Characterization of Microplastics and Adsorbed/Dissolved Polycyclic Aromatic Hydrocarbons in the Biggest River System in Saitama and Tokyo, Japan
Nanomaterials2024
6 citations
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Score: 45
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Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Weiqian Wang
Christian Ebere Enyoh,
Kenshi Sankoda,
Kenshi Sankoda,
Kenshi Sankoda,
Kenshi Sankoda,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Yojiro Yamada,
Yojiro Yamada,
Yojiro Yamada,
Yojiro Yamada,
Qingyue Wang,
Qingyue Wang,
Weiqian Wang
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Yojiro Yamada,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Weiqian Wang
Yojiro Yamada,
Qingyue Wang,
Weiqian Wang
Weiqian Wang
Qingyue Wang,
Weiqian Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Weiqian Wang
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Weiqian Wang
Christian Ebere Enyoh,
Qingyue Wang,
Weiqian Wang
Qingyue Wang,
Weiqian Wang
Weiqian Wang
Weiqian Wang
Kenshi Sankoda,
Qingyue Wang,
Qingyue Wang,
Weiqian Wang
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Christian Ebere Enyoh,
Qingyue Wang,
Christian Ebere Enyoh,
Weiqian Wang
Qingyue Wang,
Weiqian Wang
Summary
This study characterized microplastics and associated polycyclic aromatic hydrocarbons in the Arakawa River, the largest river system in Tokyo, finding an average of 2.21 pieces per cubic meter with polyethylene comprising 55.9 percent of polymer types. PAH concentrations showed seasonal variation, with higher levels observed in winter.
This study presents a comprehensive characterization of microplastics (MPs) and adsorbed/dissolved polycyclic aromatic hydrocarbons (PAHs) in the Arakawa River, the largest river system in Saitama and Tokyo, Japan. The MPs were sampled at various points along the river, revealing an average number density of 2.21 ± 1.48 pieces/m<sup>3</sup>, with a predominant size range of 0.5-1 mm. Polymer analysis indicated that polyethylene (PE) comprised the highest proportion of MPs (55.9%), followed by polypropylene (PP) (22.4%) and polystyrene (PS) (21.7%). Seasonal fluctuations in MPs concentration were observed, with the highest values in winter and the lowest in summer. An analysis of adsorbed PAHs revealed a median partition coefficient (Kd) value of 3.58 × 10<sup>4</sup> L/kg for MPs, indicating their affinity for PAHs. Further PAHs analysis revealed that the PAHs with the highest mean values were bicyclic naphthalene, pyrene, and fluoranthene. A comparison with coastal MPs showed differences in PAH composition, with higher proportions of high-ring PAHs observed in coastal samples. The study also investigated the distribution of PAHs in the dissolved and suspended states in the river, finding that similar PAHs were distributed in both states, with the PAHs present in MPs being about 1/10,000 of those in the dissolved and suspended states. The study underscores the importance of the continued monitoring and management of MPs and associated pollutants in river ecosystems.