The Most Important Results
of the Laboratory of Nonlinear Dynamical Systems (since 2014)
Заведующий лаборатории - профессор С.В. Пранц удостоен Международной премии им. Г. Заславского по нелинейной науке.
Prof. S.V. Prants is the winner of an International Zaslavsky Award in nonlinear science and complexity.
По итогам голосования на ученом совете ТОИ результат лаборатории был признан важнейшим в ТОИ и включен в число важнейших результатов РАН в 2014 г.
Лагранжево моделирование приповерхностного переноса во фронтальной зоне Куросио-Ойясио после аварии на АЭС «Фукусима-Дай-ичи»
Prof. S.V. Prants is the winner of an International Zaslavsky Award in nonlinear science and complexity.
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute and included among the most important results in the Russian Academy of Sciences in 2014
Lagrangian simulation of near-surface transport in the Kuroshio-Oyashio frontal zone after the Fukushima accident >>>
2015
Our results on applications of Lyapunov exponents in quantifying transport and mixing in the ocean, searching for mesoscale eddies with a risk to be contaminated by the Fukushima derived radionuclides, and indentifying Lagrangian fronts favorable for fishery were posted at the AVISO site http://aviso.altimetry.fr/index.php?id=3160
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2015
Three dimensional Lagrangian analysis of the vertical structure of deep-sea eddies in the Japan Basin of the Japan Sea >>>
2016
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2016
Lagrangian analysis of formation, structure, evolution and splitting of Kuril eddies >>>
2017
The Laboratory of Nonlinear Dynamic Systems (head. Lab - Prants S.V.) was one of the main organizers of the international conference
"Vortices and Coherent Structures: From Ocean to Microfluids" http://vcs.poi.dvo.ru/ , which successfully passed Vladivostok in the Pacific Oceanological Institute. V.I. Illicheva of the Far East Branch of the Russian Academy of Sciences from 28 to 31 August 2017
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2017
Lagrangian oceanography
The book summarizes our 15 years work on developing a new Lagrangian approach to study transport and mixing in the ocean. It starts with chapters where we describe dynamical systems theory methods for description of chaotic mixing and transport in idealistic vortex and jet flows. Then the developed methods, based on computing different Lagrangian indicators in altimetric and numerically-derived velocity fields, are applied to different phenomena in the real ocean including mesoscale eddies, meandering jet currents, fronts, etc. It is shown how to identify in the AVISO velocity field daily locations of Lagrangian fronts defined as boundaries between waters with strongly different Lagrangian properties. It is statistically shown that these fronts may serve as proxy indicators of increased bioproductivity and potential fishing grounds. The developed methodology is also applied to simulate, identify and track the mesoscale eddies which have been sampled in the cruises after the Fukushima accident on March 11, 2011 and to estimate their risk to be contaminated by Fukushima-derived radionuclides. The simulated results are validated with in situ shipboard measurements, SST images, tracks of drifters and Argo floats.
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2017
Lagrangian oceanography >>>
2018
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2018
2020
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2020
Lagrangian analysis of Kamchatka trench eddies >>>
2021
According to voting at the Institute Scientific Council, the following result was recognized as the 2nd most important one in the Institute in 2021
Lagrangian fronts as a predictor of locations for saury fishing >>>
2022
According to voting at the Institute Scientific Council, the following result was recognized as the most important one in the Institute in 2022 and was included in the list of the most important results of the Earth Science Department of the Russian Academy of Sciences «Water masses favorable for living and catching pollock in the Sea of Okhotsk: calculation, Lagrangian and statistical analyses, recommendations for fishermen»
Water masses favorable for living and catching pollock in the Sea of Okhotsk: calculation, Lagrangian and statistical analyses, recommendations for fishermen >>>