The relationship between moisture in the low level of the troposphere and seasonal precipitation over Iran

The relationship between moisture in the low level of the troposphere and seasonal precipitation over Iran

Abstract This paper investigates the relationship between seasonal precipitation over Iran and low‐level moisture, in terms of vertically integrated specific humidity (VISH) from the surface to 850 hPa. The VISH is calculated from ERA5 data for the domain (10°N–60°N, 15°E–80°E), and the precipitatio...

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Bibliographic Details
Main Authors: Hasan Nuroozi, Amin Shirvani, Mathew Barlow
Format: Article
Language:English
Published: Wiley 2025-03-01
Series:Meteorological Applications
Subjects:
CCA
Iran
low‐level moisture
seasonal precipitation
Online Access:https://doi.org/10.1002/met.70033
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Summary:Abstract This paper investigates the relationship between seasonal precipitation over Iran and low‐level moisture, in terms of vertically integrated specific humidity (VISH) from the surface to 850 hPa. The VISH is calculated from ERA5 data for the domain (10°N–60°N, 15°E–80°E), and the precipitation is calculated from 50 stations across Iran, both for the period 1968–2023. Canonical correlation analysis (CCA) is applied to examine the spatial–temporal relationship between seasonal averages of moisture and precipitation during January–March (JFM), April–Jun (AMJ), and October–December (OND). VISH and precipitation are considered as the simultaneous predictor and predictand fields in the CCA, respectively. The CCA time series are correlated to global sea surface temperatures to assess the connections to large‐scale, potentially predictable modes of variability. The CCA spatial patterns indicate that there is a strong relationship between low‐level moisture and seasonal precipitation, with VISH over the Persian Gulf, Oman Sea, Arabian Sea, and Red Sea positively correlated with precipitation over most areas of Iran, while VISH over the Caspian Sea and Black is negatively correlated. Generally, these relationships are notably low over northwestern areas of Iran and the coastal regions of the Caspian Sea and the prediction skill of CCA remains limited over these regions. In OND, the leading CCA time series exhibits the well‐known connection to the El Niño–Southern Oscillation (ENSO). However, the highest CCA skill is found for JFM precipitation, which does not exhibit an ENSO connection, and so may present an additional source of skill.
ISSN:1350-4827
1469-8080

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