Title of article
Pollution and dust aerosols modulating tropical cyclones intensities
Author/Authors
Rosenfeld، نويسنده , , Daniel and Clavner، نويسنده , , Michal and Nirel، نويسنده , , Ronit، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
11
From page
66
To page
76
Abstract
Tropical cyclones (TC) are propelled mostly by realization of latent heat that is stored in vapor coming off warm sea surfaces. The heating occurs when the vapor condenses into cloud drops. Re-evaporation of the cloud water takes back the released heat, whereas precipitation of the water as rain fixates the heat in the air. Therefore, it is expected that TC intensities would be sensitive to precipitation forming processes that affect the amount and distribution of latent heat release. This has been simulated by numerical models, which showed that cloud condensation nuclei (CCN) aerosols weaken the storms apparently by slowing the conversion of cloud drops into precipitation. If so, we should expect that storm predictions that do not take this aerosol effect into account would over-predict TC intensities. Here we show that increased aerosols quantities in a TC periphery can explain about 8% of the forecast errors of the TC. Indeed, actual intensities of polluted TCs were found to be on average lower than their predicted values, providing supporting observational evidence to the hypothesis. It was also found that TC intensity might be more susceptible to the impacts of aerosols during their developing stages and less in the TC mature and dissipating stages.
Keywords
Tropical cyclone , Hurricane Prediction , Cloud-aerosols , Cloud Seeding , Hurricane mitigation
Journal title
Atmospheric Research
Serial Year
2011
Journal title
Atmospheric Research
Record number
2247258
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