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    Circulation Response to Fast and Slow MJO Episodes

    Source: Monthly Weather Review:;2017:;volume( 145 ):;issue: 005::page 1577
    Author:
    Yadav, Priyanka
    ,
    Straus, David M.
    DOI: 10.1175/MWR-D-16-0352.1
    Publisher: American Meteorological Society
    Abstract: ast and slow Madden?Julian oscillation (MJO) episodes have been identified from 850- and 200-hPa zonal wind and outgoing longwave radiation (OLR) for 32 winters (16 October?17 March) 1980/81?2011/12. For 26 fast cases the OLR took no more than 10 days to propagate from phase 3 (convection over the Indian Ocean) to phase 6 (convection over the western Pacific). For 8 slow cases the propagation took at least 20 days. Fast episode composite anomalies of 500-hPa height (Z500) show a developing Rossby wave in the mid-Pacific with downstream propagation through MJO phases 2?4. Changes in the frequency of occurrence of the NAO+ weather regime are modest. This Rossby wave is forced by anomalous cooling over the Maritime Continent during phases 2 and 3 (seen in phase-independent wave activity flux). The upper-level anticyclonic response to phase-3 heating is a secondary source of wave activity. The Z500 slow episode composite response to MJO phases 1 and 2 is an enhanced Aleutian low followed by a North American continental high. Following phase 4 the development of an NAO+ like pattern is seen over the Atlantic, transitioning to a strong NAO? pattern by phase 8. A dramatic increase in frequency of the NAO+ weather regime follows phases 4 and 5, while a strong increase in NAO? regime follows phases 6 and 7. The responses to MJO-related heating and cooling over the Indian and western Pacific Oceans in phases 1?4 provide a source for wave activity propagating to North America, augmented by storm-track anomalies.
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      Circulation Response to Fast and Slow MJO Episodes

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    contributor authorYadav, Priyanka
    contributor authorStraus, David M.
    date accessioned2017-06-09T17:34:34Z
    date available2017-06-09T17:34:34Z
    date copyright2017/05/01
    date issued2017
    identifier issn0027-0644
    identifier otherams-87432.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4231101
    description abstractast and slow Madden?Julian oscillation (MJO) episodes have been identified from 850- and 200-hPa zonal wind and outgoing longwave radiation (OLR) for 32 winters (16 October?17 March) 1980/81?2011/12. For 26 fast cases the OLR took no more than 10 days to propagate from phase 3 (convection over the Indian Ocean) to phase 6 (convection over the western Pacific). For 8 slow cases the propagation took at least 20 days. Fast episode composite anomalies of 500-hPa height (Z500) show a developing Rossby wave in the mid-Pacific with downstream propagation through MJO phases 2?4. Changes in the frequency of occurrence of the NAO+ weather regime are modest. This Rossby wave is forced by anomalous cooling over the Maritime Continent during phases 2 and 3 (seen in phase-independent wave activity flux). The upper-level anticyclonic response to phase-3 heating is a secondary source of wave activity. The Z500 slow episode composite response to MJO phases 1 and 2 is an enhanced Aleutian low followed by a North American continental high. Following phase 4 the development of an NAO+ like pattern is seen over the Atlantic, transitioning to a strong NAO? pattern by phase 8. A dramatic increase in frequency of the NAO+ weather regime follows phases 4 and 5, while a strong increase in NAO? regime follows phases 6 and 7. The responses to MJO-related heating and cooling over the Indian and western Pacific Oceans in phases 1?4 provide a source for wave activity propagating to North America, augmented by storm-track anomalies.
    publisherAmerican Meteorological Society
    titleCirculation Response to Fast and Slow MJO Episodes
    typeJournal Paper
    journal volume145
    journal issue5
    journal titleMonthly Weather Review
    identifier doi10.1175/MWR-D-16-0352.1
    journal fristpage1577
    journal lastpage1596
    treeMonthly Weather Review:;2017:;volume( 145 ):;issue: 005
    contenttypeFulltext
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