Soil and Leaf Mineral Element Contents in Mediterranean Vineyards: Bioaccumulation and Potential Soil Pollution

R Jiménez-Ballesta,C Pérez-De-Los-Reyes,M Sanchez,J García-Pradas,S Bravo,J A Amorós,F J García-Navarro

doi:10.1007/s11270-021-05485-6

R Jiménez-Ballesta, C Pérez-De-Los-Reyes + Show 5 more

Open Access

https://doi.org/10.1007/s11270-021-05485-6

Copy DOI

Abstract

The study reported here concerns the geochemical distributions of macro- and trace elements (including potentially toxic elements, PTEs) in the vineyard soils of Alcubillas, which is one of the oldest, albeit not world-renowned, wine-growing areas in La Mancha (Central Spain). Soil and leaf samples were analyzed by X-ray fluorescence spectrometry to ascertain the levels of various elements in the soil and the plant. The potential toxicity of the elements was assessed with regard to the development of the vineyard. Despite the fact that fertilizers and pesticides are employed in the vineyards in this area, the results showed that the levels of trace elements in the soil samples did not exceed the reference values according the pedogeochemical values for the region and Spain. This finding suggests that the study area is not polluted, and therefore, there are hardly any traces of anthropogenic contamination. The Biological Absorption Coefficient (BAC) was calculated to assess the assimilation of various elements from the soil to the leaves, and differences were found in the element absorption capacity of the vines. Some elements were not taken up by Vitis vinifera despite elements like Zr and Rb being present in relatively high concentrations in the soil. The production in these soils does not represent a threat to human health or the ecosystem, because the farmers in this area are extremely careful to preserve the environment and they only farm to achieve moderate yields of grapes per hectare.

Highlights

Soil is an important part of the natural environment and its effect on wine quality and grape composition is highly complex because it has an influence on mineral nutrition in the grapevine, the uptake of water, root depth, and rhizosphere temperature
The vineyard soils from the Alcubillas site showed a heterogeneous concentration for the elemental composition (Table 2), with Si and Ca being the most abundant major elements followed by Al, influenced by the parent rock
The vineyard soils display a heterogeneous concentration in terms of elemental composition in the study area, with Ca being one of the most abundant major elements and S below the average world background values

Summary

Introduction

Soil is an important part of the natural environment and its effect on wine quality and grape composition is highly complex because it has an influence on mineral nutrition in the grapevine, the uptake of water, root depth, and rhizosphere temperature. Elements occur naturally in soil but their concentrations can be increased by anthropic activities Some of them, such as Cu, Zn, Mo, Se, and Fe, are essential for plants and animals, while others do not have any known benefits; most are non-essential element where some are toxic and carcinogenic such as lead, chromium, and cadmium (Abdu et al, 2011; Bravo et al, 2017). Other elements such as iron, copper, manganese, and zinc are plant nutrients in microdoses

Objectives

Methods

Results

Conclusion