Distribution of Np, Pu and Am in water, suspended matter, and bottom sediments of Peter the Great Bay

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The content of 237Np, 239,240Pu, and 241Am in seawater, suspended matter, and bottom sediment cores of the Ussuri and Amur Bays, sampled in July 2021 and August 2022, was analyzed. The activity concentrations of 237Np, 239,240Pu, and 241Am in the water of Peter the Great Bay were determined for the first time and were found to be equal to (19–105) × 10–3, 2.0–5.3, and 24.1–33.5 mBq/m3, respectively. The activity concentrations as well as the 239Pu/240Pu isotope ratio (~0.18) in the bottom sediments definitely indicate that global fallout is the main source of plutonium in the investigated territory. The sedimentation rates were determined for the Amur Bay (in the Razdolnaya River estuary), 0.9 mm/year, and for the Ussuri Bay, 4.1 mm/year. Actinide transfer coefficients were determined for Peter the Great Bay in the system dissolved forms, including colloids–suspended matter–bottom sediment.

Sobre autores

N. Kuzmenkova

Moscow State University

Email: kuzmenkovanv@my.msu.ru

Department of Chemistry

Rússia, Leninskie gory, 1, str. 3, Moscow, 119991

V. Petrov

Moscow State University

Email: kuzmenkovanv@my.msu.ru

Department of Chemistry

Rússia, Leninskie gory, 1, str. 3, Moscow, 119991

A. Rozhkova

Moscow State University; Vernadsky Institute of Geochemistry and Analytical Chemistry, Russian Academy of Sciences

Email: kuzmenkovanv@my.msu.ru

Department of Chemistry

Rússia, Leninskie gory, 1, str. 3, Moscow, 119991; ul. Kosygina, 19, Moscow, 119991

E. Tokar

Institute of Chemistry, Far Eastern Branch, Russian Academy of Sciences

Email: kuzmenkovanv@my.msu.ru
Rússia, pr. 100-letiya Vladivostoka, 159, Vladivostok, 690022

K. Shi

School of Nuclear Science and Technology, Lanzhou University

Email: kuzmenkovanv@my.msu.ru
República Popular da China, Lanzhou, 730000

S. Kalmykov

Moscow State University

Email: kuzmenkovanv@my.msu.ru

Department of Chemistry

Rússia, Leninskie gory, 1, str. 3, Moscow, 119991

H. Hou

School of Nuclear Science and Technology, Lanzhou University

Autor responsável pela correspondência
Email: kuzmenkovanv@my.msu.ru
República Popular da China, Lanzhou, 730000

Bibliografia

  1. Chang Y.-C., Zhao X., Han Y. // Ocean Coast. Manag. 2022. Vol. 227. Article 106294.
  2. Liu D., Hoskin M. // Ocean Coast. Manag. 2023. Vol. 234. Article 106452.
  3. TEPCO: Result of Radioactive Analysis around Fukushima Daiichi Nuclear Power Station (Janu-ary, 2020).
  4. Lu Y., Yuan J., Du D., Sun B., Yi X. // Geogr. Sustain. 2021. Vol. 2. N 2. P. 95–98.
  5. Hong G.-H., Kim S.-H., Lee S.-H., Chung C.-S., Tkalin A.V., Chaykovskay E.L., Hamilton T.F. // Marine Pollut. Bull. 1999. Vol. 38. N 10. P. 933–943.
  6. Livingston H.D., Povinec P.P. // Health Phys. 2002. Vol. 82. N 5. P. 656.
  7. Hirose K., Amano H., Baxter M.S., Chaykovskaya E., Chumichev V.B., Hong G.H., Isogai K., Kim C.K., Kim S.H., Miyao T., Morimoto T., Nikitin A., Oda K., Pettersson H.B.L., Povinec P.P., Seto Y., Tkalin A., Togawa O., Veletova N.K. // J. Environ. Radioact. 1999. Vol. 43. N 1. P. 1–13.
  8. Neroda A.S., Mishukov V.F., Goryachev V.A., Simonenkov D.V., Goncharova A.A. // Environ. Sci. Pollut. Res. 2014. Vol. 21. N 8. P. 5669–5677.
  9. Evrard O., Laceby J.P., Lepage H., Onda Y., Cerdan O., Ayrault S. // J. Environ. Radioact. 2015. Vol. 148. P. 92–110.
  10. Buesseler K., Dai M., Aoyama M., Benitez-Nelson C., Charmasson S., Higley K., Maderich V., Masqué P., Morris P.J., Oughton D., Smith J.N. // Annu. Rev. Marine Sci. 2017. Vol. 9. N 1. P. 173–203.
  11. Koo Y.-H., Yang Y.-S., Song K.-W. // Prog. Nucl. Energy. 2014. Vol. 74. P. 61–70.
  12. Funabashi Y., Kitazawa K. // Bull. At. Sci. 2012. Vol. 68. N 2. P. 9–21.
  13. Mathieu A., Kajino M., Korsakissok I., Périllat R., Quélo D., Quérel A., Saunier O., Sekiyama T.T., Igarashi Y., Didier D. // Appl. Geochem. 2018. Vol. 91. P. 122–139.
  14. Choppin G.R., Wong P.J. // Aquat. Geochem. 1998. Vol. 4. N 1. P. 77–101.
  15. Choppin G.R. // Marine Chem. 2006. Vol. 99. N 1. P. 83–92.
  16. Polyakov D.M., Mar’yash A.A., Mozherovskii A.V. // Water Resources. 2019. Vol. 46. N 2. P. 209–213.
  17. Tsoy I., Prushkovskaya I., Aksentov K., Astakhov A. // Ocean Sci. J. 2015. Vol. 50. N 2. P. 433–444.
  18. Блиновская Я.Ю., Якименко А.Л. // Успехи соврем. естествознания. 2018. № 1. С. 68–73.
  19. Лишавская Т.С., Севастьянов А.В., Чернова А.С., Чаткина Т.В. // Труды ГУ «Дальнево-сточный региональный научно-исследовательский гидрометеорологический институт». 2010. № 1. С. 97–112.
  20. Обзор современного экологического состояния залива Петра Великого (2000–2010 гг.).URL: https://cyberleninka.ru/article/n/obzor-sovremennogo- ekologicheskogo-sostoyaniya-zaliva-petra-velikogo-2000-2010-gg/viewer (дата обращения: 17.07.2022).
  21. Tkalin A.V., Chaykovskaya E.L. // J. Environ. Radioact. 2000. Vol. 51. N 2. P. 229–238.
  22. Ярощук И.О., Леонтьев А.П., Кошелева А.В., Пивоваров А.А., Самченко А.Н., Степа-нов Д.В., Швырев А.Н. // Метеорология и гидрология. 2016. № 9. С. 55–62.
  23. Astakhov A.S., Kalugin I.A., Aksentov K.I., Dar’in A.V. // Geochem. Int. 2015. Vol. 53. N 4. P. 383–388.
  24. Stonik I.V., Zinov A.A. // J. Marine Sci. Eng. 2023. Vol. 11. N 5. P. 1024.
  25. Duran E.B., Povinec P.P., Fowler S.W., Airey P.L., Hong G.H. // J. Environ. Radioact. 2004. Vol. 76. N 1–2. P. 139–160.
  26. Hong G.-H., Kim S.-H., Lee S.-H., Chung C.-S., Tkalin A.V. // Marine Pollut. Bull. 1999. Vol. 38. N 10. P. 933–943.
  27. Sarkisov A.A., Vysotskii V.L., Pripachkin D.A. // At. Energy. 2020. Vol. 127. N 3. P. 159–165.
  28. Коротченко Р.А., Самченко А.Н., Ярощук И.О. // Океанология. 2014. Т. 54. № 4. С. 538–545.
  29. Сезонная гипоксия Амурского залива (Японское море). URL: https://cyberleninka.ru/article/n/sezonnaya-gipoksiya-amurskogo-zaliva-yaponskoe-more/viewer (дата обращения: 18.08.2022).
  30. Nesje A. // Arctic Alpine Res. 1992. Vol. 24. N 3. P. 257–259.
  31. Rozhkova A.K., Kuzmenkova N.V., Pryakhin E.A., Mokrov Y.G., Kalmykov S.N. // J. Environ. Radioact. 2021. Vol. 232. Article 106569.
  32. Luo M., Xing S., Yang Y., Song L., Ma Y., Wang Y., Dai X., Happel S. // J. Environ. Radioact. 2018. Vol. 187. P. 73–80.
  33. Amiard J.-C. Marine Radioecology. Wiley, 2023. Vol. 6. 340 p.
  34. Hirose K., Povinec P.P. // Sci. Rep. 2015. Vol. 5. N 1. Article 15707.
  35. Beasley T.M., Kelley J.M., Maiti T.C., Bond L.A. // J. Environ. Radioact. 1998. Vol. 38. N 2. P. 133–146.
  36. Kelley J.M., Bond L.A., Beasley T.M. // Sci. Total Environ. 1999. Vol. 237–238. P. 483–500.
  37. Kinoshita N., Nagaoka M., Nakanishi T. // Sci. Total Environ. 2021. Vol. 753. Article 142087.
  38. Novikov A.P., Goryachenkova T.A., Travkina A.V., Myasnikov I.Yu. // Advances in Geochemistry, Analytical Chemistry, and Planetary Sciences: 75th Anniversary of the Vernadsky Institute of the Russian Academy of Sciences / Eds. V.P. Kolotov, N.S. Bezaeva. Cham: Springer, 2023. P. 629–643.
  39. Lujanienė G., Šilobritienė B., Tracevičienė D., Šemčuk S., Romanenko V., Garnaga-Budrė G., Kaizer J., Povinec P.P. // J. Environ. Radioact. 2022. Vol. 249. Article 106892.
  40. Kuzmenkova N., Rozhkova A., Egorin A., Tokar E., Grabenko E., Shi K., Petrov V., Kalmykov S., Hou X. // J. Radioanal. Nucl. Chem. 2023. Vol. 332. N 4. P. 959–971.
  41. Tokar’ E., Kuzmenkova N., Rozhkova A., Egorin A., Shlyk D., Shi K., Hou X., Kalmykov S. // Wa-ter. 2023. Vol. 15. N 12. P. 2267.
  42. Budyansky M.V., Fayman P.A., Uleysky M.Yu., Prants S.V. // Marine Pollut. Bull. 2022. Vol. 177. Article 113483.
  43. Ivanova E.P., Gorshkova N.M., Mikhailov V.V., Sergeev A.F., Gladkikh R.V., Goryachev V.A., Dudarev O.V., Botsul A.I., Mozherovsky A.V., Slinko E.N., Kiselev V.I. // Russ. J. Marine Biol. 2005. Vol. 31. N 2. P. 65–72.

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