How interactions between tropical depressions and western disturbances affect heavy precipitation in South Asia

Hunt, Kieran M. R.; Turner, Andrew; Schiemann, R.

doi:10.1175/mwr-d-20-0373.1

Cited by 13 publications

(14 citation statements)

References 92 publications

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“…Interactions between tropical lows and extratropical troughs (Hong et al ., 2011; Vellore et al ., 2015; Houze et al ., 2017) are crucial for monsoonal precipitation in the WH. The intensity of the precipitation changes with the type of tropical and extratropical interactions (Hunt et al ., 2021). In M2 and M3, low‐level cyclonic circulations are strengthened by their interaction with subtropical trough.…”

Section: Resultsmentioning

confidence: 99%

Dynamical and thermodynamical interactions in daily precipitation regimes in the Western Himalayas

Battula

Siems

Mondal

2022

Intl Journal of Climatology

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The mechanisms by which moisture interacts with the Himalayas largely determine the amount of precipitation in Himalayan basins. While many recent studies have focused on mechanisms of independent precipitation events, climatological studies that are essential for a complete understanding of precipitation-generating mechanisms are limited. This work presents synoptic regimes, which produced precipitation across all seasons in the Western Himalayas (WH) from 2000 to 2018. Using the k-means clustering algorithm, seven clusters are employed to define relatively mild, moderate and wet regimes, showing distinct seasonality and a synoptic meteorology. We found positive precipitation anomalies at lower elevations in monsoonal regimes (M1, M2 and M3) but at higher elevations in winter (W1 and W2) and transitional regimes (T1 and T2). Moist monsoonal regimes are associated with dynamical interactions between low-level tropical cyclonic circulations and mid-level subtropical troughs. Synchronous primary and secondary cyclonic circulations facilitate tropical moisture influx and obstruct the further northward movement of cyclonic circulations, which results in large magnitudes of precipitation at lower elevations in monsoonal regimes. On the other hand, winter regimes exhibit intense western disturbances, which enable orographic ascent of tropical moisture towards higher elevations. Despite weaker dynamical interactions, a stronger thermodynamical instability and a steeper terrain gradient trigger deep convection at higher elevations in transitional regimes.Overall, monsoonal regimes account for 52% of rainy days, whereas winter and transitional regimes account for 20 and 28%, respectively. We present a methodology that identifies hotspots of anomalous precipitation over vulnerable higher elevations by tracking atmospheric variables in Delhi. Our results illustrate the dynamical and thermodynamical interactions responsible for precipitation and highlight the significant contribution from nonmonsoonal regimes to the precipitation across higher elevations in the WH.

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Section: Resultsmentioning

confidence: 99%

Dynamical and thermodynamical interactions in daily precipitation regimes in the Western Himalayas

Battula

Siems

Mondal

2022

Intl Journal of Climatology

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“…2). Such circulation will lead to the generation of ageostrophic vertical velocity, and depending on local factors (like orography and moisture), dramatic intensification can occur over the elevated topographies (Uccellini and Johnson, 1979; Vellore et al ., 2016; Hunt et al ., 2021), leading to extreme precipitation, as a result of a jet streak excitation as shown by Hunt et al . (2021).…”

Section: A Schematic Description Of the Life Cycle Of Extratropical I...mentioning

confidence: 88%

“…Vellore et al (2016) and Hunt et al (2018aHunt et al ( , 2018b, using cluster composite analysis, looked into several extratropical intrusions of western disturbances in a detailed manner and described the presence of monsoon low-pressure systems and western disturbance as a necessary condition for heavy events. Another recent study (Hunt et al, 2021) explained the extreme events in terms of the coexistence of monsoon low-pressure systems and western disturbances. They found that high-intensity precipitation occurs as a result of their interactions, but their analysis uses the perspective of Hanley et al (2001), which assumes the pre-existence of an intense cyclonic storm (with substantial azimuthal eddy flux transfer, EFCs which is a measure of local eddy forcing) co-located with the jet stream and that this storm interacts with the upper-level troughs when the eddy-induced azimuthal flux transfer measured by EFCs cross certain thresholds and provide necessary eddy forcing.…”

Section: Introductionmentioning

confidence: 99%

“…(2018a, 2018b), using cluster composite analysis, looked into several extratropical intrusions of western disturbances in a detailed manner and described the presence of monsoon low‐pressure systems and western disturbance as a necessary condition for heavy events. Another recent study (Hunt et al ., 2021) explained the extreme events in terms of the coexistence of monsoon low‐pressure systems and western disturbances. They found that high‐intensity precipitation occurs as a result of their interactions, but their analysis uses the perspective of Hanley et al .…”

Section: Introductionmentioning

confidence: 99%

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Eddy transport, wave–mean flow interaction, and Eddy forcing during the 2013 Uttarakhand extreme event in the reanalysis and S2S retrospective forecast data

Kalshetti

Chattopadhyay

Hunt

et al. 2022

Intl Journal of Climatology

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“…Khidher, S. A., & Pilesjö, P. 2015 [17] studied the North Atlantic Oscillation (NAO) Impact on the Climate of Iraq, they found that rainfall in Iraq rises during the NAO negative phase and falls during the positive phase. Hunt et al 2021 [18] looked at the devastating floods that hit northern India in 2013, they showed that the combination of the upper air trough and the powerful monsoon low-pressure system was principally responsible for the extreme rainfall events. Almazroui et al 2016 [19] studied the link between disturbances at 500 hPa geopotential height and rainfall in Saudi Arabia during the wet season.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of Geopotential Height at 500 hpa with Rainfall Events: A Case Study of Iraq

Jabbar¹,

Hassan

2022

Al-Mustansiriyah Journal of Science

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The geopotential height at 500 hPa is a key factor in determining the weather and climate conditions around the world. This paper aims to study the effect of 500hpa geopotential height in Iraq weather from a synoptic perspective and evaluation the variation at 500hpa geopotential height. On (26-29 January 2013), a case of atmospheric instability affected Iraq, where a heavy amount of rain fell over Iraq on 28 January 2013, the amount of rain that fell on Kirkuk was about (72.2mm). The result showed that when the upper-level trough stretches from Europe towards the Mediterranean, it will enhance surface low pressure. In addition, the advection of moisture from lower latitudes resulted in a situation of instability that brought severe rain to Iraq. during this period the value of geopotential height decreased sharply. The decrease in the value of geopotential height is an indicator of turbulent weather when compared to surrounding regions.

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How interactions between tropical depressions and western disturbances affect heavy precipitation in South Asia

Cited by 13 publications

References 92 publications

Dynamical and thermodynamical interactions in daily precipitation regimes in the Western Himalayas

Dynamical and thermodynamical interactions in daily precipitation regimes in the Western Himalayas

Eddy transport, wave–mean flow interaction, and Eddy forcing during the 2013 Uttarakhand extreme event in the reanalysis and S2S retrospective forecast data

Evaluation of Geopotential Height at 500 hpa with Rainfall Events: A Case Study of Iraq

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