The present study was carried out on Ficuscarica L. cultivated in the northwestern desert of Egypt. Plant materials (leaves and fruits) were collected from three polluted locations at a distance of 500-700, 1,000-1,...The present study was carried out on Ficuscarica L. cultivated in the northwestern desert of Egypt. Plant materials (leaves and fruits) were collected from three polluted locations at a distance of 500-700, 1,000-1,250 and 3,000-3,500 m respectively away from the cement factory at EI-Hammam city, and a location of relatively clean air considered a control at 5,000-6,000 m away from this factory. The deposit cement dust washed from the surface leaf area of plant study was found to be 4.96, 4.21, 0.51 and 0.29 lag/cm2 at the four locations, respectively. Cement in more polluted locations increased mortality of young branches leading to a reduction in the height and yield of fig trees. The deposition of cement pollutants tothe loamy sandy soil of the present study alteredsoil chemical characteristics. The results showed that, biomass of fruits/tree, number of branches/tree and number of fruits/branch in polluted locations were significantly lower than those of the control one. Cement dust decreased leaf total chlorophyll content leading to a reduction in the economic yield (up to 50%). Metabolic constituents (carbohydrates, proteins, amino acid and proline) and essential elements (Fe, Mg, Na, Ca, and K) were studied in two types of fruits on fig trees (mature and premature). Thallium as a toxic metal was predicted in edible mature fruits, and the results showed that the concentration of thallium parts per billion (ppb) in polluted locations was significantly higher than those of the control one. The results revealed that fruits of fig plants at polluted sites showed quantitative and qualitative deteriorations.展开更多
文摘The present study was carried out on Ficuscarica L. cultivated in the northwestern desert of Egypt. Plant materials (leaves and fruits) were collected from three polluted locations at a distance of 500-700, 1,000-1,250 and 3,000-3,500 m respectively away from the cement factory at EI-Hammam city, and a location of relatively clean air considered a control at 5,000-6,000 m away from this factory. The deposit cement dust washed from the surface leaf area of plant study was found to be 4.96, 4.21, 0.51 and 0.29 lag/cm2 at the four locations, respectively. Cement in more polluted locations increased mortality of young branches leading to a reduction in the height and yield of fig trees. The deposition of cement pollutants tothe loamy sandy soil of the present study alteredsoil chemical characteristics. The results showed that, biomass of fruits/tree, number of branches/tree and number of fruits/branch in polluted locations were significantly lower than those of the control one. Cement dust decreased leaf total chlorophyll content leading to a reduction in the economic yield (up to 50%). Metabolic constituents (carbohydrates, proteins, amino acid and proline) and essential elements (Fe, Mg, Na, Ca, and K) were studied in two types of fruits on fig trees (mature and premature). Thallium as a toxic metal was predicted in edible mature fruits, and the results showed that the concentration of thallium parts per billion (ppb) in polluted locations was significantly higher than those of the control one. The results revealed that fruits of fig plants at polluted sites showed quantitative and qualitative deteriorations.
