Early summer surface air temperature variability over Pakistan and the role of El Niño–Southern Oscillation teleconnections

• Published in: International journal of climatology Vol. 42; no. 11; pp. 5768 - 5784
• Main Authors: Rashid, Irfan Ur, Abid, Muhammad Adnan, Almazroui, Mansour, Kucharski, Fred, Hanif, Muhammad, Ali, Shaukat, Ismail, Muhammad
• Format: Journal Article
• Language: English
• Published: Chichester, UK John Wiley & Sons, Ltd 01.09.2022; Wiley Subscription Services, Inc
• Subjects: Air temperature; Anomalies; Anticyclonic circulation; Circulation anomalies; Clear sky; Climate models; Cloud cover; Cloudiness; Dynamic height; early summer; El Nino; El Nino phenomena; El Nino-Southern Oscillation event; ENSO; Extreme values; Geopotential; Geopotential height; Global climate; Global climate models; Hadley circulation; Heat waves; Heatwaves; Height anomalies; Pakistan; Radiation; Sea surface; Sea surface temperature anomalies; Seasonal variations; Short wave radiation; Southern Oscillation; Summer; surface air temperature; Surface temperature; Surface-air temperature relationships; Temperature; Temperature extremes; Temperature variability; Variability; Walker circulation; Pakistan
• ISSN: 0899-8418; 1097-0088
• DOI: 10.1002/joc.7560

Early summer (May–June) is the season where the surface air temperature (SAT) variability is largest and may result in extreme temperature conditions over Pakistan. Therefore, we analysed the early summer interannual SAT variability over Pakistan for the period 1981–2018 using observational dataset and model simulations. We noted that upper‐level anticyclonic circulation anomalies over Pakistan, which are associated with upper to the middle tropospheric descending motion, favour clear skies with an increase in net shortwave radiation that leads to extreme surface warming over the region. Moreover, the El Niño–Southern Oscillation (ENSO) based on Niño3.4 SST index is negatively associated with SAT anomalies over Pakistan. The cold ENSO phase favours the positive geopotential height anomalies due to the strengthening of the Walker circulation that enhance the sinking motion and result in less cloudiness leading to the extreme higher surface temperature conditions over Pakistan, while the opposite happens in the warm ENSO phase. Moreover, the Saudi‐KAU Atmospheric Global Climate Model (AGCM) simulated large‐scale patterns that are in good agreement with the observations. Sensitivity experiments with the AGCM confirm that cold SST anomalies in the ENSO region significantly favour above‐normal SAT anomalies over Pakistan, while the opposite happens in the warm ENSO phase. These results are important to understand and potentially predict regional heatwaves over the South Asian region, particularly over Pakistan. Early summer surface air temperature (SAT) over Pakistan is modulated by the upper‐level positive geopotential height anomalies. ENSO is negatively associated with SAT over Pakistan and favours higher temperatures during its La Niña phase.