REFERENCES

1. Kanhai DK, Gardfeldt K, Krumpen T, Thompson RC, O’Connor I. Microplastics in sea ice and seawater beneath ice floes from the Arctic Ocean. Sci Rep 2020;10:5004.

2. Bergmann M, Mützel S, Primpke S, Tekman MB, Trachsel J, Gerdts G. White and wonderful? Microplastics prevail in snow from the Alps to the Arctic. Sci Adv 2019;5:eaax1157.

3. Obbard RW, Sadri S, Wong YQ, Khitun AA, Baker I, Thompson RC. Global warming releases microplastic legacy frozen in Arctic Sea ice. Earth’s Future 2014;2:315-20.

4. Peeken I, Primpke S, Beyer B, et al. Arctic sea ice is an important temporal sink and means of transport for microplastic. Nat Commun 2018;9:1505.

5. Fraser CI, Kay GM, Plessis MD, Ryan PG. Breaking down the barrier: dispersal across the Antarctic Polar Front. Ecography 2017;40:235-7.

6. Mountford AS, Morales Maqueda MA. Modeling the accumulation and transport of microplastics by sea ice. JGR Oceans 2021;126:e2020JC016826.

7. Suaria G, Perold V, Lee JR, Lebouard F, Aliani S, Ryan PG. Floating macro- and microplastics around the Southern Ocean: results from the Antarctic circumnavigation expedition. Environ Int 2020;136:105494.

8. De-la-Torre GE, Santillán L, Dioses-Salinas DC, et al. Assessing the current state of plastic pollution research in Antarctica: knowledge gaps and recommendations. Chemosphere 2024;355:141870.

9. da Silva JRMC, Bergami E, Gomes V, Corsi I. Occurrence and distribution of legacy and emerging pollutants including plastic debris in Antarctica: sources, distribution and impact on marine biodiversity. Mar Pollut Bull 2023;186:114353.

10. Tirelli V, Suaria G, Lusher AL. Microplastics in polar samples. In: Rocha-Santos T, Costa MF, Mouneyrac C, editors. Handbook of microplastics in the environment. Cham: Springer International Publishing; 2022. pp. 281-322.

11. Fraser CI, Morrison AK, Hogg AM, et al. Antarctica’s ecological isolation will be broken by storm-driven dispersal and warming. Nature Clim Change 2018;8:704-8.

12. Isobe A, Uchiyama-Matsumoto K, Uchida K, Tokai T. Microplastics in the Southern Ocean. Mar Pollut Bull 2017;114:623-6.

13. Waller CL, Griffiths HJ, Waluda CM, et al. Microplastics in the Antarctic marine system: an emerging area of research. Sci Total Environ 2017;598:220-7.

14. Kelly A, Lannuzel D, Rodemann T, Meiners KM, Auman HJ. Microplastic contamination in east Antarctic sea ice. Mar Pollut Bull 2020;154:111130.

15. Materić D, Kjær HA, Vallelonga P, Tison JL, Röckmann T, Holzinger R. Nanoplastics measurements in Northern and Southern polar ice. Environ Res 2022;208:112741.

16. Aves AR, Revell LE, Gaw S, et al. First evidence of microplastics in Antarctic snow. The Cryosphere 2022;16:2127-45.

17. Cunningham EM, Ehlers SM, Dick JTA, et al. High abundances of microplastic pollution in deep-sea sediments: evidence from Antarctica and the Southern Ocean. Environ Sci Technol 2020;54:13661-71.

18. Cunningham EM, Rico Seijo N, Altieri KE, et al. The transport and fate of microplastic fibres in the Antarctic: the role of multiple global processes. Front Mar Sci 2022;9:1056081.

19. Lacerda ALDF, Rodrigues LDS, van Sebille E, et al. Plastics in sea surface waters around the Antarctic Peninsula. Sci Rep 2019;9:3977.

20. Zhang Y, Gao T, Kang S, Sillanpää M. Importance of atmospheric transport for microplastics deposited in remote areas. Environ Pollut 2019;254:112953.

21. Nowlin WD, Klinck JM. The physics of the Antarctic circumpolar current. Rev Geophys 1986;24:469-91.

22. Ryan S, Schröder M, Huhn O, Timmermann R. On the warm inflow at the eastern boundary of the Weddell Gyre. Deep Sea Res Pt I 2016;107:70-81.

23. Tamsitt V, Drake HF, Morrison AK, et al. Spiraling pathways of global deep waters to the surface of the Southern Ocean. Nat Commun 2017;8:172.

24. Pennel R, Kamenkovich I. On the factors controlling the eddy-induced transport in the Antarctic circumpolar current. J Phys Oceanogr 2014;44:2127-38.

25. Rintoul SR, Naveira Garabato AC. Dynamics of the Southern Ocean circulation. Ocean circulation and climate - a 21st century perspective. Elsevier; 2013. pp. 471-92.

26. National Snow and Ice Data Center. NOAA/NSIDC climate data record of passive microwave sea ice concentration, version 4. Available from: https://nsidc.org/data/g02202/versions/4. [Last accessed on 23 Dec 2024].

27. Geilfus NX, Munson KM, Sousa J, et al. Distribution and impacts of microplastic incorporation within sea ice. Mar Pollut Bull 2019;145:463-73.

28. Spindler M. Notes on the biology of sea ice in the Arctic and Antarctic. Polar Biol 1994;14:BF00238447.

29. Leventer A. Particulate flux from sea ice in polar waters. In: Thomas DN, Dieckmann GS, editors. Sea ice. Wiley; 2003. pp. 303-32.

30. Jeffries MO, Krouse HR, Hurst-Cushing B, Maksym T. Snow-ice accretion and snow-cover depletion on Antarctic first-year sea-ice floes. Ann Glaciol 2001;33:51-60.

31. Lannuzel D, de Jong J, Schoemann V, Trevena A, Tison J, Chou L. Development of a sampling and flow injection analysis technique for iron determination in the sea ice environment. Anal Chim Acta 2006;556:476-83.

32. Witzig CS, Földi C, Wörle K, et al. When good intentions go bad-false positive microplastic detection caused by disposable gloves. Environ Sci Technol 2020;54:12164-72.

33. Quinn B, Murphy F, Ewins C. Validation of density separation for the rapid recovery of microplastics from sediment. Anal Methods 2017;9:1491-8.

34. López-Rosales A, Andrade JM, Grueiro-Noche G, Fernández-González V, López-Mahía P, Muniategui-Lorenzo S. Development of a fast and efficient method to analyze microplastics in planktonic samples. Mar Pollut Bull 2021;168:112379.

35. Thomas DN, Dieckmann GS. Sea ice - an introduction to its physics, chemistry, biology and geology. London: Wiley Blackwell; 2003. Available from: https://www.wiley.com/en-us/Sea+Ice%3A+An+Introduction+to+its+Physics%2C+Chemistry%2C+Biology+and+Geology-p-9780632058082. [Last accessed on 23 Dec 2024].

36. Barrette PD. Understanding frazil ice: the contribution of laboratory studies. Cold Reg Sci Technol 2021;189:103334.

37. Ito M, Ohshima KI, Fukamachi Y, Mizuta G, Kusumoto Y, Nishioka J. Observations of frazil ice formation and upward sediment transport in the Sea of Okhotsk: a possible mechanism of iron supply to sea ice: frazil ice and upward sediment transport. J Geophys Res Oceans 2017;122:788-802.

38. Dieckmann GS, Lange MA, Ackley SF, Jennings JC. The nutrient status in sea ice of the Weddell Sea during winter: effects of sea ice texture and algae. Polar Biol 1991;11:449-56.

39. Lannuzel D, Schoemann V, de Jong J, et al. Distribution of dissolved iron in Antarctic sea ice: spatial, seasonal, and inter‐annual variability. J Geophys Res 2010;115:2009JG001031.

40. Garrison DL, Ackley SF, Buck KR. A physical mechanism for establishing algal populations in frazil ice. Nature 1983;306:363-5.

41. Spindler M, Dieckmann GS. Distribution and abundance of the planktic foraminifer Neogloboquadrina pachyderma in sea ice of the Weddell Sea (Antarctica). Polar Biol 1986;5:185-91.

42. Weeks WF, Ackley SF. The growth, structure, and properties of sea ice. In: Untersteiner N, editor. The geophysics of sea ice. Boston: Springer US; 1986. pp. 9-164.

43. Garrison D, Close A, Reimnitz E. Algae concentrated by frazil ice: evidence from laboratory experiments and field measurements. Antartic Sci 1989;1:313-6.

44. Weissenberger J, Grossmann S. Experimental formation of sea ice: importance of water circulation and wave action for incorporation of phytoplankton and bacteria. Polar Biol 1998;20:178-88.

45. Fraser AD, Wongpan P, Langhorne PJ, et al. Antarctic landfast sea ice: a review of its physics, biogeochemistry and ecology. Rev Geophys 2023;61:e2022RG000770.

46. Roukaerts A, Deman F, Van der Linden F, et al. The biogeochemical role of a microbial biofilm in sea ice. Elem Sci Anth 2021;9:00134.

47. van der Merwe P, Lannuzel D, Nichols CM, et al. Biogeochemical observations during the winter–spring transition in East Antarctic sea ice: evidence of iron and exopolysaccharide controls. Mar Chem 2009;115:163-75.

48. de Jong J, Schoemann V, Maricq N, et al. Iron in land-fast sea ice of McMurdo Sound derived from sediment resuspension and wind-blown dust attributes to primary productivity in the Ross Sea, Antarctica. Mar Chem 2013;157:24-40.

49. Meiners K, Gradinger R, Fehling J, Civitarese G, Spindler M. Vertical distribution of exopolymer particles in sea ice of the Fram Strait (Arctic) during autumn. Mar Ecol Prog Ser 2023;248:1-13. Available from: http://www.int-res.com/articles/meps2003/248/m248p001.pdf. [Last accessed on 24 Dec 2024]

50. Hoppmann M, Richter ME, Smith IJ, et al. Platelet ice, the Southern Ocean’s hidden ice: a review. Ann Glaciol 2020;61:341-68.

51. Fripiat F, Meiners KM, Vancoppenolle M, et al. Macro-nutrient concentrations in Antarctic pack ice: overall patterns and overlooked processes. Elementa Sci Anthrop 2017;5:13.

52. Lannuzel D, Chever F, van der Merwe PC, et al. Iron biogeochemistry in Antarctic pack ice during SIPEX-2. Deep Sea Res Pt II 2016;131:111-22.

53. Meiners KM, Michel C. Dynamics of nutrients, dissolved organic matter and exopolymers in sea ice. In: Thomas DN, editor. Sea ice. Wiley; 2017. pp. 415-32.

54. Chen Z, Elektorowicz M, An C, Tian X. Entrainment and enrichment of microplastics in ice formation processes: implications for the transport of microplastics in cold regions. Environ Sci Technol 2023;57:3176-86.

55. Tison J, Worby A, Delille B, et al. Temporal evolution of decaying summer first-year sea ice in the Western Weddell Sea, Antarctica. Deep Sea Res Pt II 2008;55:975-87.

56. Corkill M, Moreau S, Janssens J, et al. Physical and biogeochemical properties of rotten East Antarctic summer sea ice. JGR Oceans 2023;128:e2022JC018875.

57. Reisser J, Slat B, Noble K, et al. The vertical distribution of buoyant plastics at sea: an observational study in the North Atlantic Gyre. Biogeosciences 2015;12:1249-56.

58. Marshall J, Speer K. Closure of the meridional overturning circulation through Southern Ocean upwelling. Nature Geosci 2012;5:171-80.

59. Obbard RW. Microplastics in polar regions: the role of long range transport. Curr Opin Environ Sci Health 2018;1:24-9.

60. Zhang S, Zhang W, Ju M, et al. Distribution characteristics of microplastics in surface and subsurface Antarctic seawater. Sci Total Environ 2022;838:156051.

61. Chen Q, Shi G, Revell LE, et al. Long-range atmospheric transport of microplastics across the southern hemisphere. Nat Commun 2023;14:7898.

62. Bullard JE, Ockelford A, O’brien P, Mckenna Neuman C. Preferential transport of microplastics by wind. Atmos Environ 2021;245:118038.

63. Dawson AL, Kawaguchi S, King CK, et al. Turning microplastics into nanoplastics through digestive fragmentation by Antarctic krill. Nat Commun 2018;9:1001.

64. Andrady AL. Microplastics in the marine environment. Mar Pollut Bull 2011;62:1596-605.

65. Choy CA, Robison BH, Gagne TO, et al. The vertical distribution and biological transport of marine microplastics across the epipelagic and mesopelagic water column. Sci Rep 2019;9:7843.

66. Leistenschneider C, Wu F, Primpke S, Gerdts G, Burkhardt-Holm P. Unveiling high concentrations of small microplastics (11-500 μm) in surface water samples from the southern Weddell Sea off Antarctica. Sci Total Environ 2024;927:172124.

67. Tison J, Maksym T, Fraser AD, et al. Physical and biological properties of early winter Antarctic sea ice in the Ross Sea. Ann Glaciol 2020;61:241-59.

68. Tison J, Schwegmann S, Dieckmann G, et al. Biogeochemical impact of snow cover and cyclonic intrusions on the winter Weddell Sea ice pack. JGR Oceans 2017;122:9548-71.

69. Lewis M, Tison J, Weissling B, et al. Sea ice and snow cover characteristics during the winter–spring transition in the Bellingshausen Sea: an overview of SIMBA 2007. Deep Sea Res Pt II 2011;58:1019-38.

70. Leistenschneider C, Burkhardt-Holm P, Mani T, Primpke S, Taubner H, Gerdts G. Microplastics in the Weddell Sea (Antarctica): a forensic approach for discrimination between environmental and vessel-induced microplastics. Environ Sci Technol 2021;55:15900-11.

71. Pakhomova S, Berezina A, Lusher AL, et al. Microplastic variability in subsurface water from the Arctic to Antarctica. Environ Pollut 2022;298:118808.

72. Cincinelli A, Scopetani C, Chelazzi D, et al. Microplastic in the surface waters of the Ross Sea (Antarctica): occurrence, distribution and characterization by FTIR. Chemosphere 2017;175:391-400.

73. Kuklinski P, Wicikowski L, Koper M, et al. Offshore surface waters of Antarctica are free of microplastics, as revealed by a circum-Antarctic study. Mar Pollut Bull 2019;149:110573.

74. Munari C, Infantini V, Scoponi M, Rastelli E, Corinaldesi C, Mistri M. Microplastics in the sediments of Terra Nova Bay (Ross Sea, Antarctica). Mar Pollut Bull 2017;122:161-5.

75. Allen S, Allen D, Moss K, Le Roux G, Phoenix VR, Sonke JE. Examination of the ocean as a source for atmospheric microplastics. PLoS One 2020;15:e0232746.

76. Almroth B, Eggert H. Marine plastic pollution: sources, impacts, and policy issues. Rev Env Econ Policy 2019;13:317-26.

77. Geyer R, Jambeck JR, Law KL. Production, use, and fate of all plastics ever made. Sci Adv 2017;3:e1700782.

78. Bråte IL, Halsband C, Allan I, Thomas K. Report made for the Norwegian Environment Agency: microplastics in marine environments; occurrence, distribution and effects. Available from: http://www.miljodirektoratet.no/Documents/publikasjoner/M319/M319.pdf. [Last accessed on 24 Dec 2024].

79. Erni-Cassola G, Zadjelovic V, Gibson MI, Christie-Oleza JA. Distribution of plastic polymer types in the marine environment; a meta-analysis. J Hazard Mater 2019;369:691-8.

80. Illuminati S, Notarstefano V, Tinari C, et al. Microplastics in bulk atmospheric deposition along the coastal region of Victoria Land, Antarctica. Sci Total Environ 2024;949:175221.

81. Henry B, Laitala K, Klepp IG. Microplastic pollution from textiles: a literature review. 2018. Available from: https://hdl.handle.net/20.500.12199/5360. [Last accessed on 24 Dec 2024].

82. Šaravanja A, Pušić T, Dekanić T. Microplastics in wastewater by washing polyester fabrics. Materials 2022;15:2683.

83. Yuan Z, Nag R, Cummins E. Ranking of potential hazards from microplastics polymers in the marine environment. J Hazard Mater 2022;429:128399.

84. Barboza LGA, Frias JP, Booth AM, et al. Microplastics pollution in the marine environment. World seas: an environmental evaluation. Elsevier; 2019. pp. 329-51.

85. Dethleff D, Kempema EW. Langmuir circulation driving sediment entrainment into newly formed ice: tank experiment results with application to nature (Lake Hattie, United States; Kara Sea, Siberia). J Geophys Res 2007;112:2005JC003259.