This study has been aimed at evaluating by means of plant bioindicators pollution resulting from atmospheric deposition of potentially toxic elements (PTE) in the urban and suburban areas of Ravenna. Therefore, three different areas were taken into account: an area of natural interest, a public green area and a cultivated area, chosen for their particular locations relative to anthropogenic impact. The research has determined 22 macro- and micro-elements, both in the leaves of vascular plants and native mosses, and the isotopic compositions of strontium (Sr: 87Sr/86Sr) and neodymium (Nd: 143Nd/144Nd) in mosses. The chemical characterization of ever-green and deciduous trees over a year time and their temporal trends indicate a sea-sonal pattern which depends on the plant species and the element investigated, al-though accumulation of PTE has been especially observed in the fall. Unlike con-centrations measured in the leaves, mosses provide estimates of possible enrich-ment occurred over the years. For several metals, especially Cd, Cu, Sn and Zn, their enrichment factors in mosses show that the contamination threshold ranges from severe to extreme in several stations of the investigated areas. A correlation exists between the plants exposed to high vehicular traffic and the release of Pt, al-though the amount of Pt intercepted and retained by leaf blades results not to be absorbed, supporting the low bioavailability of this element. The use of mosses as bioindicators to define the natural and anthropogenic sources of the atmospheric particulate has shown that the joint application of Sr and Nd isotopes can provide important information on the air pollution processes.
M. Gatti , G. M. Beone, L. Vittori Antisari, F. Castorina, U. Masi (2011). CHEMICAL AND GEOCHEMICAL CHARACTERIZATION OF PLANT BIOINDICATORS. IMOLA : GEOL@B.
CHEMICAL AND GEOCHEMICAL CHARACTERIZATION OF PLANT BIOINDICATORS
VITTORI ANTISARI, LIVIA;
2011
Abstract
This study has been aimed at evaluating by means of plant bioindicators pollution resulting from atmospheric deposition of potentially toxic elements (PTE) in the urban and suburban areas of Ravenna. Therefore, three different areas were taken into account: an area of natural interest, a public green area and a cultivated area, chosen for their particular locations relative to anthropogenic impact. The research has determined 22 macro- and micro-elements, both in the leaves of vascular plants and native mosses, and the isotopic compositions of strontium (Sr: 87Sr/86Sr) and neodymium (Nd: 143Nd/144Nd) in mosses. The chemical characterization of ever-green and deciduous trees over a year time and their temporal trends indicate a sea-sonal pattern which depends on the plant species and the element investigated, al-though accumulation of PTE has been especially observed in the fall. Unlike con-centrations measured in the leaves, mosses provide estimates of possible enrich-ment occurred over the years. For several metals, especially Cd, Cu, Sn and Zn, their enrichment factors in mosses show that the contamination threshold ranges from severe to extreme in several stations of the investigated areas. A correlation exists between the plants exposed to high vehicular traffic and the release of Pt, al-though the amount of Pt intercepted and retained by leaf blades results not to be absorbed, supporting the low bioavailability of this element. The use of mosses as bioindicators to define the natural and anthropogenic sources of the atmospheric particulate has shown that the joint application of Sr and Nd isotopes can provide important information on the air pollution processes.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.