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Airborne particulate matter (PM) poses a major health risk, yet species selection for vertical greening systems (VGS) is poorly quantified. We evaluated PM retention by seven commercially available shade-tolerant species grown in a modular living wall system (LWS) on a north-facing façade at Sapienza University of Rome. After 3 months of in situ exposure, leaves were analyzed via SEM (1000×), collecting 210 images, 30 per species. An automated FIJI/ImageJ pipeline segmented particles, computed equivalent circular diameters, and classified them into (PM < 0.5, PM [0.5, 1), PM [1, 2.5), PM [2.5, 10), and PM ≥ 10 µm). Across species, ultrafine and fine fractions dominated deposits, with the <0.5 µm class typically comprising 60–70% of counts. Vinca minor cv. albomarginata exhibited the highest densities in ultrafine and fine classes, closely followed by Fatsia japonica; Hedera helix captured more coarse particles (2.5–10 µm and >10 µm). Heuchera sanguinea consistently displayed the lowest densities across all size classes. Performance patterns aligned with leaf surface traits: wax-coated, moderately rough or gently structured cuticles favored adhesion, whereas highly irregular microrelief did not consistently enhance retention. Methodological considerations include thresholding sensitivity, use of equivalent circular diameter for irregular particles, and an upper area filter that may undercount large aggregates. The findings identify Vinca minor cv. albomarginata and Fatsia japonica as priority species for PM mitigation in shaded VGS, with Hedera helix complementing coarse PM capture. The results provide trait-based, design-oriented guidance for living wall species selection in Mediterranean urban and indoor contexts.

Species-Specific Particulate Matter Retention by Shade-Tolerant Plants in Modular Living Walls. SEM-Based Quantification and Trait-Guided Selection / Dalsasso, Caterina; Azzella, Mattia Martin; Bruno, Maria Rosaria; Campopiano, Antonella; Cannizzaro, Annapaola; Angelosanto, Federica; Tucci, Fabrizio. - In: APPLIED SCIENCES. - ISSN 2076-3417. - 16:8(2026). [10.3390/app16083811]

Species-Specific Particulate Matter Retention by Shade-Tolerant Plants in Modular Living Walls. SEM-Based Quantification and Trait-Guided Selection

Dalsasso, Caterina
Writing – Original Draft Preparation
;Azzella, Mattia Martin
Writing – Original Draft Preparation
;Tucci, Fabrizio
2026

Abstract

Airborne particulate matter (PM) poses a major health risk, yet species selection for vertical greening systems (VGS) is poorly quantified. We evaluated PM retention by seven commercially available shade-tolerant species grown in a modular living wall system (LWS) on a north-facing façade at Sapienza University of Rome. After 3 months of in situ exposure, leaves were analyzed via SEM (1000×), collecting 210 images, 30 per species. An automated FIJI/ImageJ pipeline segmented particles, computed equivalent circular diameters, and classified them into (PM < 0.5, PM [0.5, 1), PM [1, 2.5), PM [2.5, 10), and PM ≥ 10 µm). Across species, ultrafine and fine fractions dominated deposits, with the <0.5 µm class typically comprising 60–70% of counts. Vinca minor cv. albomarginata exhibited the highest densities in ultrafine and fine classes, closely followed by Fatsia japonica; Hedera helix captured more coarse particles (2.5–10 µm and >10 µm). Heuchera sanguinea consistently displayed the lowest densities across all size classes. Performance patterns aligned with leaf surface traits: wax-coated, moderately rough or gently structured cuticles favored adhesion, whereas highly irregular microrelief did not consistently enhance retention. Methodological considerations include thresholding sensitivity, use of equivalent circular diameter for irregular particles, and an upper area filter that may undercount large aggregates. The findings identify Vinca minor cv. albomarginata and Fatsia japonica as priority species for PM mitigation in shaded VGS, with Hedera helix complementing coarse PM capture. The results provide trait-based, design-oriented guidance for living wall species selection in Mediterranean urban and indoor contexts.
2026
vertical greening systems; air quality; ecosystem services; particulate matter; air pollution; SEM; leaf morphology
01 Pubblicazione su rivista::01a Articolo in rivista
Species-Specific Particulate Matter Retention by Shade-Tolerant Plants in Modular Living Walls. SEM-Based Quantification and Trait-Guided Selection / Dalsasso, Caterina; Azzella, Mattia Martin; Bruno, Maria Rosaria; Campopiano, Antonella; Cannizzaro, Annapaola; Angelosanto, Federica; Tucci, Fabrizio. - In: APPLIED SCIENCES. - ISSN 2076-3417. - 16:8(2026). [10.3390/app16083811]
01a Articolo in rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1766824
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