Ali Mirzaei scite author profile

This study investigates the El Niño‐Southern Oscillation (ENSO)‐related seasonal variations in precipitation extremes based on the observed daily precipitation dataset of 23 meteorological stations in Malaysia, spanning a period of 46 years from 1966 to 2011. The extreme indices were a subset of the Expert Team for Climate Change Detection and Indices (ETCCDI) that covers the duration, frequency and intensity aspects of precipitation extremes. Seasonal composites of ‘El Niño minus neutral’ and ‘La Niña minus neutral’ years of these indices were computed based on El Niño and La Niña occurrences during the period. The results showed that the ENSO‐related variations in precipitation extremes were generally coherent with the variations in total precipitation. Generally, dry (wet) precipitation extremes tended to enhance during El Niño (La Niña); however, this was dependent on season and location. The El Niño and La Niña influences on precipitation extremes were not entirely linear. While the impacts of El Niño and La Niña were generally opposite for most locations and seasons, there were cases where both exerted in‐phase influences. The impacts were also dependent on the intensity of the event itself. While the El Niño impacts were generally coherent across different intensities, La Niña can have entirely different impacts among different categories. During December–January–February (DJF), strong (moderate) La Niña caused a significant decrease (increase) in wet precipitation extremes over the Peninsular Malaysia. This was related to the broadening (narrowing and westward displacement) of the anomalous cyclonic circulation over the western north Pacific during strong (moderate) La Niña. Hence, the likelihood for widespread flooding over the east coast of the Peninsular Malaysia during DJF increases during moderate but not during strong La Niña events.

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Wave energy potential assessment in the central and southern regions of the South China Sea

Mirzaei

Tangang

Juneng

2015

Renewable Energy

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Wave energy potential along the east coast of Peninsular Malaysia

Mirzaei

Tangang

Juneng

2014

Energy

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Wave climate simulation for southern region of the South China Sea

et al. 2013

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Investigation of correlation of the variations in land subsidence (detected by continuous GPS measurements) and methodological data in the surrounding areas of Lake Urmia

Moghtased-Azar

Mirzaei

Nankali³

et al. 2012

Nonlin. Processes Geophys.

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Abstract. Lake Urmia, a salt lake in the north-west of Iran, plays a valuable role in the environment, wildlife and economy of Iran and the region, but now faces great challenges for survival. The Lake is in immediate and great danger and is rapidly going to become barren desert. As a result, the increasing demands upon groundwater resources due to expanding metropolitan and agricultural areas are a serious challenge in the surrounding regions of Lake Urmia. The continuous GPS measurements around the lake illustrate significant subsidence rate between 2005 and 2009. The objective of this study was to detect and specify the nonlinear correlation of land subsidence and temperature activities in the region from 2005 to 2009. For this purpose, the cross wavelet transform (XWT) was carried out between the two types of time series, namely vertical components of GPS measurements and daily temperature time series. The significant common patterns are illustrated in the high period bands from 180-218 days band (∼ 6-7 months) from

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Ali Mirzaei

Characteristics of precipitation extremes in Malaysia associated with El Niño and La Niña events

Wave energy potential assessment in the central and southern regions of the South China Sea

Wave energy potential along the east coast of Peninsular Malaysia

Wave climate simulation for southern region of the South China Sea

Investigation of correlation of the variations in land subsidence (detected by continuous GPS measurements) and methodological data in the surrounding areas of Lake Urmia

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