Changes in the large‐scale features associated with the Indian summer monsoon in the recent decades

Yadav, Ramesh Kumar

doi:10.1002/joc.1698

Cited by 53 publications

(28 citation statements)

References 39 publications

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“…These wind anomalies are the source of moisture supply over NW India, as they are coming from warm desert land, they can hold more moisture after blowing over north Arabian Sea. Previous study by Yadav (2009a) has shown these relationships between ISMR and Iran surface temperature. The southerlies observed over north Pakistan hinders the intrusion of mid-latitude cold and dry air towards Indian subcontinent favouring excess monsoon over NW India.…”

Section: Relationship Between Nw India Rainfall and Iran Surface Tempsupporting

confidence: 56%

On the relationship between Iran surface temperature and northwest India summer monsoon rainfall

Yadav

2016

Int. J. Climatol.

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This study examines the role of Iran surface temperature in modulating rainfall over northwest (NW) India during summer season spanning from June through September. The analysis is based on trend analysis, correlations and regressions performed using ERA-Interim data and India Meteorological Department rainfall records based on station data from 1979 to 2013. The summer season shows increasing trends in surface temperature and rainfall over Iran and NW India, respectively. The increase of surface temperature over Iran is the consequence of mid-latitude wave train that propagates from the northeastern Atlantic/NW Europe and traverses through Eurasian region to Iran. This increases the geopotential height (GPH) anomaly at upper to middle troposphere over Iran, which increases the tropospheric temperature along the vertical cross-section of atmospheric column with maximum warming at the lower troposphere due to the strong descent at the middle tropospheric level. This increase in surface temperature intensifies the surface low-pressure area over Iran and anomalous cyclonic circulation with northerlies and westerlies over Persian Gulf and north Arabian Sea, respectively. These winds converge towards NW India with abundant of moisture supply, favouring deep convection. The increase of GPH anomaly at upper to middle troposphere over Iran also intensifies the Tibetan High westward, accordingly shifting the monsoon rainfall westward. In most of the cases, it dynamically develops into blocking ridges over East and West Asia and an anomalous high-amplitude mid-latitude trough intrusion into NW India favouring very heavy rainfall events.

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Section: Relationship Between Nw India Rainfall and Iran Surface Tempsupporting

confidence: 56%

On the relationship between Iran surface temperature and northwest India summer monsoon rainfall

Yadav

2016

Int. J. Climatol.

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“…Trenberth et al , ; Alexander et al , ; Deser et al , ). However, the effect of ENSO on SASM has become weaker in the recent decades (Krishna et al , ; Yadav et al , ). Some studies have suggested that the Indian Ocean Dipole (IOD), which has also an influence on SASM (e.g.…”

Section: Introductionmentioning

confidence: 99%

Statistically related coupled modes of South Asian summer monsoon interannual variability in the tropics

Syed

Kucharski

2015

Atmospheric Science Letters

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“…This suggests that the dipole surface temperature and pressure anomalies are strongly associated. This dipole structure generates the anomalous northwesterlies over eastern Saudi Arabia, which further combines with the southwesterlies over the Arabian Sea and intensifies the lower‐level monsoon circulation, consistent with the previous studies of Yadav (, , ).…”

Section: Resultsmentioning

confidence: 99%

“…This study, for the first time, shows how the westward enhancement of the Tibetan High imposes a dipole pressure anomaly between Saudi Arabia and Iran, which intensifies the lower‐level monsoon circulation and moisture supply from the Arabian Sea. The anomalous cyclonic circulation with northerly winds over the Arabian landmass has gained its significance after the late 1970s climate shift (Yadav, , , ). This study is certainly going to improve the current understanding of ISM.…”

Section: Conclusion and Discussionmentioning

confidence: 99%

“…The teleconnections of ISM after the late 1970s have changed due to the major climate shift observed in the Indo-Pacific Ocean (Graham, 1994;Trenberth and Hurrell, 1994;Yadav, 2009a). The El Niño/Southern Oscillation (ENSO)-ISM relationship has changed from the role of east Pacific El Niño (weak teleconnection) to the central Pacific El Niño (strong teleconnection) on the monsoon in this period (Krishna Kumar et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

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Midlatitude Rossby wave modulation of the Indian summer monsoon

Yadav

2017

Quart J Royal Meteoro Soc

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The dominant mode of July–August seasonal variability of Indian summer monsoon rainfall obtained by performing an empirical orthogonal function analysis over India, excluding northeast India, for the period 1979–2014 is highly correlated to the quasi‐stationary midlatitude Eurasian Rossby wave train, known as the ‘Silk Road’ pattern. A new hypothesis has been proposed and tested using observed Indian rainfall and the ERA‐Interim dataset, by which the positive feedback between the midlatitude Rossby wave and the Indian summer monsoon circulation has been established. A Rossby wave train features successive upper‐tropospheric negative and positive geopotential height anomalies over the northeast of the Mediterranean and northwest of India, respectively. The negative height anomaly decreases the sum of the vertical integral of potential and internal energy, while this increases in the region of positive geopotential height anomalies. This is associated with middle to lower tropospheric midlatitude descent and ascent anomalies at 40°E and 50°E, which cause negative surface temperature anomalies over Syria, Iraq, Jordan and Saudi Arabia, and a positive surface temperature anomaly over Iran, respectively. The negative and positive surface temperature anomalies are associated with positive and negative surface pressure anomalies over Saudi Arabia and Iran, respectively, which generate anomalous northwesterly winds over eastern Saudi Arabia and the Persian Gulf. Further downstream this anomalous northwesterly wind combines with the climatological background cross‐equatorial southwesterly flow in the Arabian Sea. The flow further converges towards central and northwest India. The flow also acts as a source of moisture supply from the warm Arabian Sea and Persian Gulf for the deep convection over the Western Ghats, northwest and central India and hence reinforces active Indian summer monsoon conditions.

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Changes in the large‐scale features associated with the Indian summer monsoon in the recent decades

Cited by 53 publications

References 39 publications

On the relationship between Iran surface temperature and northwest India summer monsoon rainfall

On the relationship between Iran surface temperature and northwest India summer monsoon rainfall

Statistically related coupled modes of South Asian summer monsoon interannual variability in the tropics

Midlatitude Rossby wave modulation of the Indian summer monsoon

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