Pune Urbanisation Drives Extreme Summer Heat Stress
Pune’s most built-up neighbourhoods are experiencing extreme heat stress on a substantial share of summer days, according to a pioneering on-ground assessment that highlights how rapid urbanisation is reshaping local microclimates and public health risks in India’s burgeoning IT and industrial hub. The field study measured heat exposure using the Wet Bulb Globe Temperature (WBGT) index — a more comprehensive heat stress indicator than standard temperature — revealing stark differences between densely developed zones and greener campus environments.
Conducted from April to May 2024 by scientists from the India Meteorological Department (IMD) in concert with local research institutes, the analysis deployed sensors across three sites representing varied urban fabrics: Fergusson College (highly urbanised core), Agriculture College (moderately built), and the greener Indian Institute of Science Education and Research (IISER) on the city’s periphery. Across nearly half of the peak summer days, the central urban zone recorded conditions categorised as extreme heat stress under the WBGT framework — a threshold associated with significant physiological strain for outdoor workers, commuters and vulnerable populations.The findings underscore a pronounced urban heat island effect: dense construction, impervious surfaces and limited vegetation amplify heat exposure by absorbing and re-radiating solar energy, slowing nighttime cooling and reducing the effectiveness of natural airflow. In contrast, the greener peripheral campus saw fewer extreme heat stress days, though still at levels that raise concerns as city growth accelerates.
This climatic pattern has critical implications for Pune’s urban planning and public health priorities. Extended periods of extreme heat can strain electricity grids during peak cooling demand, elevate health risks — including heat exhaustion and cardiovascular stress — and undermine outdoor work productivity. For informal sector workers and low-income residents who spend extended hours outdoors, these conditions pose disproportionate risks and widen socio-economic inequities.Urban design experts note that heat stress is not just an environmental phenomenon but a marker of unequal infrastructure resilience. Rapid expansion of built-up areas often reduces green cover and forms heat traps, while adjoining transport corridors and construction sites add to radiative heat loading. Pune’s growth trajectory over the past two decades — characterised by sprawling residential complexes, widening road networks and commercial development — mirrors trends documented in satellite-derived land use studies that show a marked increase in impervious surfaces and a corresponding rise in surface temperatures.
The study also highlights peak heat stress hours between early afternoon and mid-day, when human bodies are least able to dissipate heat, and encourages municipal authorities to integrate such data into heat action plans, zoning regulations and building codes. Measures such as expanding urban green cover, deploying reflective roofing, enhancing water bodies and regulating high-density redevelopment can mitigate thermal load in core city areas.Yet researchers caution that the current findings are preliminary, based on a single season of measurements. Longer-term data is needed to quantify how urban expansion interacts with climate variability and to forecast future heat risk under warming climate scenarios.
As Pune’s population and built environment continue to expand, integrating microclimate data into planning and infrastructure design will be essential for safeguarding health, productivity and climate resilience — particularly in communities most exposed to thermal stress.
