Macroplastic fragmentation in rivers

2023
journal article
article
55
dc.abstract.enThe process of macroplastic (>0.5 cm) fragmentation results in the production of smaller plastic particles, which threaten biota and human health and are difficult to remove from the environment. The global coverage and long retention times of macroplastic waste in fluvial systems (ranging from years to centuries) create long-lasting and widespread potential for its fragmentation and the production of secondary micro- and nanoplastics. However, the pathways and rates of this process are mostly unknown and existing experimental data not fully informative, which constitutes a fundamental knowledge gap in our understanding of macroplastic fate in rivers and the transfer of produced microparticles throughout the environment. Here we present a conceptual framework which identifies two types of riverine macroplastic fragmentation controls: intrinsic (resulting from plastic item properties) and extrinsic (resulting from river characteristics and climate). First, based on the existing literature, we identify the intrinsic properties of macroplastic items that make them particularly prone to fragmentation (e.g., film shape, low polymer resistance, previous weathering). Second, we formulate a conceptual model showing how extrinsic controls can modulate the intensity of macroplastic fragmentation in perennial and intermittent rivers. Using this model, we hypothesize that the inundated parts of perennial river channels—as specific zones exposed to the constant transfer of water and sediments—provide particular conditions that accelerate the physical fragmentation of macroplastics resulting from their mechanical interactions with water, sediments, and riverbeds. The unvegetated areas in the non-inundated parts of perennial river channels provide conditions for biochemical fragmentation via photo-oxidation. In intermittent rivers, the whole channel zone is hypothesized to favor both the physical and biochemical fragmentation of macroplastics, with the dominance of the mechanical type during the periods with water flow. Our conceptualization aims to support future experimental and modelling works quantifying plastic footprint of different macroplastic waste in different types of rivers.pl
dc.affiliationWydział Geografii i Geologii : Instytut Geografii i Gospodarki Przestrzennejpl
dc.contributor.authorLiro, Maciej - 163182 pl
dc.contributor.authorZielonka, Anna - 202971 pl
dc.contributor.authorvan Emmerik, Tim H. M.pl
dc.date.accessioned2023-09-22T10:39:52Z
dc.date.available2023-09-22T10:39:52Z
dc.date.issued2023pl
dc.date.openaccess0
dc.description.accesstimew momencie opublikowania
dc.description.additionalBibliogr.pl
dc.description.versionostateczna wersja wydawcy
dc.description.volume180pl
dc.identifier.articleid108186pl
dc.identifier.doi10.1016/j.envint.2023.108186pl
dc.identifier.eissn1873-6750pl
dc.identifier.issn0160-4120pl
dc.identifier.urihttps://ruj.uj.edu.pl/xmlui/handle/item/319588
dc.languageengpl
dc.language.containerengpl
dc.rightsUdzielam licencji. Uznanie autorstwa 4.0 Międzynarodowa*
dc.rights.licenceCC-BY
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/legalcode.pl*
dc.share.typeotwarte czasopismo
dc.source.integratorfalse
dc.subject.enplastic abrasionpl
dc.subject.enplastic breakdownpl
dc.subject.enmechanical weatheringpl
dc.subject.enmechanical degradationpl
dc.subject.enriver hydrodynamicspl
dc.subtypeArticlepl
dc.titleMacroplastic fragmentation in riverspl
dc.title.journalEnvironment Internationalpl
dc.typeJournalArticlepl
dspace.entity.typePublication
dc.abstract.enpl
The process of macroplastic (>0.5 cm) fragmentation results in the production of smaller plastic particles, which threaten biota and human health and are difficult to remove from the environment. The global coverage and long retention times of macroplastic waste in fluvial systems (ranging from years to centuries) create long-lasting and widespread potential for its fragmentation and the production of secondary micro- and nanoplastics. However, the pathways and rates of this process are mostly unknown and existing experimental data not fully informative, which constitutes a fundamental knowledge gap in our understanding of macroplastic fate in rivers and the transfer of produced microparticles throughout the environment. Here we present a conceptual framework which identifies two types of riverine macroplastic fragmentation controls: intrinsic (resulting from plastic item properties) and extrinsic (resulting from river characteristics and climate). First, based on the existing literature, we identify the intrinsic properties of macroplastic items that make them particularly prone to fragmentation (e.g., film shape, low polymer resistance, previous weathering). Second, we formulate a conceptual model showing how extrinsic controls can modulate the intensity of macroplastic fragmentation in perennial and intermittent rivers. Using this model, we hypothesize that the inundated parts of perennial river channels—as specific zones exposed to the constant transfer of water and sediments—provide particular conditions that accelerate the physical fragmentation of macroplastics resulting from their mechanical interactions with water, sediments, and riverbeds. The unvegetated areas in the non-inundated parts of perennial river channels provide conditions for biochemical fragmentation via photo-oxidation. In intermittent rivers, the whole channel zone is hypothesized to favor both the physical and biochemical fragmentation of macroplastics, with the dominance of the mechanical type during the periods with water flow. Our conceptualization aims to support future experimental and modelling works quantifying plastic footprint of different macroplastic waste in different types of rivers.
dc.affiliationpl
Wydział Geografii i Geologii : Instytut Geografii i Gospodarki Przestrzennej
dc.contributor.authorpl
Liro, Maciej - 163182
dc.contributor.authorpl
Zielonka, Anna - 202971
dc.contributor.authorpl
van Emmerik, Tim H. M.
dc.date.accessioned
2023-09-22T10:39:52Z
dc.date.available
2023-09-22T10:39:52Z
dc.date.issuedpl
2023
dc.date.openaccess
0
dc.description.accesstime
w momencie opublikowania
dc.description.additionalpl
Bibliogr.
dc.description.version
ostateczna wersja wydawcy
dc.description.volumepl
180
dc.identifier.articleidpl
108186
dc.identifier.doipl
10.1016/j.envint.2023.108186
dc.identifier.eissnpl
1873-6750
dc.identifier.issnpl
0160-4120
dc.identifier.uri
https://ruj.uj.edu.pl/xmlui/handle/item/319588
dc.languagepl
eng
dc.language.containerpl
eng
dc.rights*
Udzielam licencji. Uznanie autorstwa 4.0 Międzynarodowa
dc.rights.licence
CC-BY
dc.rights.uri*
http://creativecommons.org/licenses/by/4.0/legalcode.pl
dc.share.type
otwarte czasopismo
dc.source.integrator
false
dc.subject.enpl
plastic abrasion
dc.subject.enpl
plastic breakdown
dc.subject.enpl
mechanical weathering
dc.subject.enpl
mechanical degradation
dc.subject.enpl
river hydrodynamics
dc.subtypepl
Article
dc.titlepl
Macroplastic fragmentation in rivers
dc.title.journalpl
Environment International
dc.typepl
JournalArticle
dspace.entity.type
Publication
Affiliations

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