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Impact of nanoplastic debris on the stability and transport of metal oxide nanoparticles: role of varying soil solution chemistry

Chemosphere 2022 14 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Gopala Krishna Darbha, Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Zahid Ahmad Ganie, Zahid Ahmad Ganie, Zahid Ahmad Ganie, Zahid Ahmad Ganie, Aniket Choudhary, Aniket Choudhary, Aniket Choudhary, Aniket Choudhary, Aniket Choudhary, Aniket Choudhary, Aniket Choudhary, Nisha Singh, Nisha Singh, Nisha Singh, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Fazel Abdolahpur Monikh Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Nisha Singh, Nisha Singh, Nisha Singh, Nisha Singh, Aniket Choudhary, Aniket Choudhary, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nitin Khandelwal, Nisha Singh, Nisha Singh, Nisha Singh, Ekta Tiwari, Gopala Krishna Darbha, Zahid Ahmad Ganie, Nitin Khandelwal, Ekta Tiwari, Nisha Singh, Gopala Krishna Darbha, Gopala Krishna Darbha, Nitin Khandelwal, Nitin Khandelwal, Aniket Choudhary, Ekta Tiwari, Zahid Ahmad Ganie, Ekta Tiwari, Nisha Singh, Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Zahid Ahmad Ganie, Fazel Abdolahpur Monikh Zahid Ahmad Ganie, Zahid Ahmad Ganie, Gopala Krishna Darbha, Gopala Krishna Darbha, Ekta Tiwari, Ekta Tiwari, Nitin Khandelwal, Gopala Krishna Darbha, Nitin Khandelwal, Gopala Krishna Darbha, Gopala Krishna Darbha, Nisha Singh, Gopala Krishna Darbha, Fazel Abdolahpur Monikh Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Fazel Abdolahpur Monikh Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Aniket Choudhary, Gopala Krishna Darbha, Nitin Khandelwal, Aniket Choudhary, Gopala Krishna Darbha, Gopala Krishna Darbha, Zahid Ahmad Ganie, Zahid Ahmad Ganie, Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Gopala Krishna Darbha, Gopala Krishna Darbha, Fazel Abdolahpur Monikh Fazel Abdolahpur Monikh Gopala Krishna Darbha, Fazel Abdolahpur Monikh Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Nisha Singh, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Gopala Krishna Darbha, Fazel Abdolahpur Monikh

Summary

Researchers investigated how nanoplastic debris affects the stability and transport of copper oxide nanoparticles in soil solutions extracted from three soil types, finding that nanoplastic presence significantly reduced nanoparticle aggregation and sedimentation rates and dramatically increased nanoparticle mobility through soil columns, raising concerns about combined contamination enhancing metal nanoparticle spread in terrestrial environments.

The release of metal-based nanoparticles (MNPs) and nanoplastic debris (NPDs) has become ubiquitous in the natural ecosystem. Interaction between MNPs and NPDs may alter their fate and transport in the sub-surface environment and have not been addressed so far. Therefore, the present study has explored the role of NPDs on the stability and mobility of extensively used MNPs, i.e., CuO nanoparticles (NPs) under varying soil solutions (SS) chemistry. In the absence of NPDs, a very high aggregation of CuO NPs observed in SS extracted from black, lateritic, and red soils, which can be correlated with ionic strength (IS) and type of ionic species. The sedimentation rate (k(1/h)) for CuO NPs was >0.5 h in the case of these SS. Interestingly, the stability and sedimentation behavior of CuO NPs varied significantly in the presence of NPDs. The k for CuO NPs decreased to half and found <0.25 h in the presence of NPDs in all SS. C/C values in breakthrough curves increased drastically (black < alluvial < laterite < red) in presence of NPDs. Results suggest that the release of NPDs in the terrestrial ecosystem is a potential threat leading to increased mobility of MNPs in the environment.

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