4.7 Article

Investigation of plant contamination to Ni, Pb, Zn, and Cd and its relationship with spectral reflections

期刊

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 28, 期 28, 页码 37830-37842

出版社

SPRINGER HEIDELBERG
DOI: 10.1007/s11356-021-13394-8

关键词

Heavy metals; Plant contamination; Capsicum annuum L; Electromagnetic wave

资金

  1. Shiraz University [238,726-119]

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This study investigates the toxicity of plants to heavy elements and the effects of electromagnetic waves on plant growth stages. Results show high levels of Pb and Cd absorption in Capsicum plants, with HI values exceeding thresholds. The study suggests a significant relationship between certain electromagnetic wave spectrums and the absorption of Pb, Cd, Ni, and Zn in contaminated plants.
This study aims to investigate the toxicity of the plant to heavy elements (HMs). For this purpose, the estimated daily intake (EDI) parameters of potentially toxic elements (PTE) per kilogram of body weight, target hazard quotient (THQ) for non-carcinogenic disorders, total hazard index (HI), and bioconcentration factor (BCF) are determined in the plant at different stages of growth. In this study, the reaction of the plant to different electromagnetic waves at different stages of growth (DSG) is also investigated, and the relationship between the THQ values and electromagnetic waves is prepared. The results show that Pb has the highest EDI value (5.97), Pb (74.67) and Cd (9.75) have the highest THQ values, and Cd has the highest BCF value (30.44). Also, the results show that HI values are higher than the threshold in the growth (69.98), flowering (71.38), and fruiting (68.06) stages. Results of BCF indicate Pb, and Cd has absorption rate in Capsicum towards. Contaminated Capsicum plants submitted to electromagnetic waves showed a significant relationship between Pb and the b490, and b560 spectra, Cd and Ni the b450 spectrum, and Zn the b460 spectrum. This finding highlights the salience of employing electromagnetic waves in assessing contamination in plants. Put differently, THQ can be estimated using electromagnetic waves without any need for laboratory studies.

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