Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics
Winter orographic precipitation over the Andes between 30° and 37°S is examined using precipitation gauges in the mountains and adjacent lowlands. Because of the limited number of precipitation gauges, this paper focuses on the large-scale variation in cross-barrier precipitation and does not take i...
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2011
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| Acceso en línea: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1525755X_v12_n4_p481_Viale http://hdl.handle.net/20.500.12110/paper_1525755X_v12_n4_p481_Viale |
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paper:paper_1525755X_v12_n4_p481_Viale2023-06-08T16:19:33Z Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics Climatology Orographic effects Precipitation Regional effects Subtropics, Synoptic-scale processes Winter/cool season airflow atmospheric moisture baroclinic motion climatology moisture flux orographic effect precipitation (climatology) raingauge subtropical region tropical cyclone water vapor winter Andes Pacific Ocean Winter orographic precipitation over the Andes between 30° and 37°S is examined using precipitation gauges in the mountains and adjacent lowlands. Because of the limited number of precipitation gauges, this paper focuses on the large-scale variation in cross-barrier precipitation and does not take into account the fine ridge-valley scale. The maximum amount of precipitation was observed on the windward slope of the mountain range below the crest, which was twice that observed on the low-windward side between 32.5° and 34°S. Toward the east of the crest, precipitation amounts drop sharply, generating a strong cross-barrier gradient. The rain shadow effect is greater in the north (32°-34.5°S) than in the south (35°-36.5°S) of the low-lee side, which is probably due to more baroclinic activity in southernmost latitudes and a southward decrease in the height of the Andes enabling more spill over precipitation. The effect of the Andes on winter precipitation is so marked that it modifies the precipitation regimes in the adjacent windward and leeward lowlands north of 35°S. Based on the fact that ~75% of the wintertime precipitation accumulated in the fourth quartile, through four or five heavy events on average, the synoptic-scale patterns of the heavy (into fourth quartile) orographic precipitation events were identified. Heavy events are strongly related to strong water vapor transport from the Pacific Ocean in the pre-cold-front environment of extratropical cyclones, which would have the form of atmospheric rivers as depicted in the reanalysis and rawinsonde data. The composite fields revealed a marked difference between two subgroups of heavy precipitation events. The extreme (100th-95th percentiles) events are associated with deeper cyclones than those for intense (95th-75th percentiles) events. These deeper cyclones lead to much stronger plumes of water vapor content and cross-barrier moisture flux against the high Andes, resulting in heavier orographic precipitation for extreme events. In addition, regional airflow characteristics suggest that the low-level flow is typically blocked and diverted poleward in the form of an along-barrier jet. On the lee side, downslope flow dominates during heavy events, producing prominent rain shadow effects as denoted by the domain of downslope winds extending to low-leeward side (i.e., zonda wind). © 2011 American Meteorological Society. 2011 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1525755X_v12_n4_p481_Viale http://hdl.handle.net/20.500.12110/paper_1525755X_v12_n4_p481_Viale |
| institution |
Universidad de Buenos Aires |
| institution_str |
I-28 |
| repository_str |
R-134 |
| collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
Climatology Orographic effects Precipitation Regional effects Subtropics, Synoptic-scale processes Winter/cool season airflow atmospheric moisture baroclinic motion climatology moisture flux orographic effect precipitation (climatology) raingauge subtropical region tropical cyclone water vapor winter Andes Pacific Ocean |
| spellingShingle |
Climatology Orographic effects Precipitation Regional effects Subtropics, Synoptic-scale processes Winter/cool season airflow atmospheric moisture baroclinic motion climatology moisture flux orographic effect precipitation (climatology) raingauge subtropical region tropical cyclone water vapor winter Andes Pacific Ocean Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics |
| topic_facet |
Climatology Orographic effects Precipitation Regional effects Subtropics, Synoptic-scale processes Winter/cool season airflow atmospheric moisture baroclinic motion climatology moisture flux orographic effect precipitation (climatology) raingauge subtropical region tropical cyclone water vapor winter Andes Pacific Ocean |
| description |
Winter orographic precipitation over the Andes between 30° and 37°S is examined using precipitation gauges in the mountains and adjacent lowlands. Because of the limited number of precipitation gauges, this paper focuses on the large-scale variation in cross-barrier precipitation and does not take into account the fine ridge-valley scale. The maximum amount of precipitation was observed on the windward slope of the mountain range below the crest, which was twice that observed on the low-windward side between 32.5° and 34°S. Toward the east of the crest, precipitation amounts drop sharply, generating a strong cross-barrier gradient. The rain shadow effect is greater in the north (32°-34.5°S) than in the south (35°-36.5°S) of the low-lee side, which is probably due to more baroclinic activity in southernmost latitudes and a southward decrease in the height of the Andes enabling more spill over precipitation. The effect of the Andes on winter precipitation is so marked that it modifies the precipitation regimes in the adjacent windward and leeward lowlands north of 35°S. Based on the fact that ~75% of the wintertime precipitation accumulated in the fourth quartile, through four or five heavy events on average, the synoptic-scale patterns of the heavy (into fourth quartile) orographic precipitation events were identified. Heavy events are strongly related to strong water vapor transport from the Pacific Ocean in the pre-cold-front environment of extratropical cyclones, which would have the form of atmospheric rivers as depicted in the reanalysis and rawinsonde data. The composite fields revealed a marked difference between two subgroups of heavy precipitation events. The extreme (100th-95th percentiles) events are associated with deeper cyclones than those for intense (95th-75th percentiles) events. These deeper cyclones lead to much stronger plumes of water vapor content and cross-barrier moisture flux against the high Andes, resulting in heavier orographic precipitation for extreme events. In addition, regional airflow characteristics suggest that the low-level flow is typically blocked and diverted poleward in the form of an along-barrier jet. On the lee side, downslope flow dominates during heavy events, producing prominent rain shadow effects as denoted by the domain of downslope winds extending to low-leeward side (i.e., zonda wind). © 2011 American Meteorological Society. |
| title |
Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics |
| title_short |
Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics |
| title_full |
Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics |
| title_fullStr |
Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics |
| title_full_unstemmed |
Climatology of winter orographic precipitation over the subtropical central Andes and associated synoptic and regional characteristics |
| title_sort |
climatology of winter orographic precipitation over the subtropical central andes and associated synoptic and regional characteristics |
| publishDate |
2011 |
| url |
https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_1525755X_v12_n4_p481_Viale http://hdl.handle.net/20.500.12110/paper_1525755X_v12_n4_p481_Viale |
| _version_ |
1768542661881364480 |