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Urban Cooling Under Extreme Heat: The Role of Blue-Green Spaces as Nature-Based Solutions in Delhi

Author

Listed:
  • Priyanka Jha

    (Department of Geography, Faculty of Sciences, Jamia Millia Islamia (A Central University), New Delhi 110025, India)

  • Pawan Kumar Yadav

    (Department of Geography, Faculty of Sciences, Jamia Millia Islamia (A Central University), New Delhi 110025, India)

  • Md Saharik Joy

    (Department of Geography, Faculty of Sciences, Jamia Millia Islamia (A Central University), New Delhi 110025, India)

  • Ajit Narayan Jha

    (Department of Environmental Science, Faculty of Engineering and Technology, Jamia Millia Islamia (A Central University), New Delhi 110025, India)

  • Taruna Bansal

    (Department of Geography, Faculty of Sciences, Jamia Millia Islamia (A Central University), New Delhi 110025, India)

  • Wafa Saleh Alkhuraiji

    (Department of Geography and Environmental Sustainability, College of Humanities and Social Sciences, Princess Nourah Bint Abdulrahman University, P.O. Box 84428, Riyadh 11671, Saudi Arabia)

  • Mohamed Zhran

    (Public Works Engineering Department, Faculty of Engineering, Mansoura University, Mansoura 35516, Egypt)

Abstract

Rapid urbanisation and increasing heat extremes pose significant challenges for megacities in the Global South. This study develops a configuration-sensitive assessment of blue-green space (BGS) cooling in Delhi, a Global South megacity facing intensified heat. Using satellite imagery and statistical modelling, we quantify how land cover and patch structure regulate land surface temperature (LST). Satellite imagery was used to derive LST, and six land-cover classes were mapped using supervised classification. Spectral indices and proximity metrics were calculated, land-cover patches were delineated, and their thermal behaviour was analysed using patch-level LST statistics. Delhi exhibits a heterogeneous urban heat island (UHI) surface, with LST spanning 19.8–38.6 °C and built-up land dominating (743.50 km 2 ), while BGS remains limited and fragmented. Warming scaled almost linearly with built-up patch size (R 2 = 0.98), with mean LST rising from 22.6 °C (<20,000 m 2 ) to 27.4 °C (>500,000 m 2 ). Cooling strengthened with BGS spatial dominance as dense vegetation declined from 23.8 to 22.1 °C (R 2 = 0.98), sparse vegetation from 24.3 to 22.2 °C, and water bodies from 21.4 to 18.8 °C (R 2 = 0.89) across increasing size classes. Correlations identified impervious surfaces as primary warming controls, while moisture and vegetation were cooling indicators. Random Forest-SHAP confirmed modified bare soil index (MBSI) and normalised difference built-up index (NDBI) as dominant predictors, with cooling from modified normalised difference water index (MNDWI) and comparatively conditional effects of normalised difference vegetation index (NDVI). Impervious and exposed surfaces govern Delhi’s thermal baseline, while BGS acts as a modifier whose benefits emerge when patches are large, connected, and integrated. These findings support shifting from area-based greening targets to morphology-based planning that protects connected blue-green corridors.

Suggested Citation

  • Priyanka Jha & Pawan Kumar Yadav & Md Saharik Joy & Ajit Narayan Jha & Taruna Bansal & Wafa Saleh Alkhuraiji & Mohamed Zhran, 2026. "Urban Cooling Under Extreme Heat: The Role of Blue-Green Spaces as Nature-Based Solutions in Delhi," Sustainability, MDPI, vol. 18(5), pages 1-32, March.
  • Handle: RePEc:gam:jsusta:v:18:y:2026:i:5:p:2378-:d:1875497
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