Abstract
In the present study, the observed variability of monsoon droughts over India has been examined using a drought monitoring index, namely the Standardized Precipitation Evapo-transpiration Index (SPEI). For calculating the SPEI over different time periods, long term (1901–2010), high resolution, monthly gridded temperature and rainfall data sets have been used. The drought time series shows significant interannual, decadal and long term trends. The analysis suggests a general increase in the intensity and percent area affected by moderate droughts during the recent decades. In particular, the frequency of multi-year (24 months) droughts has shown a statistically significant increase, which is attributed to increase in surface air temperatures and thus drying of the atmosphere. The wavelet analysis of SPEI suggests significant spectral peaks at quasi-biennial (2–3 years), ENSO (5–7 years) and decadal (10–16 years) time scales, with significant multi-decadal variations. The variability of monsoon droughts over India is significantly influenced by the tropical sea surface temperature anomalies. The Canonical correlation analysis (CCA) suggests that the major portion of the drought variability is influenced by the El Nino/Southern Oscillation (ENSO). Global warming, especially the warming of the equatorial Indian Ocean represents the second coupled mode and is responsible for the observed increase in intensity of droughts during the recent decades.
Highlights
In the present study, the observed variability of monsoon droughts over India has been examined using a drought monitoring index, namely the Standardized Precipitation Evapo-transpiration Index (SPEI)
The objective of the present study is to examine the variability of monsoon droughts over India using a long term data set of 1901–2010 using the SPEI as the drought index
The drought index, Standardized Precipitation–Evapotranspiration Index (SPEI) considers both the effects of temperature and precipitation and it can represent the multi-scalar characteristic of monsoon droughts
Summary
The observed variability of monsoon droughts over India has been examined using a drought monitoring index, namely the Standardized Precipitation Evapo-transpiration Index (SPEI). The analysis suggests a general increase in the intensity and percent area affected by moderate droughts during the recent decades. Pai et al (2011) examined district-wide drought climatology over India for the southwest monsoon season (June–September) using two simple drought indices; Percent of Normal Precipitation (PNP) and Standardized Precipitation Index (SPI). A short period of particular dryness may be embedded within a long-term drought. In this case, multiscalar refers to numerous temporal periods which may or may not overlap (Vicente-Serrano et al, 2010a). The response of various hydrological systems (including soil moisture) to precipitation can vary markedly as a function of time
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