Maximum Cloud Zone Monitoring through INSAT Outgoing Long Wave Radiation (OLR) data

Authors

  • Rahul Sharma Chaudhry Charan Singh University Meerut
  • Shiv Kumar Department of Statistics, J.V. College Baraut-250611
  • R.K. Giri India Meteorological Department, New Delhi-110003
  • Laxmi Pathak India Meteorological Department, New Delhi-110003
  • Ramashray Yadav India Meteorological Department, New Delhi-110003

DOI:

https://doi.org/10.54302/mausam.v75i3.5915

Keywords:

Indian Summer Monsoon, OLR, Meridional propagation, active and break period, INSAT data

Abstract

Scanning radiometers on-board the meteorological satellites measure the radiance in narrow windows within the visible and infra-red spectra. For example, in the case of the INSAT VHRR these windows are 0.55-0.75µ and 10.5-12.5µ respectively. The broad-band outgoing longwave radiation and the planetary albedo are derived indirectly from such window measurements by applying physical and/or statistical algorithms. Geostationary satellite (INSAT-3D/3R) narrowband based OLR observations offer the significant advantage of an instantaneous response to surface temperature changes and played an important role in Indian Monsoon activity.

It has been shown that Indian Summer Monsoon (ISM) phases starting from onset, active and withdrawal are associated with the development of a Maximum Cloud Zone (MCZ) near the equatorial belt and its northward propagation. The alterations or oscillations between onset, active, break periods of the ISM can easily be monitored through meridionally propagating cloud bands as 30 to 50 days periodicity.  Localized weather events also affect the periodicity of these MCZ every year differently. These varying periodicities and their amplitude peaks (30 days, 40 days, 20, days 8 days or lower) of OLR propagation/amplification modes during monsoon season were attributed to evolution and distribution of monsoon elements, like low level jet, Tibetan High, Mascarine High, Cross equatorial flow and dry and moist static stability and their cooperative interaction with lower troposphere over India.

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Published

01-07-2024

How to Cite

[1]
R. Sharma, S. Kumar, R. . Giri, L. Pathak, and R. . Yadav, “Maximum Cloud Zone Monitoring through INSAT Outgoing Long Wave Radiation (OLR) data”, MAUSAM, vol. 75, no. 3, pp. 851–862, Jul. 2024.

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Section

Research Papers

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