soils indicated that geological par

soils indicated that geological parent materials govern their loadings.
The only metal that was evaluated to exhibit a mixed source
was Mn with both the application of agrochemicals and the small
serpentinitic bodies controlling its accumulation patterns. The
spatial distribution trends reveal that the high concentrations of
Cu, Zn, Pb Cd and Mn are associated with the citrus soils cultivated
for the production of oranges and mandarins. Elevated levels of
concentrations of the naturally derived Ni, Cr and Co do not follow
a specific pattern and are attributed to local abundance of mineral
phases that host these metals. Results of this study provide landmanagers
with invaluable geochemical data for the current qualitative
status of the studied agricultural soils that should be taken into
consideration for monitoring heavy metals levels and reducing
application rates of agrochemicals. Further investigations should
pay attention to characterize the geochemical reactivity of both
anthropogenic and geogenic metals in citrus soils by utilizing selective
extraction procedures.
Acknowledgments
My father and Dr Nikolaos Voutsis are thanked for their invaluable
assistance during sample collection. Constructive comments by anonymous
reviewer contributed to enhance quality of this article.
References
Abollino, O., Aceto, M., Malandrino, M., Mentasti, E., Sarzanini, C., Petrella, F., 2002. Heavy
metals in agricultural soils from Piedmont, Italy. Distribution, speciation and chemometric
data treatment. Chemosphere 49, 545–557.
Fig. 6. Spatial distribution maps of Ni, Cr, Co and Mn in agricultural soils from Argolida basin.
8 E. Kelepertzis / Geoderma xxx (2014) xxx–xxx
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