Fluctuating temperatures raise climate concerns in Gujarat
Ahmedabad witnessed an unseasonably warm night on Tuesday, with the minimum temperature settling at 17.4°C—4 degrees above the normal seasonal average. The maximum temperature remained stable at 29.4°C, aligning closely with expected levels. However, meteorologists predict a shift in conditions, with the minimum temperature expected to drop to around 14°C on Wednesday. This fluctuation is attributed to the dissipation of cyclonic circulation over southern Rajasthan, allowing northwesterly to northerly winds to resume dominance. The India Meteorological Department (IMD) has forecast a sharp dip in night temperatures, followed by a gradual rise of 2-3°C in the coming days.
The sudden deviation from normal winter patterns has raised concerns about broader climatic changes affecting the region. Historically, Ahmedabad experiences steady cooling in early February, but recent years have seen erratic temperature variations. This year’s higher-than-average minimum temperature reflects a broader trend of warming winters, impacting not only weather patterns but also energy consumption and public health. Meanwhile, cold wave conditions continue in certain parts of Gujarat, with Naliya recording the lowest minimum temperature at 9.6°C, followed by Keshod at 14.1°C and Mahuva at 14.6°C. These stark variations highlight the increasing unpredictability of regional climate trends.
From a sustainability perspective, the erratic winter temperatures signal deeper concerns about urban heat retention and its long-term impact on Ahmedabad’s climate resilience. The city’s growing concrete landscape contributes significantly to the urban heat island effect, leading to prolonged warmth even during winter months. Without adequate green cover and sustainable urban planning measures, such temperature anomalies may become more frequent, affecting overall environmental balance. Experts emphasise the need for increased afforestation, heat mitigation strategies, and energy-efficient building designs to counteract rising temperatures in urban areas.
Beyond the climate angle, this temperature fluctuation also carries civic implications, particularly in the areas of health and infrastructure. Warmer nights during winter can influence public health, leading to higher incidences of seasonal illnesses such as respiratory infections and viral fevers. Additionally, the fluctuating temperature impacts demand for energy, as erratic weather patterns lead to inconsistent heating and cooling needs. The city’s weather patterns, combined with broader climate shifts, call for better preparedness and mitigation strategies to ensure sustainable urban living and climate resilience in the years ahead.
