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Rozanov, E, Callis, L, Schlesinger, M & Andronova, N 2005, 'Atmospheric response to NOy source due to energetic electron precipitation', Geophysical Research Letters, Том. 32, № 14, 14811. https://doi.org/10.1029/2005GL023041

APA

Rozanov, E., Callis, L., Schlesinger, M., & Andronova, N. (2005). Atmospheric response to NOy source due to energetic electron precipitation. Geophysical Research Letters, 32(14), [14811]. https://doi.org/10.1029/2005GL023041

Vancouver

Rozanov E, Callis L, Schlesinger M, Andronova N. Atmospheric response to NOy source due to energetic electron precipitation. Geophysical Research Letters. 2005 Июль 22;32(14). 14811. https://doi.org/10.1029/2005GL023041

Author

Rozanov, E ; Callis, L ; Schlesinger, M ; Andronova, N. / Atmospheric response to NOy source due to energetic electron precipitation. в: Geophysical Research Letters. 2005 ; Том 32, № 14.

BibTeX

@article{bfbba7fb0a5b49da816d3b205b43cc3c,
title = "Atmospheric response to NOy source due to energetic electron precipitation",
abstract = "We have introduced additional NOy sources caused by energetic electron precipitation (EEP) during 1987 into a Chemistry-Climate model. Comparison of two model runs with and without EEP reveals increase of reactive nitrogen by about 2 ppbv in the middle stratosphere over the tropical and middle latitudes. In the upper stratosphere over the polar winter regions the simulated NOy enhancement reaches 10 ppbv. Decreases of the ozone mixing ratio in the stratosphere by up to 5% over midlatitudes and up to 30% over southern high-latitudes are calculated. A similar to 0.5 K cooling in the middle stratosphere over the tropics and up to 2 K over southern high-latitudes is calculated with detectable changes in the surface air temperatures. These results confirm that the magnitude of the atmospheric response to EEP events can potentially exceed the effects from solar UV fluxes. These mechanisms work in phase outside polar latitudes, but can compensate each other within polar latitudes.",
keywords = "PARAMETERIZATION, VARIABILITY, MODEL",
author = "E Rozanov and L Callis and M Schlesinger and N Andronova",
year = "2005",
month = jul,
day = "22",
doi = "10.1029/2005GL023041",
language = "Английский",
volume = "32",
journal = "Geophysical Research Letters",
issn = "0094-8276",
publisher = "American Geophysical Union",
number = "14",

}

RIS

TY - JOUR

T1 - Atmospheric response to NOy source due to energetic electron precipitation

AU - Rozanov, E

AU - Callis, L

AU - Schlesinger, M

AU - Andronova, N

PY - 2005/7/22

Y1 - 2005/7/22

N2 - We have introduced additional NOy sources caused by energetic electron precipitation (EEP) during 1987 into a Chemistry-Climate model. Comparison of two model runs with and without EEP reveals increase of reactive nitrogen by about 2 ppbv in the middle stratosphere over the tropical and middle latitudes. In the upper stratosphere over the polar winter regions the simulated NOy enhancement reaches 10 ppbv. Decreases of the ozone mixing ratio in the stratosphere by up to 5% over midlatitudes and up to 30% over southern high-latitudes are calculated. A similar to 0.5 K cooling in the middle stratosphere over the tropics and up to 2 K over southern high-latitudes is calculated with detectable changes in the surface air temperatures. These results confirm that the magnitude of the atmospheric response to EEP events can potentially exceed the effects from solar UV fluxes. These mechanisms work in phase outside polar latitudes, but can compensate each other within polar latitudes.

AB - We have introduced additional NOy sources caused by energetic electron precipitation (EEP) during 1987 into a Chemistry-Climate model. Comparison of two model runs with and without EEP reveals increase of reactive nitrogen by about 2 ppbv in the middle stratosphere over the tropical and middle latitudes. In the upper stratosphere over the polar winter regions the simulated NOy enhancement reaches 10 ppbv. Decreases of the ozone mixing ratio in the stratosphere by up to 5% over midlatitudes and up to 30% over southern high-latitudes are calculated. A similar to 0.5 K cooling in the middle stratosphere over the tropics and up to 2 K over southern high-latitudes is calculated with detectable changes in the surface air temperatures. These results confirm that the magnitude of the atmospheric response to EEP events can potentially exceed the effects from solar UV fluxes. These mechanisms work in phase outside polar latitudes, but can compensate each other within polar latitudes.

KW - PARAMETERIZATION

KW - VARIABILITY

KW - MODEL

U2 - 10.1029/2005GL023041

DO - 10.1029/2005GL023041

M3 - статья

VL - 32

JO - Geophysical Research Letters

JF - Geophysical Research Letters

SN - 0094-8276

IS - 14

M1 - 14811

ER -

ID: 121595149