Traceability environmental effects of microfabric in leaves of Cupressus dupreziana plant and Soil Surrounding it given the rise in COVID19
Abstract
Background:The high death rate from COVID-19, which can increase mineral pollution in cemetery soils and necessitates future cemetery projects that are able to counteract these environmental effects, highlights the significance of studying metal concentrations in cemetery soils. The research analyzed the quantities of minerals in the cemetery soil in Najaf Governorate, Iraq, taking into account the high mortality during the sampling period in order to identify future projects for cemeteries targeted at mitigating environmental consequences.
Methods: Using energy dispersive X-ray spectroscopy (EDX) and scanning electron microscopy (SEM), the researchers investigated the leaf features of the soils in three cemeteries. soil samples were taken three times from a depth of 10 to 30 cm Cupressus dupreziana plants considering the analysis in triplicate with averaging, analytical deviation and used in the autoregressive integrated moving averages model, this curve had 50% traceability to bioavailability to reduce contamination risk.
Results: The findings revealed elevated amounts of iron and lead (Pb) (Fe), tomb soil analysis. Take into account the rise in fatalities and the associated funerals. According to COVID-19, the estimated daily mortality toll is between (20-50); however, metal pollution may be more severe. In order to lessen the effects on the environment, the facility was expressed as a gas and effluent processor at 80% in soil of the proportion of the curve in the spatial analysis for mineral contamination.
Conclusion: The SEM and EDX can serve as reliable indicators, while the morphometric approach offers a holistic understanding of the soil and its associated plant life by analyzing elemental compositions. Employing these methods allows for quantitative assessment and comparison against the control, aiding in the thorough characterization of Cupressus dupreziana. Furthermore, these analyses shed light on the various organism clusters found within the study area's soil.
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DOI: http://dx.doi.org/10.62940/als.v10i4.2100
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