Quantitative characterization of the Antarctic ozone hole
The long-term evolution of the Antarctic ozone hole is studied based on the TOMS data and the JMA data-set of stratospheric temperature in relation with the possible role of polar stratospheric clouds (PSC's). The effective mass of depleted ozone in the ozone hole at its annual mature stage rea...
| Main Authors: | , , , , , , , |
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| Format: | Other/Unknown Material |
| Language: | unknown |
| Published: |
1994
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| Subjects: | |
| Online Access: | http://hdl.handle.net/2060/19950004628 |
| _version_ | 1821587742318919680 |
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| author | Akagi, K. Naganuma, H. Shibata, S. Matsubara, K. Takao, T. Sakoda, Y. Ito, T. Watanabe, Y. |
| author_facet | Akagi, K. Naganuma, H. Shibata, S. Matsubara, K. Takao, T. Sakoda, Y. Ito, T. Watanabe, Y. |
| author_sort | Akagi, K. |
| collection | NASA Technical Reports Server (NTRS) |
| description | The long-term evolution of the Antarctic ozone hole is studied based on the TOMS data and the JMA data-set of stratospheric temperature in relation with the possible role of polar stratospheric clouds (PSC's). The effective mass of depleted ozone in the ozone hole at its annual mature stage reached a historical maximum of 55 Mt in 1991, 4.3 times larger than in 1981. The ozone depletion rate during 30 days before the mature ozone hole does not show any appreciable long-term trend but the interannual fluctuations do, ranging from 0.169 to 0.689 Mt/day with the average of 0.419 Mt/day for the period of 1979 - 1991. The depleted ozone mass has the highest correlation with the region below 195 K on the 30 mb surface in June, whereas the ozone depletion rate correlates most strongly with that in August. The present result strongly suggests that the long-term evolution of the mature ozone hole is caused both by the interannual change of the latitudinal coverage of the early PSC's, which may control the latitude and date of initiation of ozone decrease, and by that of the spatial coverage of the mature PSC's which may control the ozone depletion rate in the Antarctic spring. |
| format | Other/Unknown Material |
| genre | Antarc* Antarctic |
| genre_facet | Antarc* Antarctic |
| geographic | Antarctic The Antarctic |
| geographic_facet | Antarctic The Antarctic |
| id | ftnasantrs:oai:casi.ntrs.nasa.gov:19950004628 |
| institution | Open Polar |
| language | unknown |
| op_collection_id | ftnasantrs |
| op_coverage | Unclassified, Unlimited, Publicly available |
| op_relation | Document ID: 19950004628 Accession ID: 95N11041 http://hdl.handle.net/2060/19950004628 |
| op_rights | No Copyright |
| op_source | CASI |
| publishDate | 1994 |
| record_format | openpolar |
| spelling | ftnasantrs:oai:casi.ntrs.nasa.gov:19950004628 2025-01-16T19:07:32+00:00 Quantitative characterization of the Antarctic ozone hole Akagi, K. Naganuma, H. Shibata, S. Matsubara, K. Takao, T. Sakoda, Y. Ito, T. Watanabe, Y. Unclassified, Unlimited, Publicly available Apr 1, 1994 application/pdf http://hdl.handle.net/2060/19950004628 unknown Document ID: 19950004628 Accession ID: 95N11041 http://hdl.handle.net/2060/19950004628 No Copyright CASI ENVIRONMENT POLLUTION NASA. Goddard Space Flight Center, Ozone in the Troposphere and Stratosphere, Part 2; p 582-585 1994 ftnasantrs 2015-03-15T03:40:15Z The long-term evolution of the Antarctic ozone hole is studied based on the TOMS data and the JMA data-set of stratospheric temperature in relation with the possible role of polar stratospheric clouds (PSC's). The effective mass of depleted ozone in the ozone hole at its annual mature stage reached a historical maximum of 55 Mt in 1991, 4.3 times larger than in 1981. The ozone depletion rate during 30 days before the mature ozone hole does not show any appreciable long-term trend but the interannual fluctuations do, ranging from 0.169 to 0.689 Mt/day with the average of 0.419 Mt/day for the period of 1979 - 1991. The depleted ozone mass has the highest correlation with the region below 195 K on the 30 mb surface in June, whereas the ozone depletion rate correlates most strongly with that in August. The present result strongly suggests that the long-term evolution of the mature ozone hole is caused both by the interannual change of the latitudinal coverage of the early PSC's, which may control the latitude and date of initiation of ozone decrease, and by that of the spatial coverage of the mature PSC's which may control the ozone depletion rate in the Antarctic spring. Other/Unknown Material Antarc* Antarctic NASA Technical Reports Server (NTRS) Antarctic The Antarctic |
| spellingShingle | ENVIRONMENT POLLUTION Akagi, K. Naganuma, H. Shibata, S. Matsubara, K. Takao, T. Sakoda, Y. Ito, T. Watanabe, Y. Quantitative characterization of the Antarctic ozone hole |
| title | Quantitative characterization of the Antarctic ozone hole |
| title_full | Quantitative characterization of the Antarctic ozone hole |
| title_fullStr | Quantitative characterization of the Antarctic ozone hole |
| title_full_unstemmed | Quantitative characterization of the Antarctic ozone hole |
| title_short | Quantitative characterization of the Antarctic ozone hole |
| title_sort | quantitative characterization of the antarctic ozone hole |
| topic | ENVIRONMENT POLLUTION |
| topic_facet | ENVIRONMENT POLLUTION |
| url | http://hdl.handle.net/2060/19950004628 |