IMD predicts above normal temperature in 2017 summer
India Meteorological Department (IMD) has forecasted above normal temperature in most parts of the country during 2017 summer season. The predictions were given by Indian Institute of Tropical Meteorology in Pune.
The maximum temperatures in March to May 2017 are likely to be warmer by more than 1°C in north, northwest and parts of central India. In other parts, maximum temperature will be between 0.5 to 1°C more than the normal.
- Punjab, Haryana, Delhi, Uttar Pradesh, Bihar, Jharkhand, West Bengal, Gujarat, Madhya Pradesh, Chhattisgarh, Odisha and Telangana will see warmer temperatures along with hill states J&K and Himachal Pradesh.
- The warmer summer forecast is in line with a generally warmer trend over previous months as the year 2016 was the warmest year in a century.
- The forecast shows a 47% probability of summer temperatures being above normal. It also mentions that there will increase in the frequency and duration of heat waves across the country.
- Minimum temperature in the season will also be higher by over a degree celcius in northern plains along with northwest India.
- Peninsular, northeastern and west central parts of the country will also experience minimum temperatures higher by 0.5°C to 1°C than normal.
- The rise in temperature can be attributed to increasing trends in the greenhouse gases and the warming of the sea surface temperatures over the equatorial Indian and Pacific Oceans.
- El Nino Southern Oscillation (ENSO) is expected to be in a neutral condition during summer months, thus unlikely to influence the temperatures in India.
About India Meteorological Department (IMD)
- IMD also referred to as the Met Department is the principal agency responsible for meteorological observations, weather forecasting and seismology in India.
- It functions under the Union Ministry of Earth Sciences of the Government of India. It headquartered in New Delhi and operates hundreds of observation stations across India.
Categories: Environment & Biodiversity