Effect of sorption properties on the content, ecotoxicity, and bioaccumulation of polycyclic aromatic hydrocarbons (PAHs) in bottom sediments

Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several reviews, PAH sorption processes in bottom sediments has not been comprehensively discucorrelation coefficients between sorption parameters and co...

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Published inJournal of hazardous materials Vol. 442; p. 130073
Main Authors Skic, Kamil, Boguta, Patrycja, Klimkowicz-Pawlas, Agnieszka, Ukalska-Jaruga, Aleksandra, Baran, Agnieszka
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.01.2023
Subjects
Bioaccumulation
bioaccumulation factor
ecotoxicology
FTIR spectra
growth retardation
hydrophobicity
mortality
organic matter
PAHs
Sediment porosity
sediments
sorption
surface area
TOC
wildlife
PAHs
TOC
Sediment porosity
Bioaccumulation
FTIR spectra
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Abstract Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several reviews, PAH sorption processes in bottom sediments has not been comprehensively discucorrelation coefficients between sorption parameters and contessed. Understanding the dependencies governing PAH sorption processes will allow to predict, monitor, and mitigate the ecological effects of PAH contamination and the associated risks to humans or wildlife. The objectives of the study were to assess the relationship between the sorption properties and the content of PAHs in bottom sediments and mussels. The PAH profile was dominated by higher-molecular hydrocarbons, which accounted for 73% of the total concentration of PAHs. Potentiometric studies revealed the steric-based PAH sorption mechanism that strongly depended on the presence of negatively dissociating structures such as carboxylic or phenolic functional groups. Based on the changes in Q8 values, the size-exclusion effect was more likely for 5- and 6-ring compounds. Pores < 5 µm, which had the largest share in the specific surface area, were the preferred sites for PAH sequestration and stabilization in bottom sediments. The availability of PAHs was reduced in sediments with high organic matter content. The PAH bioaccumulation factor significantly decreased with increasing TOC content in sediments. Higher mortality and growth inhibition of H. incongruens were observed in samples with high and medium TOC contents than in those with low TOC content. [Display omitted] •High-molecular PAHs was dominated in bottom sediments.•The steric-based sorption mechanism was more likely for low-molecular PAHs.•The size-exclusion effect was more likely for 5- and 6-ring compounds.•Pores < 5 µm were the preferred sites for PAH sequestration and stabilization in sediments..•PAHs bioaccumulation in mussel decreased with increasing TOC content in sediments.
AbstractList Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several reviews, PAH sorption processes in bottom sediments has not been comprehensively discucorrelation coefficients between sorption parameters and contessed. Understanding the dependencies governing PAH sorption processes will allow to predict, monitor, and mitigate the ecological effects of PAH contamination and the associated risks to humans or wildlife. The objectives of the study were to assess the relationship between the sorption properties and the content of PAHs in bottom sediments and mussels. The PAH profile was dominated by higher-molecular hydrocarbons, which accounted for 73% of the total concentration of PAHs. Potentiometric studies revealed the steric-based PAH sorption mechanism that strongly depended on the presence of negatively dissociating structures such as carboxylic or phenolic functional groups. Based on the changes in Q8 values, the size-exclusion effect was more likely for 5- and 6-ring compounds. Pores < 5 µm, which had the largest share in the specific surface area, were the preferred sites for PAH sequestration and stabilization in bottom sediments. The availability of PAHs was reduced in sediments with high organic matter content. The PAH bioaccumulation factor significantly decreased with increasing TOC content in sediments. Higher mortality and growth inhibition of H. incongruens were observed in samples with high and medium TOC contents than in those with low TOC content. [Display omitted] •High-molecular PAHs was dominated in bottom sediments.•The steric-based sorption mechanism was more likely for low-molecular PAHs.•The size-exclusion effect was more likely for 5- and 6-ring compounds.•Pores < 5 µm were the preferred sites for PAH sequestration and stabilization in sediments..•PAHs bioaccumulation in mussel decreased with increasing TOC content in sediments.
Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several reviews, PAH sorption processes in bottom sediments has not been comprehensively discucorrelation coefficients between sorption parameters and contessed. Understanding the dependencies governing PAH sorption processes will allow to predict, monitor, and mitigate the ecological effects of PAH contamination and the associated risks to humans or wildlife. The objectives of the study were to assess the relationship between the sorption properties and the content of PAHs in bottom sediments and mussels. The PAH profile was dominated by higher-molecular hydrocarbons, which accounted for 73% of the total concentration of PAHs. Potentiometric studies revealed the steric-based PAH sorption mechanism that strongly depended on the presence of negatively dissociating structures such as carboxylic or phenolic functional groups. Based on the changes in Q8 values, the size-exclusion effect was more likely for 5- and 6-ring compounds. Pores < 5 µm, which had the largest share in the specific surface area, were the preferred sites for PAH sequestration and stabilization in bottom sediments. The availability of PAHs was reduced in sediments with high organic matter content. The PAH bioaccumulation factor significantly decreased with increasing TOC content in sediments. Higher mortality and growth inhibition of H. incongruens were observed in samples with high and medium TOC contents than in those with low TOC content.Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several reviews, PAH sorption processes in bottom sediments has not been comprehensively discucorrelation coefficients between sorption parameters and contessed. Understanding the dependencies governing PAH sorption processes will allow to predict, monitor, and mitigate the ecological effects of PAH contamination and the associated risks to humans or wildlife. The objectives of the study were to assess the relationship between the sorption properties and the content of PAHs in bottom sediments and mussels. The PAH profile was dominated by higher-molecular hydrocarbons, which accounted for 73% of the total concentration of PAHs. Potentiometric studies revealed the steric-based PAH sorption mechanism that strongly depended on the presence of negatively dissociating structures such as carboxylic or phenolic functional groups. Based on the changes in Q8 values, the size-exclusion effect was more likely for 5- and 6-ring compounds. Pores < 5 µm, which had the largest share in the specific surface area, were the preferred sites for PAH sequestration and stabilization in bottom sediments. The availability of PAHs was reduced in sediments with high organic matter content. The PAH bioaccumulation factor significantly decreased with increasing TOC content in sediments. Higher mortality and growth inhibition of H. incongruens were observed in samples with high and medium TOC contents than in those with low TOC content.
Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several reviews, PAH sorption processes in bottom sediments has not been comprehensively discussed. Understanding the dependencies governing PAH sorption processes will allow to predict, monitor, and mitigate the ecological effects of PAH contamination and the associated risks to humans or wildlife. The objectives of the study were to assess the relationship between the sorption properties and the content of PAHs in bottom sediments and mussels. The PAH profile was dominated by higher-molecular hydrocarbons, which accounted for 73% of the total concentration of PAHs. Potentiometric studies revealed the steric-based PAH sorption mechanism that strongly depended on the presence of negatively dissociating structures such as carboxylic or phenolic functional groups. Based on the changes in Q8 values, the size-exclusion effect was more likely for 5- and 6-ring compounds. Pores <5µm, which had the largest share in the specific surface area, were the preferred sites for PAH sequestration and stabilization in bottom sediments. The availability of PAHs was reduced in sediments with high organic matter content. The PAH bioaccumulation factor significantly decreased with increasing TOC content in sediments. Higher mortality and growth inhibition of H. incongruens were observed in samples with high and medium TOC contents than in those with low TOC content.
ArticleNumber 130073
Author Klimkowicz-Pawlas, Agnieszka
Skic, Kamil
Boguta, Patrycja
Ukalska-Jaruga, Aleksandra
Baran, Agnieszka
Author_xml – sequence: 1
  givenname: Kamil
  surname: Skic
  fullname: Skic, Kamil
  email: k.skic@ipan.lublin.pl
  organization: Institute of Agrophysics, Polish Academy of Sciences, Doświadczalna 4, Lublin 20-290, Poland
– sequence: 2
  givenname: Patrycja
  surname: Boguta
  fullname: Boguta, Patrycja
  email: p.boguta@ipan.lublin.pl
  organization: Institute of Agrophysics, Polish Academy of Sciences, Doświadczalna 4, Lublin 20-290, Poland
– sequence: 3
  givenname: Agnieszka
  surname: Klimkowicz-Pawlas
  fullname: Klimkowicz-Pawlas, Agnieszka
  email: agnes@iung.pulawy.pl
  organization: Institute of Soil Science and Plant Cultivation – State Research Institute, Department of Soil Science Erosion and Land Protection, Czartoryskich 8, Puławy 24-100, Poland
– sequence: 4
  givenname: Aleksandra
  surname: Ukalska-Jaruga
  fullname: Ukalska-Jaruga, Aleksandra
  email: aukalska@iung.pulawy.pl
  organization: Institute of Soil Science and Plant Cultivation – State Research Institute, Department of Soil Science Erosion and Land Protection, Czartoryskich 8, Puławy 24-100, Poland
– sequence: 5
  givenname: Agnieszka
  surname: Baran
  fullname: Baran, Agnieszka
  email: Agnieszka.Baran@urk.edu.pl
  organization: Department of Agricultural and Environmental Chemistry, University of Agriculture in Krakow, al. Mickiewicza 21, Krakow, Poland
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Snippet Polycyclic aromatic hydrocarbons (PAHs) tend to accumulate in the sediment due to their high hydrophobicity. Despite PAHs have been the subject of several...
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SubjectTerms Bioaccumulation
bioaccumulation factor
ecotoxicology
FTIR spectra
growth retardation
hydrophobicity
mortality
organic matter
PAHs
Sediment porosity
sediments
sorption
surface area
TOC
wildlife
Title Effect of sorption properties on the content, ecotoxicity, and bioaccumulation of polycyclic aromatic hydrocarbons (PAHs) in bottom sediments
URI https://dx.doi.org/10.1016/j.jhazmat.2022.130073
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