Accumulation of heavy metals in agricultural soils of Mediterranean: Insights from Argolida basin, Peloponnese, Greece

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...

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Bibliographic Details
Published inGeoderma Vol. 221-222; pp. 82 - 90
Main Author Kelepertzis, Efstratios
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.06.2014
Elsevier
Subjects
Agricultural soils
agrochemicals
Agronomy. Soil science and plant productions
anthropogenic soil types
application rate
arsenic
Basins
Biological and medical sciences
Cadmium
chromium
citrus soils
cluster analysis
cobalt
Copper
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Fertilizers
fractionation
Fundamental and applied biological sciences. Psychology
geographic information systems
Greece
groves
Heavy metals
iron
lead
Lead (metal)
mandarins
Manganese
monitoring
Multivariate analysis
nickel
olives
oranges
Pollution, environment geology
principal component analysis
risk
soil chemistry
Soils
Surficial geology
Zinc
Greece
Southern Europe
Europe
Peloponnesus Greece
MED, Greece
Greece
Agricultural soils
Multivariate analysis
Heavy metals
Fertilizers
heavy metals
pollution
multivariate analysis
principal components analysis
Chemical product
agriculture
chemical elements
Trophic chain
copper
Cultivated plant
soils
zinc
Public health
Anthropogenic factor
Plant production
nickel
accumulation
concentration
Agricultural soil
lead
Mediterranean region
statistics
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Abstract 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 Fe were 65.23, 20.1, 72.75, 120.3, 20.6, 956.5, 7.1, 0.45, 72.3 and 27,100mg/kg respectively. Statistically significant differences for Cu, Zn, Pb and Cd content were 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 and monitoring 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. •First report on metal accumulation in Argolida agricultural soils is presented.•Contamination sources and spatial trends of metals were examined.•Agrochemicals influence Cu, Zn, Cd, Pb, As and Mn accumulation in soils.•Parent ultramafic materials are responsible for Ni, Cr and Co enrichment.•Citrus soils have received significant anthropogenic inputs.
AbstractList 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 Fe were 65.23, 20.1, 72.75, 120.3, 20.6, 956.5, 7.1, 0.45, 72.3 and 27,100mg/kg respectively. Statistically significant differences for Cu, Zn, Pb and Cd content were 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 and monitoring 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.
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 Fe were 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 content were 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 and monitoring 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.
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 Fe were 65.23, 20.1, 72.75, 120.3, 20.6, 956.5, 7.1, 0.45, 72.3 and 27,100mg/kg respectively. Statistically significant differences for Cu, Zn, Pb and Cd content were 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 and monitoring 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. •First report on metal accumulation in Argolida agricultural soils is presented.•Contamination sources and spatial trends of metals were examined.•Agrochemicals influence Cu, Zn, Cd, Pb, As and Mn accumulation in soils.•Parent ultramafic materials are responsible for Ni, Cr and Co enrichment.•Citrus soils have received significant anthropogenic inputs.
Author Kelepertzis, Efstratios
Author_xml – sequence: 1
  givenname: Efstratios
  surname: Kelepertzis
  fullname: Kelepertzis, Efstratios
  email: kelepert@geol.uoa.gr
  organization: Department of Geology and Geoenvironment, University of Athens, 157 84, Athens, Greece
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Keywords Greece
Agricultural soils
Multivariate analysis
Heavy metals
Fertilizers
heavy metals
pollution
multivariate analysis
principal components analysis
Chemical product
agriculture
chemical elements
Trophic chain
copper
Cultivated plant
soils
zinc
Public health
Anthropogenic factor
Plant production
nickel
accumulation
concentration
Agricultural soil
lead
Mediterranean region
statistics
Language English
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Snippet Excessive application of chemical products for promoting crop growth is a significant contributor for elevated concentrations of heavy metals in agricultural...
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SubjectTerms Agricultural soils
agrochemicals
Agronomy. Soil science and plant productions
anthropogenic soil types
application rate
arsenic
Basins
Biological and medical sciences
Cadmium
chromium
citrus soils
cluster analysis
cobalt
Copper
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Exact sciences and technology
Fertilizers
fractionation
Fundamental and applied biological sciences. Psychology
geographic information systems
Greece
groves
Heavy metals
iron
lead
Lead (metal)
mandarins
Manganese
monitoring
Multivariate analysis
nickel
olives
oranges
Pollution, environment geology
principal component analysis
risk
soil chemistry
Soils
Surficial geology
Zinc
Title Accumulation of heavy metals in agricultural soils of Mediterranean: Insights from Argolida basin, Peloponnese, Greece
URI https://dx.doi.org/10.1016/j.geoderma.2014.01.007
https://www.proquest.com/docview/1520388027
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