Understanding the Rising Threat of Humid Heat in India

India's coastal regions are facing an escalating danger from humid heat, a combination of high temperatures and elevated humidity that severely limits the human body's ability to cool itself. Recent research has pinpointed this phenomenon as potentially the nation's most lethal climate risk, surpassing traditional dry heatwaves in its insidious impact. A groundbreaking study published in February 2026 reveals significant long-term increases in wet-bulb temperatures (WBT)—the key metric for assessing humid heat stress—along India's coastlines from 1981 to 2020. Led by scientists from the India Meteorological Department (IMD) in Pune and Atria University in Bengaluru, the findings underscore how global warming is driving both warmer air and moister conditions, particularly affecting vulnerable communities.

This research, conducted by P. Rohini, M. Rajeevan (Vice-Chancellor at Atria University), C. T. Sabeerali, and O. P. Sreejith, analyzed seasonal daily maximum WBT across four periods: January-March, April-June, July-September, and October-December. The study highlights a persistent warming and moistening trend, with extremes intensifying post-2000, posing profound implications for public health, labor productivity, and urban planning in coastal states.

What is Wet-Bulb Temperature and Why Does it Matter?

Wet-bulb temperature (WBT) measures the lowest temperature achievable by evaporating water into the air at constant pressure, factoring in both heat and humidity. Unlike dry-bulb temperature (standard air temperature), WBT reveals true heat stress because high humidity hinders sweat evaporation, the body's primary cooling mechanism. A WBT above 35°C is often cited as unsurvivable for more than a few hours, even for healthy adults at rest in shade; lower thresholds like 31°C impair strenuous activity.

In India, where outdoor work dominates and air conditioning is a luxury for many, rising WBT narrows safe working hours. The IMD study shows WBT increases driven by rising dry-bulb temperatures and specific humidity, with the east coast experiencing up to 8.3% humidity rise per 1°C warming—higher than the west coast's 6.5%. This dynamic is especially critical during pre-monsoon (April-June) when extremes peak.

Key Findings from the Landmark IMD-Atria University Study

The study utilized NCEP/NCAR reanalysis and IMD datasets to dissect WBT trends. Key statistics include:

• Significant seasonal maximum WBT rises across all coasts, most pronounced on the east coast during April-June.
• Probability density functions reveal a shift toward higher WBT, with intensified extremes post-2000.
• West coast trends mainly from temperature; east coast from both temperature and humidity.
• Global warming attributed as primary driver, amplifying moisture from warming oceans.

These patterns signal year-round escalation, not just summer peaks, challenging conventional heatwave definitions.

Kerala at the Forefront: Why the State's Vulnerability Stands Out

Kerala's southwest coastline exemplifies the crisis, with dense vegetation, urban heat islands, and monsoon influences trapping moisture. Fishers report curtailed workdays—ending by 8-10 AM despite early starts—due to rapid fatigue, dizziness, and skin burning. Elderly fisher Mariyani Miyelpillai (73) and Tarsila Thresya (54) now limit exposure, as sea breezes offer little relief. Recent 2026 heat spells saw felt temperatures exceed 50°C from humidity, even below dry-bulb thresholds, straining vulnerable groups like the elderly and kidney patients.

University of Kerala environmental scientist P. Vijaykumar notes every 1°C global rise boosts atmospheric moisture by ~7%, intensifying Kerala's humid stress. The state's 2024-2026 heat events caused unreported illnesses, highlighting underestimation in official data.

Photo by Artem Beliaikin on Unsplash

Health Impacts: A Silent Killer Beyond Heatstroke

Humid heat exacerbates cardiovascular issues, mental health, and chronic conditions, with symptoms like exhaustion appearing at lower temperatures. India lost 191 billion labor hours to heat in 2022 ($219B, 6.3% GDP), up 54% from 1991-2000. While national heatstroke deaths reach tens of thousands annually (underreported), Kerala's 2026 incidents include UV-heat combos overwhelming hospitals.

Projections warn 30-40% productivity drops by 2100, with WBT extremes nearing survivability limits faster for the ill or active.Read the full IMD study here.

Economic and Productivity Toll on Coastal Communities

Coastal livelihoods—fishing, construction, agriculture—suffer most. Kerala's fishers' shortened days reduce catches, incomes; nationally, heat slashes GDP via lost work. Urban poor in humid cities face compounded risks from poor ventilation.

Adaptation lags, but IMD calls for WBT-based indices.

Role of Indian Universities in Pioneering Climate Research

Atria University Bengaluru, via VC M. Rajeevan's IMD collaborations, leads WBT analysis, advocating coastal-tailored plans. University of Kerala contributes expertise on regional dynamics. Other institutions like IITs model projections, fostering interdisciplinary solutions.Mongabay coverage.

Research centers integrate AI for forecasts, supporting NDMA heat action plans (HAPs).

Government Responses and Heat Action Plans

India's NDMA mandates HAPs; Kerala's includes early warnings, cooling centers, school adjustments. IMD integrates WBT alerts. Challenges: data gaps, humidity oversight. 2026 expansions target coasts.

Photo by Aswin Thomas Bony on Unsplash

• Real-time WBT monitoring.
• Public awareness on heat index.
• Labor shifts, hydration drives.

Innovative Adaptation Strategies from Research

Universities propose: urban greening, cool roofs, AI forecasts. IITs develop resilient crops; Kerala U studies fisher adaptations. Global warming demands ~7% moisture rise mitigation via emissions cuts, local cooling.

Future Outlook: Projections and Urgent Calls to Action

Without mitigation, coastal WBT extremes intensify, risking frequent unlivable conditions. Universities urge WBT-centric policies, funding for coastal HAPs. Collaboration between IMD, Atria U, Kerala U exemplifies higher ed's role.DownToEarth analysis.

Stakeholders must prioritize research-driven resilience to safeguard India's coasts.