a b s t r a c tArticle history:Rece

a b s t r a c t
Article history:
Received 5 August 2013
Received in revised form 31 December 2013
Accepted 9 January 2014
Available online xxxx
Keywords:
Agricultural soils
Heavy metals
Fertilizers
Greece
Multivariate analysis
Excessive application of chemical products for promoting crop growth is a significant contributor for elevated
concentrations of heavy metals in agricultural soils potentially threatening human health through the food
chain. In this study, a series of heavy metals were quantified in 132 agricultural soils of Argolida basin, Peloponnese,
Greece, with the aim to characterize their accumulation patterns. Median concentrations of Cu, Pb, Zn, Ni,
Co,Mn, As, Cd, Cr and Fewere 65.23, 20.1, 72.75, 120.3, 20.6, 956.5, 7.1, 0.45, 72.3 and 27,100 mg/kg respectively.
Statistically significant differences for Cu, Zn, Pb and Cd contentwere found between agricultural and background
soils in the same region. Implementation of principal component analysis and cluster analysis successfully
grouped the investigated chemical elements according to their anthropogenic or natural origin. The prolonged
application of large amounts of fertilizers and pesticides–fungicides has resulted to Cu, Zn, Cd, Pb and As accumulation
in the agricultural fields whereas Ni, Cr, Co and Fe amounts are controlled by parent material influences.
Contrary to results commonly reported in the literature that characterize Mn as a geogenic element, this metal
was found to exhibit a mixed source in the study agricultural system. Geographical information system techniques
were used to illustrate the spatial distribution trends of the investigated elements confirming the clear
contribution of agrochemicals to soil chemistry and highlighting the citrus soils around Argos town to have received
large anthropogenic inputs. The agricultural area represented by olive groves does not demonstrate significant
anthropogenic soil metal enrichment indicating that accumulation phenomena are restricted to the soils
cultivated for oranges and mandarins. This study is the first detailed report on metal accumulation in citrus
soils from Argolida basin, and results promote the care for the environment by reducing application rates of fertilizers
and pesticides–fungicides andmonitoring heavy metals levels in receiving soils. Future studies should pay
attention to characterize the fractionation and reactivity of metals in citrus soils by utilizing selective chemical
extractions with the aim to assess the actual risks for the environment.
© 2014 Elsevier B.V. All rights reserved.
1. Introduction
Soil is a natural component of the earth serving a variety of vital
functions in our society including food production.With rapid industrialization
and urbanization that have occurred in most parts of theworld
during the last decades, the soil compartment is receiving a substantial
amount of pollutants from different sources including heavy metals
(Wei and Yang, 2010). A vast count of publications has appeared in
the scientific literature documenting metal concentrations in soils of
various land uses because of the non-biodegradable nature of these
chemical substances and the potential adverse effects on human health.
Typical human activities like industrial operations, vehicle exhaust
fumes, mining and smelting and atmospheric deposition are known to
greatly impact the urban and rural soil environs in terms of heavy
metal levels (Aelion et al., 2008; Chabukdhara and Nema, 2013;
Christoforidis and Stamatis, 2009;Douay et al., 2008;Gowd et al., 2010).
In agricultural soils, the presence of metals is of increasing concern
because they have the potential to be accumulated in less soluble
forms, transferred into soil solution and subsequently deteriorate the
groundwater and crop quality. The food crops constitute an important
source of human oral exposure to metals (Harmanescu et al., 2011;
Zheng et al., 2013), and as a result careful monitoring of metal levels
in agricultural soils is of great importance for protecting its quality and
ensuring future sustainability (Wong et al., 2002). The natural concentrations
of heavy metals in these soils tend to remain low depending
on the geological parent material composition (Shan et al., 2013),
although significant geogenic enrichment has also been recently
reported (Kelepertzis et al., 2013). On the other hand, anthropogenic
inputs in agricultural soils that contribute to an increase of the content
of some toxic heavy metals have reported including sewage irrigation
(Liu et al., 2005), petrochemical activities (Li et al., 2009) and the
excessive usage of agrochemicals and manure (Hani and Pazira, 2011;
Lu et al., 2012; Nicholson et al., 2003). Although fertilizers are essential
for providing adequate nutrients and ensuring successful harvests,
long-term repeated application of fertilizers and metal-containing
pesticides and fungicides can gradually add potential harmful
Geoderma xxx (2014) xxx–xxx
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E-mail address: kelepert@geol.uoa.gr.
GEODER-11563; No of Pages 9
0016-7061/$ – see front matter © 2014 Elsevier B.V. All rights reserved.
http://dx.doi.org/10.1016/j.geoderma.2014.01.007
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Please cite this article as: Kelepertzis, E., Accumulation of heavy metals in agricultural soils of Mediterranean: Insights from Argolida basin,
Peloponnese, Greece, Geoderma (2014), http://dx.doi.org/10.1016/j.geoderma.2014.01.007