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https://hdl.handle.net/10356/180200
Title: | Entrapment of atmospheric particle bound heavy metals by ferns as evidenced by lead (Pb) isotope and MixSIAR: implications for improving air quality | Authors: | Ray, Iravati Misra, Sambuddha Chen, Mengli Wang, Xianfeng Das, Reshmi |
Keywords: | Earth and Environmental Sciences | Issue Date: | 2024 | Source: | Ray, I., Misra, S., Chen, M., Wang, X. & Das, R. (2024). Entrapment of atmospheric particle bound heavy metals by ferns as evidenced by lead (Pb) isotope and MixSIAR: implications for improving air quality. Journal of Hazardous Materials, 469, 134014-. https://dx.doi.org/10.1016/j.jhazmat.2024.134014 | Project: | INCF-2023-015 | Journal: | Journal of Hazardous Materials | Abstract: | Plant metal uptake can occur through both soil-root and atmospheric transfer from leaves. The latter holds potential implications for development of biofiltration systems. To explore this potential, it is crucial to understand entrapment capacity and metal sources within plants. As ferns absorb materials from atmosphere, this study focuses on two abundant fern species growing in densely populated and highly polluted regions of Eastern India. Gravimetric quantification, elemental concentration and Pb isotopic analyses were performed by segregating the ferns into distinct components: foliage dusts (loose dust (LD) and wax-bound dust (WD)) and plant tissue (leaves and roots). To understand metal sources, the study analyzes soil, and atmospheric particulates (PM10 and dust fall (DF)). Results indicate that, while LDs have soil dust influence, wax entraps atmospheric particulates and translocates them inside the leaves. Furthermore, roots demonstrate dissimilar isotopic ratios from soil, while displaying close association with atmospheric particulates. Isotopic composition and subsequent mixing model reveal dominant contribution from DF in leaves (53-73%) and roots (33-86%). Apart from DF, leaf Pb is sourced from PM10 (21-38%) with minimal contribution from soil (6-10%). Conversely, in addition to dominance from DF, roots source Pb primarily from soil (12-62%) with a meagre 2-8% contribution from PM10. | URI: | https://hdl.handle.net/10356/180200 | ISSN: | 0304-3894 | DOI: | 10.1016/j.jhazmat.2024.134014 | Schools: | Asian School of the Environment | Organisations: | Tropical Marine Science Institute, NUS | Research Centres: | Earth Observatory of Singapore | Rights: | © 2024 Elsevier B.V. All rights reserved. | Fulltext Permission: | none | Fulltext Availability: | No Fulltext |
Appears in Collections: | ASE Journal Articles |
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