TY - JOUR

T1 - Potential Hazard of Radioactive Contamination of the Marine Environment Due to Possible Earthquakes near the Kashiwazaki–Kariwa Nuclear Power Plant.

AU - Будянский, Максим Васильевич

AU - Улейский, М.Ю.

AU - Лебедева, Мария Алексеевна

AU - Файман, Павел Аркадьевич

AU - Белоненко, Татьяна Васильевна

N1 - Budyansky M.V., Uleysky M. Yu., Lebedeva M. A., Fayman P. A., and T. V. Belonenko. Potential Hazard of Radioactive Contamination of the Marine Environment Due to Possible Earthquakes near the Kashiwazaki–Kariwa Nuclear Power Plant. Doklady Earth Sciences, 2025, Vol. 520:5. DOI: 10.1134/S1028334X24604358.

PY - 2025/4/7

Y1 - 2025/4/7

N2 - Abstract: Based on the geostrophic current fields calculated from altimetry data for the period from January 1, 2013, to December 31, 2023, numerical modeling of advection of potentially contaminated water from the Kashiwazaki–Kariwa Nuclear Power Plant to the shores of Primorsky Krai and the fishing zone around the Southern Kuril Islands was carried out using a Lagrangian approach. Dasymetric maps demonstrating likely pathways of the surface contamination of the ocean were constructed. Transport pathways and three corridors related to the local current structures and mesoscale eddies were identified for the southern Primorye region. The minimum advection time for Lagrangian markers, simulating potentially contaminated waters, to reach the coast of Primorsky Krai was estimated at 138–140 days. Two possible transport routes into the Southern Kuril fishing zone were revealed, with the potential for rapid advection of contaminated markers into this zone within 58–60 days. The advection of Lagrangian markers occurs in portions and within specific time windows.

AB - Abstract: Based on the geostrophic current fields calculated from altimetry data for the period from January 1, 2013, to December 31, 2023, numerical modeling of advection of potentially contaminated water from the Kashiwazaki–Kariwa Nuclear Power Plant to the shores of Primorsky Krai and the fishing zone around the Southern Kuril Islands was carried out using a Lagrangian approach. Dasymetric maps demonstrating likely pathways of the surface contamination of the ocean were constructed. Transport pathways and three corridors related to the local current structures and mesoscale eddies were identified for the southern Primorye region. The minimum advection time for Lagrangian markers, simulating potentially contaminated waters, to reach the coast of Primorsky Krai was estimated at 138–140 days. Two possible transport routes into the Southern Kuril fishing zone were revealed, with the potential for rapid advection of contaminated markers into this zone within 58–60 days. The advection of Lagrangian markers occurs in portions and within specific time windows.

KW - Kashiwazaki–Kariwa Nuclear Power Plant

KW - Lagrangian modeling

KW - Peter the Great Bay

KW - Primorsky Krai

KW - Southern Kuril Islands

KW - advection

KW - altimetry

KW - transport corridors

UR - https://www.mendeley.com/catalogue/a3445b9c-4c0f-3919-8300-c110249a899f/

U2 - 10.1134/S1028334X24604358

DO - 10.1134/S1028334X24604358

M3 - Article

VL - 520

JO - Doklady Earth Sciences

JF - Doklady Earth Sciences

SN - 1028-334X

IS - 5

ER -