Research output: Contribution to journal › Article › peer-review
Statistical analysis of long-lived mesoscale eddies in the Lofoten basin from satellite altimetry. / Gordeeva, Svetlana; Zinchenko, Vadim; Koldunov, Aleksey; Raj, Roshin P.; Belonenko, Tatyana.
In: ADVANCES IN SPACE RESEARCH, Vol. 68, No. 2, 01.07.2021, p. 364-377.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Statistical analysis of long-lived mesoscale eddies in the Lofoten basin from satellite altimetry
AU - Gordeeva, Svetlana
AU - Zinchenko, Vadim
AU - Koldunov, Aleksey
AU - Raj, Roshin P.
AU - Belonenko, Tatyana
PY - 2021/7/1
Y1 - 2021/7/1
N2 - The paper presents a statistical analysis of long-lived detected mesoscale eddies in the Lofoten Basin (LB). An automated eddy identification and tracking method is applied to the altimeter data during the time-period 1993–2017 to detect and track anticyclonic (ACEs) and cyclonic eddies (CEs) in the LB. Our analysis found that only one percent of the eddies detected are long-lived (eddy-life > 35 days). Even though only 1%, the detected 330 long-lived mesoscale eddies (CEs, 120; ACEs, 210) account for >11,550 daily individual eddy-observations. The lifetime, occurrence, generation sites, size, intensity, and drift of these long-lived eddies are quantified. The average drift speed of long-lived eddies is found to show a pronounced seasonal variation with a maximum from October to March. Long-lived eddies in the LB are further divided into four groups based on their region of generation and dissipation. Long-lived eddies generated and dissipated outside the region of the Lofoten Vortex (group 2 eddies) are found to be the predominant type (CEs, 73.3%; ACEs, 69.5%). The eddies generated and dissipated in the region of the permanent Lofoten Vortex form the second dominant type (CEs, 14.3%; ACEs, 26.2%). Based on their lifetime, properties of the two predominant groups of eddies are examined in detail. The difference found in the temporal variability of the eddy characteristics of the two groups reflects their different genesis. The analysis revealed that the mesoscale eddies of group 2 have a longer life than eddies of group 1, and ACEs are more long-lived in comparison to CEs. The analysis also found three main areas of eddy generation in the frontal zone of the NwASC from where mesoscale eddies propagate to the north-west, forming three main corridors of trajectories. The study further provides evidence of long-lived cyclonic CEs surrounding the large quasi-permanent Lofoten Vortex (LV) and forming a shield around it. Small CEs located in two areas with centers at 69.5° N, 4° E, and 70° N, 2.5° E survive nearby the LV resisting the vortex-vortex interaction with the large and strong LV.
AB - The paper presents a statistical analysis of long-lived detected mesoscale eddies in the Lofoten Basin (LB). An automated eddy identification and tracking method is applied to the altimeter data during the time-period 1993–2017 to detect and track anticyclonic (ACEs) and cyclonic eddies (CEs) in the LB. Our analysis found that only one percent of the eddies detected are long-lived (eddy-life > 35 days). Even though only 1%, the detected 330 long-lived mesoscale eddies (CEs, 120; ACEs, 210) account for >11,550 daily individual eddy-observations. The lifetime, occurrence, generation sites, size, intensity, and drift of these long-lived eddies are quantified. The average drift speed of long-lived eddies is found to show a pronounced seasonal variation with a maximum from October to March. Long-lived eddies in the LB are further divided into four groups based on their region of generation and dissipation. Long-lived eddies generated and dissipated outside the region of the Lofoten Vortex (group 2 eddies) are found to be the predominant type (CEs, 73.3%; ACEs, 69.5%). The eddies generated and dissipated in the region of the permanent Lofoten Vortex form the second dominant type (CEs, 14.3%; ACEs, 26.2%). Based on their lifetime, properties of the two predominant groups of eddies are examined in detail. The difference found in the temporal variability of the eddy characteristics of the two groups reflects their different genesis. The analysis revealed that the mesoscale eddies of group 2 have a longer life than eddies of group 1, and ACEs are more long-lived in comparison to CEs. The analysis also found three main areas of eddy generation in the frontal zone of the NwASC from where mesoscale eddies propagate to the north-west, forming three main corridors of trajectories. The study further provides evidence of long-lived cyclonic CEs surrounding the large quasi-permanent Lofoten Vortex (LV) and forming a shield around it. Small CEs located in two areas with centers at 69.5° N, 4° E, and 70° N, 2.5° E survive nearby the LV resisting the vortex-vortex interaction with the large and strong LV.
KW - Altimetry
KW - Automatic detection
KW - Lofoten basin
KW - Mesoscale eddies
KW - Statistical analyses
KW - Tracking algorithms
KW - TRANSFORMATION
KW - STABILITY
KW - NEAR-SURFACE CIRCULATION
KW - NORDIC SEAS
KW - VORTEX
KW - VARIABILITY
KW - VERTICAL VELOCITY
KW - NORTHERN NORTH-ATLANTIC
KW - NORWEGIAN SEA
KW - WATER
UR - http://www.scopus.com/inward/record.url?scp=85086510997&partnerID=8YFLogxK
UR - https://www.mendeley.com/catalogue/d89e3736-65c2-3aa9-8a4b-8bac13fbcc0d/
U2 - 10.1016/j.asr.2020.05.043
DO - 10.1016/j.asr.2020.05.043
M3 - Article
AN - SCOPUS:85086510997
VL - 68
SP - 364
EP - 377
JO - Advances in Space Research
JF - Advances in Space Research
SN - 0273-1177
IS - 2
ER -
ID: 60651279