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Australian Northwest Cloudbands and Their Relationship to Atmospheric Rivers and Precipitation

Black, Amanda S. ; Risbey, James S. ; Chapman, Christopher C. ; [et al.]

American Meteorological Society ; 2021

In: Monthly Weather Review Vol. 149, No. 4 ( 2021-04), p. 1125-1139

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In: Monthly Weather Review, American Meteorological Society, Vol. 149, No. 4 ( 2021-04), p. 1125-1139

Abstract: Large-scale cloud features referred to as cloudbands are known to be related to widespread and heavy rain via the transport of tropical heat and moisture to higher latitudes. The Australian northwest cloudband is such a feature that has been identified in simple searches of satellite imagery but with limited investigation of its atmospheric dynamical support. An accurate, long-term climatology of northwest cloudbands is key to robustly assessing these events. A dynamically based search algorithm has been developed that is guided by the presence and orientation of the subtropical jet stream. This jet stream is the large-scale atmospheric feature that determines the development and alignment of a cloudband. Using a new 40-yr dataset of cloudband events compiled by this search algorithm, composite atmospheric and ocean surface conditions over the period 1979–2018 have been assessed. Composite cloudband upper-level flow revealed a tilted low pressure trough embedded in a Rossby wave train. Composites of vertically integrated water vapor transport centered around the jet maximum during northwest cloudband events reveal a distinct atmospheric river supplying tropical moisture for cloudband rainfall. Parcel backtracking indicated multiple regions of moisture support for cloudbands. A thermal wind anomaly orientated with respect to an enhanced sea surface temperature gradient over the Indian Ocean was also a key composite cloudband feature. A total of 300 years of a freely coupled control simulation of the ACCESS-D system was assessed for its ability to simulate northwest cloudbands. Composite analysis of model cloudbands compared reasonably well to reanalysis despite some differences in seasonality and frequency of occurrence.

Type of Medium: Online Resource

ISSN: 0027-0644 , 1520-0493

URL: Article

DOI: 10.1175/MWR-D-20-0308.1

DOI: 10.1175/MWR-D-20-0308.s1

RVK:

RA 1000

Language: Unknown

Publisher: American Meteorological Society

Publication Date: 2021

detail.hit.zdb_id: 2033056-X

detail.hit.zdb_id: 202616-8

SSG: 14

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The identification of long-lived Southern Hemisphere flow events using archetypes and principal components

Risbey, James S. ; Monselesan, Didier P. ; Black, Amanda S. ; [et al.]

American Meteorological Society ; 2021

In: Monthly Weather Review ( 2021-04-12)

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In: Monthly Weather Review, American Meteorological Society, ( 2021-04-12)

Abstract: From time to time atmospheric flows become organized and form coherent long-lived structures. Such structures could be propagating, quasi-stationary, or recur in place. We investigate the ability of Principal Components Analysis (PCA) and Archetypal Analysis (AA) to identify long-lived events, excluding propagating forms. Our analysis is carried out on the Southern Hemisphere mid-tropospheric flow represented by geopotential height at 500hPa ( Z 500 ). The leading basis patterns of Z 500 for PCA and AA are similar and describe structures representing (or similar to) the Southern Annular Mode (SAM) and Pacific South American (PSA) pattern. Long-lived events are identified here from sequences of 8 days or longer where the same basis pattern dominates for PCA or AA. AA identifies more long-lived events than PCA using this approach. The most commonly occurring long-lived event for both AA and PCA is the annular SAM-like pattern. The second most commonly occurring event is the PSA-like Pacific wavetrain for both AA and PCA. For AA the flow at any given time is approximated as weighted contributions from each basis pattern, which lends itself to metrics for discriminating among basis patterns. These show that the longest long-lived events are in general better expressed than shorter events. Case studies of long-lived events featuring a blocking structure and an annular structure show that both PCA and AA can identify and discriminate the dominant basis pattern that most closely resembles the flow event.

Type of Medium: Online Resource

ISSN: 0027-0644 , 1520-0493

URL: Article

DOI: 10.1175/MWR-D-20-0314.1

RVK:

RA 1000

Language: Unknown

Publisher: American Meteorological Society

Publication Date: 2021

detail.hit.zdb_id: 2033056-X

detail.hit.zdb_id: 202616-8

SSG: 14

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The Relationship between Wave Trains in the Southern Hemisphere Storm Track and Rainfall Extremes over Tasmania

Tozer, Carly R. ; Risbey, James S. ; O’Kane, Terence J. ; [et al.]

American Meteorological Society ; 2018

In: Monthly Weather Review Vol. 146, No. 12 ( 2018-12-01), p. 4201-4230

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In: Monthly Weather Review, American Meteorological Society, Vol. 146, No. 12 ( 2018-12-01), p. 4201-4230

Abstract: We assess the large-scale atmospheric dynamics influencing rainfall extremes in Tasmania, located within the Southern Hemisphere storm track. We characterize wet and dry multiday rainfall extremes in western and eastern Tasmania, two distinct climate regimes, and construct atmospheric flow composites around these extreme events. We consider the onset and decay of the events and find a link between Rossby wave trains propagating in the polar jet waveguide and wet and dry extremes across Tasmania. Of note is that the wave trains exhibit varying behavior during the different extremes. In the onset phase of rainfall extremes in western Tasmania, there is a coherent wave train in the Indian Ocean, which becomes circumglobal in extent and quasi-stationary as the event establishes and persists. Wet and dry extremes in this region are influenced by opposite phases of this circumglobal wave train pattern. In eastern Tasmania, wet extremes relate to a propagating wave train, which is first established in the Indian Ocean sector and propagates eastward to the Pacific Ocean sector as the event progresses. During dry extremes in eastern Tasmania, the wave train is first established in the Pacific Ocean, as opposed to Indian Ocean, and persists in this sector for the entire event, with a structure indicative of the Pacific–South American pattern. The findings regarding different wave train forms and their relationship to rainfall extremes have implications for extreme event attribution in other regions around the globe.

Type of Medium: Online Resource

ISSN: 0027-0644 , 1520-0493

URL: Article

DOI: 10.1175/MWR-D-18-0135.1

RVK:

RA 1000

Language: English

Publisher: American Meteorological Society

Publication Date: 2018

detail.hit.zdb_id: 2033056-X

detail.hit.zdb_id: 202616-8

SSG: 14

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A Multiscale Reexamination of the Pacific–South American Pattern

O’Kane, Terence J. ; Monselesan, Didier P. ; Risbey, James S.

American Meteorological Society ; 2017

In: Monthly Weather Review Vol. 145, No. 1 ( 2017-01-01), p. 379-402

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In: Monthly Weather Review, American Meteorological Society, Vol. 145, No. 1 ( 2017-01-01), p. 379-402

Abstract: The authors undertake a multiscale spectral reexamination of the variability of the Pacific–South American (PSA) pattern and the mechanisms by which this variability occurs. Time scales from synoptic to interannual are investigated, focusing on the means by which tropical variability is communicated to the midlatitudes and on in situ forcing within the midlatitude waveguides. Particular interest is paid to what fraction of the total variability associated with the PSA, occurring on interannual time scales, is attributable to tropical forcing relative to that occurring on synoptic and intraseasonal time scales via internal waveguide dynamics. In general, it is found that the eastward-propagating wave train pattern typically associated with the PSA manifests across time scales from synoptic to interannual, with the majority of the variability occurring on synoptic-to-intraseasonal time scales largely independent of tropical convection. It is found that the small fraction of the total variance with a tropical signal occurs via the zonal component of the thermal wind modulating both the subtropical and polar jets. The respective roles of the Hadley circulation and stationary Rossby wave sources are also examined. Further, a PSA-like mode is identified in terms of the slow components of higher-order modes of tropospheric geopotential height. This study reestablishes the multiscale nonlinear nature of the PSA modes arising largely as a manifestation of internal midlatitude waveguide dynamics and local disturbances.

Type of Medium: Online Resource

ISSN: 0027-0644 , 1520-0493

URL: Article

DOI: 10.1175/MWR-D-16-0291.1

RVK:

RA 1000

Language: English

Publisher: American Meteorological Society

Publication Date: 2017

detail.hit.zdb_id: 2033056-X

detail.hit.zdb_id: 202616-8

SSG: 14

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