Climate change and microplastics: a two-way interaction

Estefan M. da Fonseca; Christine C. Gaylarde

doi:10.20517/eceh.2025.09

Emerging Contaminants and Environmental Health ›› 2025, Vol. 4 ›› Issue (3) :15 DOI: 10.20517/eceh.2025.09

Review

Climate change and microplastics: a two-way interaction

Estefan M. da Fonseca ¹
, Christine C. Gaylarde ²

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Abstract

Microplastics (MPs) maintain a bidirectional relationship with climate change, simultaneously contributing to global warming and being influenced by it. The production, use, and disposal of plastics generate substantial greenhouse gas (GHG) emissions, from the high energy demands of manufacturing to their degradation in the environment. In aquatic ecosystems, MPs reduce phytoplankton activity, compromising primary productivity and decreasing CO₂ uptake. In both terrestrial and aquatic systems, MPs disrupt biogeochemical cycles, influencing GHG emissions and exacerbating global warming. Atmospheric MPs affect regional and global radiative balances by altering Earth’s cooling processes and contributing to cloud formation and dust transport. In polar environments, the deposition and subsequent release of MPs from melting ice accelerates climate feedback, exposing new areas to further warming. MPs also alter microbial communities, affecting oxygen consumption and GHG release during soil organic matter decomposition. As global temperatures rise, plastic fragmentation intensifies, and extreme weather events increase MP dispersion. Thus, a vicious cycle emerges between global warming and pollution, wherein both factors mutually reinforce each other, undermining natural systems and the planet’s climate stability. This article aims to compile and synthesize current scientific knowledge to provide an overview that supports the development of mitigation measures addressing the challenges posed by MPs in the context of global warming, through a discussion of the characteristics of various Earth compartments, including the atmospheric, sedimentary, aquatic, and biological ones.

Keywords

Greenhouse gases / global warming / biogeochemical cycles / environmental pollution

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Estefan M. da Fonseca, Christine C. Gaylarde. Climate change and microplastics: a two-way interaction. Emerging Contaminants and Environmental Health, 2025, 4(3): 15 DOI:10.20517/eceh.2025.09

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Moss RH,Hibbard KA.The next generation of scenarios for climate change research and assessment.Nature2010;463:747-56

[2]	Dokl M,Krajnc D.Global projections of plastic use, end-of-life fate and potential changes in consumption, reduction, recycling and replacement with bioplastics to 2050.Sustain Prod Consum2024;51:498-518

[3]	Center for International Environmental Law (CIEL). Plastic & climate: The hidden costs of a plastic planet. 2019. https://www.ciel.org/plasticandclimate. (accessed 18 Aug 2025)

[4]	Zheng J.Strategies to reduce the global carbon footprint of plastics.Nat Clim Chang2019;9:374-8

[5]	Ritchie H. How much of global greenhouse gas emissions come from plastics? 2023. https://ourworldindata.org/ghg-emissions-plastics. (accessed 18 Aug 2025)

[6]	Royer SJ,Wilson ST.Production of methane and ethylene from plastic in the environment.PLoS One2018;13:e0200574 PMCID:PMC6070199

[7]	Ford HV,Davies AJ.The fundamental links between climate change and marine plastic pollution.Sci Total Environ2022;806:150392

[8]	Parvez MS,Faruk O,Czédli H.Role of microplastics in global warming and climate change: a review.Water Air Soil Pollut2024;235:7003

[9]	Liang Q,Liu B,Nizami A.Assessment of carbon emission potential of polyvinyl chloride plastics.E3S Web Conf2023;393:01031

[10]	Geyer R,Law KL.Production, use, and fate of all plastics ever made.Sci Adv2017;3:e1700782 PMCID:PMC5517107

[11]	World Economic Forum. The new plastics economy: rethinking the future of plastics. 2016. https://www3.weforum.org/docs/WEF_The_New_Plastics_Economy.pdf. (accessed 18 Aug 2025)

[12]	Drzyzga O.Plastic waste management, a matter for the ‘community’.Microb Biotechnol2019;12:66-8 PMCID:PMC6302740

[13]	Zhu X,Kaufman H.The knowns and unknowns in our understanding of how plastics impact climate change: a systematic review.Front Environ Sci2025;13:1563488

[14]	Chen G,Sun Y.Replacing traditional plastics with biodegradable plastics: impact on carbon emissions.Engineering2024;32:152-62

[15]	Yan XH,Trenberth K.The global warming hiatus: slowdown or redistribution?.Earths Future2016;4:472-82 PMCID:PMC6686362

[16]	Bain A.Buoyancy and Brownian motion of plastics in aqueous media: predictions and implications for density separation and aerosol internal mixing state.Environ Sci Nano2022;9:4249-54

[17]	Kukulka T,Proskurowski G.Evidence for the influence of surface heat fluxes on turbulent mixing of microplastic marine debris.J Phys Oceanogr2016;46:809-15

[18]	Li C,Wang X.Elucidating the distribution and characteristics of microplastics in water column of the northwestern South China Sea with a large-volume in situ filtration technology (plankton pump).Front Mar Sci2025;12:1556592

[19]	Hoehn DP,Barry J,Nicolaus EEM.Microplastics in sea surface waters in the Southern Bight of the North Sea.Front Mar Sci2024;11:1430307

[20]	Zhang Y,Gao T.Microplastics have light-absorbing ability to enhance cryospheric melting.Adv Clim Change Res2022;13:455-8

[21]	Revell LE,Le Ru EC,Gaw S.Direct radiative effects of airborne microplastics.Nature2021;598:462-7

[22]	Pierella Karlusich, J. J.; Bowler, C.; Biswas, H. Carbon dioxide concentration mechanisms in natural populations of marine diatoms: insights from Tara Oceans.Front Plant Sci2021;12:657821 PMCID:PMC8119650

[23]	Jones CD,Rumbold ST.The climate response to emissions reductions due to COVID-19: initial results from CovidMIP.Geophys Res Lett2021;48:e2020GL091883 PMCID:PMC8206678

[24]	Rohr T,Lenton A,Shadwick EH.Zooplankton grazing is the largest source of uncertainty for marine carbon cycling in CMIP6 models.Commun Earth Environ2023;4:871

[25]	Richon C,Cole M.Model exploration of microplastic effects on zooplankton grazing reveal potential impacts on the global carbon cycle.Environ Res Lett2024;19:074031

[26]	Zhu R,Zhang N.A global estimate of multiecosystem photosynthesis losses under microplastic pollution.Proc Natl Acad Sci U S A2025;122:e2423957122 PMCID:PMC11929485

[27]	Kvale K.Recovery from microplastic-induced marine deoxygenation may take centuries.Nat Geosci2023;16:10-2

[28]	Zettler ER,Amaral-Zettler LA.Life in the “plastisphere”: microbial communities on plastic marine debris.Environ Sci Technol2013;47:7137-46

[29]	Montoya D,Casotti R.Microplastics alter the functioning of marine microbial ecosystems.Ecol Evol2024;14:e70041 PMCID:PMC11564128

[30]	Roberts C,Khachikyan A,Munn CB.Microplastics may reduce the efficiency of the biological carbon pump by decreasing the settling velocity and carbon content of marine snow.Limnol Oceanogr2024;69:1918-28

[31]	Choy CA,Gagne TO.The vertical distribution and biological transport of marine microplastics across the epipelagic and mesopelagic water column.Sci Rep2019;9:7843 PMCID:PMC6554305

[32]	Ziervogel K,De Jesus AZ.Microbial interactions with microplastics: insights into the plastic carbon cycle in the ocean.Mar Chem2024;262:104395

[33]	Shen M,Zeng G.Can microplastics pose a threat to ocean carbon sequestration?.Mar Pollut Bull2020;150:110712

[34]	Du Y,Li S.Carbon sequestration reduced by the interference of nanoplastics on copper bioavailability.J Hazard Mater2024;468:133841

[35]	Kakar FL,Onyedibe V,Dhar BR.Chapter 16 - Climate change interaction with microplastics and nanoplastics pollution. In: Current developments in biotechnology and bioengineering. Elsevier; 2023. pp. 387-403.

[36]	Le Moigne, F. A. C. Pathways of organic carbon downward transport by the oceanic biological carbon pump.Front Mar Sci2019;6:634

[37]	Oliveri Conti, G.; Rapisarda, P.; Ferrante, M. Relationship between climate change and environmental microplastics: a one health vision for the platysphere health.One Health Adv2024;2:49

[38]	Li K,Qin C,Wang H.Microplastic pollution as an environmental risk exacerbating the greenhouse effect and climate change: a review.Carbon Res2024;3:97

[39]	Rosentreter JA,Deemer BR.Half of global methane emissions come from highly variable aquatic ecosystem sources.Nat Geosci2021;14:225-30

[40]	Zhang W,Liu L,Wang L.Effects of microplastics on greenhouse gas emissions and microbial communities in sediment of freshwater systems.J Hazard Mater2022;435:129030

[41]	Zhou Y,Wang H,Chang J.Micro/nanoplastic pollution heterogeneously increased greenhouse gas emissions from wetlands: a multilevel meta-analysis.J Clean Prod2024;459:142527

[42]	Chen G,Liu L,Tang J.Effects of microplastics on microbial community and greenhouse gas emission in soil: a critical review.Ecotoxicol Environ Saf2025;289:117419

[43]	Shi J,Sun Y.Microplastics generate less mineral protection of soil carbon and more CO₂ emissions.Adv Sci2025;12:e2409585 PMCID:PMC11831443

[44]	Chen C,Xiao S.Microplastics alter nitrous oxide production and pathways through affecting microbiome in estuarine sediments.Water Res2022;221:118733

[45]	Liu Z,Wu L.Effect of polyethylene microplastics and acid rain on the agricultural soil ecosystem in Southern China.Environ Pollut2022;303:119094

[46]	Niu S,Zhao Q.Quantifying the chemical composition and real-time mass loading of nanoplastic particles in the atmosphere using aerosol mass spectrometry.Environ Sci Technol2024;58:3363-74

[47]

Nunez J,Mitrano D.Disentangling microplastics effects on soil structure, microbial activity and greenhouse gas emissions. In Disentangling microplastics effects on soil structure, microbial activity and greenhouse gas emissions, EGU General Assembly 2022, Vienna, Austria, May 23-27, 2022. EGU22-2723.

[48]	Nayab G,Jia R.Climate warming masks the negative effect of microplastics on plant-soil health in a silt loam soil.Geoderma2022;425:116083

[49]	Zhang Y,Xiao M,Yu Y.Effects of microplastics on soil carbon dioxide emissions and the microbial functional genes involved in organic carbon decomposition in agricultural soil.Sci Total Environ2022;806:150714

[50]	Seeley ME,Passie R.Microplastics affect sedimentary microbial communities and nitrogen cycling.Nat Commun2020;11:2372 PMCID:PMC7217880

[51]	Basumatary T,Boro S,Narayan M.Dynamics and impacts of microplastics (MPs) and nanoplastics (NPs) on ecosystems and biogeochemical processes: the need for robust regulatory frameworks.ACS Omega2025;10:17051-69 PMCID:PMC12060063

[52]	Gao H,Yan C.Macro-and/or microplastics as an emerging threat effect crop growth and soil health.Resour Conserv Recycl2022;186:106549

[53]	Guo S,Sun S,Yao M.Concurrence of microplastics and heat waves reduces rice yields and disturbs the agroecosystem nitrogen cycle.J Hazard Mater2023;452:131340

[54]	Iqbal S,Saleem Arif M.Could soil microplastic pollution exacerbate climate change? A meta-analysis of greenhouse gas emissions and global warming potential.Environ Res2024;252:118945

[55]	Dad FP,Kirkham MB,Tanveer M.Microplastics: a review of their impacts on different life forms and their removal methods.Environ Sci Pollut Res Int2023;30:86632-55

[56]	Chen G,Liu S,Wang J.Effects of micro(nano)plastics on higher plants and the rhizosphere environment.Sci Total Environ2022;807:150841

[57]	Wu F,Wang S,Gao Y.Microplastic occurrences, transport, and quantification and associated effects on primary productivity and carbon cycling processes in freshwater ecosystems.TrAC Trends Anal Chem2024;172:117611

[58]	Ding L,Ouyang Z.The effects of microplastics on soil ecosystem: a review.Curr Opin Environ Sci Health2022;26:100344

[59]	Galir A,Stević F,Dent M.Microplastics and the freshwater plankton: effects on grazing and mortality.J Hazard Mater2025;488:137497

[60]	Roy AKD.Determinants of participation of mangrove-dependent communities in mangrove conservation practices.Ocean Coast Manag2014;98:70-8

[61]	Wang Y.Ecological responses, adaptation and mechanisms of mangrove wetland ecosystem to global climate change and anthropogenic activities.Int Biodeterior Biodegrad2021;162:105248

[62]	Zhang P,Zhang J,Wang S.Human activities altered the enrichment patterns of microplastics in mangrove blue carbon ecosystem in the semi-enclosed Zhanjiang Bay, China.Front Mar Sci2024;11:1362170

[63]	Huang Y,Effiong K.New insights into the microplastic enrichment in the blue carbon ecosystem: evidence from seagrass meadows and mangrove forests in coastal South China Sea.Environ Sci Technol2021;55:4804-12

[64]	Hou X,Zhao Y.Distinct impacts of microplastics on the carbon sequestration capacity of coastal blue carbon ecosystems: a case of seagrass beds.Mar Environ Res2024;202:106793

[65]	Molin JM,Hansen PJ,Brodersen KE.Microplastic pollution associated with reduced respiration in seagrass (Zostera marina L.) and associated epiphytes.Front Mar Sci2023;10:1216299

[66]	Nugraha AH,Apriadi T,Azis MY.Impact of microplastic exposure on the health of tropical seagrass (Enhalus acoroides) seedlings.Mar Pollut Bull2025;213:117617

[67]	Overbeek CC,van Zuidam JP.Drivers of vegetation development, biomass production and the initiation of peat formation in a newly constructed wetland.Ecosystems2020;23:1019-36

[68]	Cyvin JB,Kveberg AA.Macroplastic in soil and peat. A case study from the remote islands of Mausund and Froan landscape conservation area, Norway; implications for coastal cleanups and biodiversity.Sci Total Environ2021;787:147547

[69]	Mora-Gomez J,Freslon N.The impact of polyvinyl chloride microplastics on carbon and nitrogen cycling in peat-forming environments: relevance of the filler additive calcium carbonate (CaCO₃).Sci Total Environ2025;977:179341

[70]	O’Brien S,Ribeiro F.There’s something in the air: a review of sources, prevalence and behaviour of microplastics in the atmosphere.Sci Total Environ2023;874:162193

[71]	Gaylarde C G,da Fonseca EM.Atmospheric microplastics: inputs and outputs.Micro2025;5:27

[72]	Singh M,Kulshreshtha UC.Microplastics. In: Gaur N, Sharma E, Nguyen TA, Bilal M, Melkania NP, editors. Societal and environmental ramifications of plastic pollution. IGI Global; 2024. pp. 27-42.

[73]	Yang H,Sha X.Influence of regional environmental variables on the radiative forcing of atmospheric microplastics.Eco Environ Health2025;4:100128 PMCID:PMC11833332

[74]	Zhao X.Life cycle assessment of microplastics reveals their greater environmental hazards than mismanaged polymer waste losses.Environ Sci Technol2022;56:11780-97

[75]	Bornman JF,Robson TM.Linkages between stratospheric ozone, UV radiation and climate change and their implications for terrestrial ecosystems.Photochem Photobiol Sci2019;18:681-716

[76]	Ferrero L,Markuszewski P.Airborne and marine microplastics from an oceanographic survey at the Baltic Sea: an emerging role of air-sea interaction?.Sci Total Environ2022;824:153709

[77]	Aeschlimann M,Kanji ZA.Microplastics and nanoplastics in the atmosphere: the potential impacts on cloud formation processes.Nat Geosci2022;15:967-75 PMCID:PMC7613933

[78]	Balla A,Kiss T.Microplastic clouds in rivers: spatiotemporal dynamics of microplastic pollution in a fluvial system.Environ Sci Eur2024;36:967

[79]	McErlich C,Goddard F,Revell L.Global climate model development: adding microplastics to the UK Earth System Model. In Global climate model development: Adding microplastics to the UK Earth System Model, EGU General Assembly 2025, Vienna, Austria, Apr 27 - May 2, 2025. EGU25-1543.

[80]	Allen S,Moss K,Phoenix VR.Examination of the ocean as a source for atmospheric microplastics.PLoS One2020;15:e0232746 PMCID:PMC7217454

[81]	Brahney J,Prank M.Constraining the atmospheric limb of the plastic cycle.Proc Natl Acad Sci U S A2021;118:e2020719118 PMCID:PMC8072239

[82]	Luo H,Han Y.Examining cloud vertical structure and radiative effects from satellite retrievals and evaluation of CMIP6 scenarios.Atmos Chem Phys2023;23:8169-86

[83]	Zhang H,Li J.Shortwave cloud warming effect observed over highly reflective Greenland.Sci Bull2025;70:951-9

[84]	Chen X,Wang J.Presence of different microplastics promotes greenhouse gas emissions and alters the microbial community composition of farmland soil.Sci Total Environ2023;879:162967

[85]	Kida M,Koszelnik P.CH₄ and CO₂ emissions from the decomposition of microplastics in the bottom sediment - preliminary studies.Environments2022;9:91

[86]	Huo Y,Possell M.Mineralisation and priming effects of a biodegradable plastic mulch film in soils: influence of soil type, temperature and plastic particle size.Soil Biol Biochem2024;189:109257

[87]	Hao Y,Ju S.Possible hazards from biodegradation of soil plastic mulch: increases in microplastics and CO₂ emissions.J Hazard Mater2024;467:133680

[88]	Wang Y,Zhao C,Gong W.The impact of biodegradable plastics on methane and carbon dioxide emissions in soil ecosystems: a Fourier transform infrared spectroscopy approach.Sci Rep2025;15:7678 PMCID:PMC11883015

[89]	Kim SW,van Loon S.Effects of biodegradable microplastics on soil microbial communities and activities: insight from an ecological mesocosm experiment.Sci Total Environ2025;975:179288

[90]	Greenfield LM,Rengaraj S.Field response of N₂O emissions, microbial communities, soil biochemical processes and winter barley growth to the addition of conventional and biodegradable microplastics.Agric Ecosyst Environ2022;336:108023

[91]	He Y,Yang X.Biodegradable microplastics aggravate greenhouse gas emissions from urban lake sediments more severely than conventional microplastics.Water Res2024;266:122334

[92]	Shen YT,Miao YQ,Cui H.Synergistic effects of microplastics and sulfonamide on greenhouse gas emissions in agricultural ditch sediments: insights into microbial interactions.J Hazard Mater2024;480:136378

[93]	Evangeliou N,Klimont Z.Atmospheric transport is a major pathway of microplastics to remote regions.Nat Commun2020;11:3381 PMCID:PMC7360784

[94]	Corami F,Hallanger IG.Editorial: Microplastics and nanoplastics in polar areas: Arctic, Antarctica, and the world’s glaciers.Front Mar Sci2025;12:1587557

[95]	Rantanen M,Lipponen A.The Arctic has warmed nearly four times faster than the globe since 1979.Commun Earth Environ2022;3:498

[96]	Gaylarde CC,da Fonseca EM.Microplastics in the cryosphere - a potential time bomb?.Water Emerg Contam Nanoplastics2023;2:20

[97]	Brahney J,Heim E,Sukumaran S.Plastic rain in protected areas of the United States.Science2020;368:1257-60

[98]	Lozier MS.Overturning in the subpolar North Atlantic: a review.Philos Trans A Math Phys Eng Sci2023;381:20220191 PMCID:PMC10590667

[99]	Fiore M,Migliavacca A,Fino D.Tackling marine microplastics pollution: an overview of existing solutions.Water Air Soil Pollut2022;233:5715

[100]

Bamber JL,Marzeion B.The land ice contribution to sea level during the satellite era.Environ Res Lett2018;13:063008

[101]

Rahmstorf S,Feulner G.Exceptional twentieth-century slowdown in Atlantic Ocean overturning circulation.Nature Clim Change2015;5:475-80

[102]

Caesar L,Robinson A,Saba V.Observed fingerprint of a weakening Atlantic Ocean overturning circulation.Nature2018;556:191-6

[103]

Weijer W,Garuba OA,Nadiga BT.CMIP6 models predict significant 21st Century decline of the Atlantic meridional overturning circulation.Geophys Res Lett2020;47:e2019GL086075

[104]

Hirschi JJM,Böning C.The atlantic meridional overturning circulation in high-resolution models.J Geophys Res Oceans2020;125:e2019JC015522

[105]

Zhang H.Transport of microplastics in coastal seas.Estuar Coast Shelf Sci2017;199:74-86

[106]

Bhattacharya P,Turner JP.Physical adsorption of charged plastic nanoparticles affects algal photosynthesis.J Phys Chem C2010;114:16556-61

[107]

Ducklow HW,Martinson DG.Marine pelagic ecosystems: the west Antarctic Peninsula.Philos Trans R Soc Lond B Biol Sci2007;362:67-94 PMCID:PMC1764834

[108]

Li X,Zhou L.Production potential of greenhouse gases affected by microplastics at freshwater and saltwater ecosystems.Atmosphere2022;13:1796

[109]

Gigault J,Baudrimont M.Current opinion: What is a nanoplastic?.Environ Pollut2018;235:1030-4

[110]

Gallo F,Weber R.Marine litter plastics and microplastics and their toxic chemicals components: the need for urgent preventive measures.Environ Sci Eur2018;30:13 PMCID:PMC5918521

[111]

Ragaert K,Van Geem K.Mechanical and chemical recycling of solid plastic waste.Waste Manag2017;69:24-58

[112]

Franklin Associates. Life cycle inventory of packaging options for shipment of retail mail-order soft goods. U.S. EPA. https://www.oregon.gov/deq/FilterDocs/LifeCycleInventory.pdf. (accessed 18 Aug 2025)

[113]

Plastics Europe. Plastics - the Facts 2022: An analysis of European plastics production, demand, conversion and end-of-life management. https://plasticseurope.org/knowledge-hub/plastics-the-facts-2022/. (accessed 18 Aug 2025)

[114]

Greenhouse Gas Emissions Estimates System. Emissions by sector: Waste in Brazil. 2023. http://seeg.eco.br/. (accessed 18 Aug 2025)

[115]

Chang M,Zhang L.Changes in characteristics and risk of freshwater microplastics under global warming.Water Res2024;260:121960

[116]

Han W,Wang Y,Huang C.The interaction between sludge and microplastics during thermal hydrolysis of sludge.J Hazard Mater2024;480:135816

[117]

Zhu N,Yu Y.Fate of microplastics in soil-water systems: view from free radicals driven by global climate change.Ecotoxicol Environ Saf2025;295:118138

[118]

Rowlands E,Manno C.A Polar outlook: Potential interactions of micro- and nano-plastic with other anthropogenic stressors.Sci Total Environ2021;754:142379

[119]

Belioka M.The effect of weathering conditions in combination with natural phenomena/disasters on microplastics’ transport from aquatic environments to agricultural soils.Microplastics2024;3:518-38

[120]

Purwiyanto AIS,Riani E,Cordova MR.The deposition of atmospheric microplastics in Jakarta-Indonesia: the coastal urban area.Mar Pollut Bull2022;174:113195

[121]

Yuan Z,Li H.Atmospheric microplastics at a southern China metropolis: occurrence, deposition flux, exposure risk and washout effect of rainfall.Sci Total Environ2023;869:161839

[122]

Winijkul E,Limsiriwong K,Prapaspongsa T.Depositions of airborne microplastics during the wet and dry seasons in Pathum Thani, Thailand.Atmos Pollut Res2024;15:102242

[123]

Qiao K.Breaking the coastal barrier: typhoons convert estuarine mangroves into sources of microplastics to the ocean.J Hazard Mater2025;485:136802

[124]

Haque F.Fate of microplastics under the influence of climate change.iScience2023;26:107649 PMCID:PMC10475515

[125]

Courtene-Jones W,Thompson RC.Effect of biodegradable and conventional microplastic exposure in combination with seawater inundation on the coastal terrestrial plant Plantago coronopus.Environ Pollut2024;360:124573

[126]

Obbard RW,Wong YQ,Baker I.Global warming releases microplastic legacy frozen in Arctic Sea ice.Earths Future2014;2:315-20

[127]

Jones-Williams K,Primpke S.Microplastics in Antarctica - a plastic legacy in the Antarctic snow?.Sci Total Environ2025;966:178543

[128]

Materić D,Vallelonga P,Röckmann T.Nanoplastics measurements in Northern and Southern polar ice.Environ Res2022;208:112741

[129]

Odic F,Schneebeli M.Frazil ice formation causes divergent levels of microplastic and nanoplastic accumulation in sea ice.Environ Sci Technol Lett2025;12:655-60

[130]

Alice P,Dominique B.Micro- and nanoplastic transfer in freezing saltwater: implications for their fate in polar waters.Environ Sci Process Impacts2021;23:1759-70

[131]

Chen Z,An C.Entrainment and enrichment of microplastics in ice formation processes: implications for the transport of microplastics in cold regions.Environ Sci Technol2023;57:3176-86

[132]

Wang Y,Tani Y.Airborne hydrophilic microplastics in cloud water at high altitudes and their role in cloud formation.Environ Chem Lett2023;21:3055-62