A re -assessment study on the onset and withdrawal dates of Indian northeast monsoon for the decade 2011-20

Authors

  • Y. E. A. Raj
  • B. Amudha

DOI:

https://doi.org/10.54302/mausam.v75i3.6159

Keywords:

Key words: North east monsoon, Onset, Withdrawal, Tamil Nadu, Andhra Pradesh, Superposed epoch analysis, Emprical orthogonal function, Principal component, Heavy rainfall

Abstract

Abstract:  The onset and withdrawal dates of Indian North east monsoon (NEM) over the combined region of Coastal Tamil Nadu (CTN) and South coastal Andhra Pradesh (SCAP) for the 10 year period 2011 -20 have been re -determined based on daily rainfall data of 16 stations by following  an objective criteria. The dates thus derived when appended with past set of dates fixed by following similar methodology  has resulted in a homogenous set of onset and withdrawal dates of NEM for 150 years.  The mean onset / withdrawal dates for 2011-20  has been obtained as 23 October and 31 December respectively. During 2011-20, the  normal NEM withdrawal from the southern  and northern coasts have taken  place on 23 December and 5 January respectively. This characteristic of existence of differential  withdrawal dates which was shown in an earlier study based on 50 year data of 1961-2010, has persisted in 2011-20 as well.

              The superposed epoch analysis conducted on the daily rainfall of the 16 stations has shown  very sharp increase of rainfall at the time of  onset and  decrease after  withdrawal. The daily rainfall has increased from 1-5 mm  to 10-33 mm at onset and has decreased from 4-16 mm to 0-2 mm at withdrawal. The empirical orthogonal function analysis conducted on the pentad rainfall of October-January rainfall of 4 sub regions SCAP, North, Central and South CTN (NCTN, CCTN and SCTN)  has revealed that the first principal component  which could be associated with the overall strength of NEM, explains 78.3% of the variation and that the loadings which are positive for all the regions are  higher in NCTN and CCTN. The second principal component  which explains 12.7 % of variation has  positive loadings in SCAP and NCTN and negative loadings in CCTN and SCTN  associated with opposite type of rainfall anomalies in the two regions. The empirical orthogonal function analysis manifesting such a pattern could be partly associated with  late withdrawal in the south coast compared to north coast.

               An analysis of  the frequencies of heavy/very heavy /extremely heavy rainfall derived for several periods has revealed that there have been 429 heavy rainfall events over 16 stations and 10 years  during October- December. By defining and computing a probability based  heavy rainfall index, it has been  shown  that  frequency of heavy rainfall occurrences commencing from onset date  is 91 for 16 stations and 10 years, which is  19 time more in the onset phase compared to  pre onset phase and that once withdrawal takes  place heavy rainfall occurrence becomes   very rare.   

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Published

01-07-2024

How to Cite

[1]
Y. E. A. . Raj and B. . Amudha, “A re -assessment study on the onset and withdrawal dates of Indian northeast monsoon for the decade 2011-20”, MAUSAM, vol. 75, no. 3, pp. 747–758, Jul. 2024.

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Section

Research Papers

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