Abstract
Using daily maximum temperature of 103 stations during the hot weather season (April–June or AMJ) for the period 1961–2010 and daily minimum temperature data of 86 stations during the cold weather season (December–February or DJF) for the period 1971–2010 from Indian main land, various statistical aspects of heat waves (HWs) and cold waves (CWs) have been examined. The trends in the season frequency of these extreme temperature events and their association with the El Nino/La Nina events have also been examined. During AMJ, HWs are generally experienced over the north, north-west, central, east India and north-east Peninsula [together called core HW zone (CHZ)] with highest frequency during May. During DJF, the CWs are generally experienced in the core CW zone (CCZ) that is nearly same as CHZ but includes Jammu and Kashmir and excludes coastal Andhra Pradesh with highest frequency during January. Appreciable increase (decrease) in the frequency of the HW days was observed during El Nino (La Nina) events. Exactly opposite association was observed in case of CW days. Appreciable decadal variation was observed in the frequency, spatial coverage and area of maximum frequency both in the HW/SHW and CW/SCW days. Significant increasing (decreasing) trends in the HW (CW) days were observed in many stations from CHZ (CCZ). The observed trends in HWs and CWs over India are in tune with similar trends observed over various other parts of the world. It is desired to have a proper operational service system in the country for the advance warning of the HWs and CWs and proper public information campaigns on the dangers of these extreme temperature events.
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References
Balbus J.M. and Malina C., 2009, Identifying vulnerable subpopulations for climate change health effects in the United States, J. Occup. Environ. Med., pp 51:33–37.
Bedekar, V. C., Dekate, M. V. and Banerajee, A. K., 1974, “Heat and cold waves in India”, Forecasting Manual- Part IV-6, India Meteorological Department
Bedi, H.S. and Parthasarathy, B. 1967: ‘Cold waves over northwest India and neighbourhood’. IJMG Vol. XV1I1 pp. 371-378.
Chaudhury, S.K., Gore, J.M. and Sinha Ray, K. C., 2000: “Impact of heat waves over India”, Current Science, 79(2), 153–155.
Coumou, D. and Rahmstorf, S. 2012: A decade of weather extremes. Nature Climate, Change, DOI: 10.1038/NCLIMATE1452
De, U. S., 2001, “Climate change impact: Regional scenario”, Mausam, 52, 201–212.
De, U.S., Dube, R.K. and Prakasa Rao, G.S.,2005, “Extreme Weather Events over India in the last 100 years”, J. Ind. Geophys. Union, 9,3,173-187.
Donoghue, E.R., Nelson, N., Rudis, G., Sabogal, R.I., Watson, J.T., Huhn, G., and Luber, G., 2003. “Heat-related deaths—Chicago, Illinois, 1996–2001, and the United States, 1979–1999”, Mortality and Morbidity Weekly Report, 52, 610-613.
Easterling, D. R., Meehl, G. A., Parmesan, C., Changnon, S. A., Karl, T. R., and Mearns, L. O., 2000, “Climatological extremes: observations, modeling and impacts”, Science, 28, 2068-2074.
García-Herrera, R., Díaz, J., Trigo, R. M., Luterbacher, J. and Fischer, E. M.,2010 “A Review of the European Summer Heat Wave of 2003”, Critical Reviews in Environmental Science and Technology, 40: 4, 267- 306.
Gilbert, R.O., 1987, Statistical methods for environmental pollution monitoring. Van Nostrand Reinhold, New York.
IPCC, 2013, Summary for Policymakers. In: Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change [Stocker, T.F., D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA.
Meehl, G. A. and Tebaldi, C., 2004. “More intense, more frequent, and longer lasting HWs in the 21st Century”, Science,305,994–997.
Natarajan K K 1964 A note on the hot days of Madras (1875-1963); Indian J. of Meteorol.Geophys. 14 431-436.
Pai, D. S., Thapliyal, V. and Kokate, P. D., 2004, “Decadal variation in the heat and cold waves over India during 1971-2000”, Mausam, 55, 2, 281-292.
Pai, D. S, Nair S.A, Ramanathan A.N., 2013, Long term climatology and trends of heat waves over India during the recent 50 years (1961-2010), Mausam, 64, 4, 585-604
Raghavan, K., 1966, “A climatological study of severe heat waves in India”, Indian J. of Meteorol. Geophys., 17, 581-588.
Raghavan, K., 1967, Climatology of severe cold waves in India, Indian J. Met. Geophys., 18, 1,91-96
Rai Sircar, N.C. and Datar, S.V. 1963: Cold waves in northwest India. Ind. Jo rn. Met. Geophys. Vol. XIV, p. 315.
Subbaramayya, I. and Surya Rao, D. A., 1976, “Heat wave and cold wave days in different states of India”, Indian J. Meteorol. Hydrol. Geophys., 27, 436-440.
WMO/WHO/UNEP, 1996, “In Climate and Human Health”,Kalkstein, L.S., Maunder, W.J., Jendritzky, G. (eds), WMO No. 843, World Meteorological Organization, Geneva.
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Pai, D.S., Srivastava, A.K., Nair, S.A. (2017). Heat and Cold Waves Over India. In: Rajeevan, M., Nayak, S. (eds) Observed Climate Variability and Change over the Indian Region. Springer Geology. Springer, Singapore. https://doi.org/10.1007/978-981-10-2531-0_4
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