Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea
High-resolution numerical modeling, remote sensing, and in situ data have revealed significant role of sub-mesoscale features in shaping the distribution pattern of tracers in the ocean's upper layer. However, in situ measurements are difficult to conduct with the required resolution and covera...
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doaj-00c10b981d1340af8eb76df319c2a3852020-11-24T21:21:16ZengCopernicus PublicationsOcean Science1812-07841812-07922016-05-0112371573210.5194/os-12-715-2016Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic SeaU. Lips0V. Kikas1T. Liblik2I. Lips3Marine Systems Institute at Tallinn University of Technology, Akadeemia Road 15a, 12618 Tallinn, EstoniaMarine Systems Institute at Tallinn University of Technology, Akadeemia Road 15a, 12618 Tallinn, EstoniaMarine Systems Institute at Tallinn University of Technology, Akadeemia Road 15a, 12618 Tallinn, EstoniaMarine Systems Institute at Tallinn University of Technology, Akadeemia Road 15a, 12618 Tallinn, EstoniaHigh-resolution numerical modeling, remote sensing, and in situ data have revealed significant role of sub-mesoscale features in shaping the distribution pattern of tracers in the ocean's upper layer. However, in situ measurements are difficult to conduct with the required resolution and coverage in time and space to resolve the sub-mesoscale, especially in such relatively shallow basins as the Gulf of Finland, where the typical baroclinic Rossby radius is 2–5 km. To map the multi-scale spatiotemporal variability in the gulf, we initiated continuous measurements with autonomous devices, including a moored profiler and Ferrybox system, which were complemented by dedicated research-vessel-based surveys. The analysis of collected high-resolution data in the summers of 2009–2012 revealed pronounced variability at the sub-mesoscale in the presence of mesoscale upwelling/downwelling, fronts, and eddies. The horizontal wavenumber spectra of temperature variance in the surface layer had slopes close to −2 between the lateral scales from 10 to 0.5 km. Similar tendency towards the −2 slopes of horizontal wavenumber spectra of temperature variance was found in the seasonal thermocline between the lateral scales from 10 to 1 km. It suggests that the ageostrophic sub-mesoscale processes could contribute considerably to the energy cascade in such a stratified sea basin. We showed that the intrusions of water with different salinity, which indicate the occurrence of a layered flow structure, could appear in the process of upwelling/downwelling development and relaxation in response to variable wind forcing. We suggest that the sub-mesoscale processes play a major role in feeding surface blooms in the conditions of coupled coastal upwelling and downwelling events in the Gulf of Finland.http://www.ocean-sci.net/12/715/2016/os-12-715-2016.pdf |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
U. Lips V. Kikas T. Liblik I. Lips |
spellingShingle |
U. Lips V. Kikas T. Liblik I. Lips Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea Ocean Science |
author_facet |
U. Lips V. Kikas T. Liblik I. Lips |
author_sort |
U. Lips |
title |
Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea |
title_short |
Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea |
title_full |
Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea |
title_fullStr |
Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea |
title_full_unstemmed |
Multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified Gulf of Finland, Baltic Sea |
title_sort |
multi-sensor in situ observations to resolve the sub-mesoscale features in the stratified gulf of finland, baltic sea |
publisher |
Copernicus Publications |
series |
Ocean Science |
issn |
1812-0784 1812-0792 |
publishDate |
2016-05-01 |
description |
High-resolution numerical modeling, remote sensing, and in
situ data have revealed significant role of sub-mesoscale features in shaping
the distribution pattern of tracers in the ocean's upper layer. However, in
situ measurements are difficult to conduct with the required resolution and
coverage in time and space to resolve the sub-mesoscale, especially in such
relatively shallow basins as the Gulf of Finland, where the typical baroclinic
Rossby radius is 2–5 km. To map the multi-scale spatiotemporal variability
in the gulf, we initiated continuous measurements with autonomous devices,
including a moored profiler and Ferrybox system, which were complemented by
dedicated research-vessel-based surveys. The analysis of collected
high-resolution data in the summers of 2009–2012 revealed pronounced variability at
the sub-mesoscale in the presence of mesoscale upwelling/downwelling, fronts,
and eddies. The horizontal wavenumber spectra of temperature variance in the
surface layer had slopes close to −2 between the lateral scales from 10 to
0.5 km. Similar tendency towards the −2 slopes of horizontal wavenumber
spectra of temperature variance was found in the seasonal thermocline between
the lateral scales from 10 to 1 km. It suggests that the ageostrophic
sub-mesoscale processes could contribute considerably to the energy cascade
in such a stratified sea basin. We showed that the intrusions of water with
different salinity, which indicate the occurrence of a layered flow structure,
could appear in the process of upwelling/downwelling development and
relaxation in response to variable wind forcing. We suggest that the
sub-mesoscale processes play a major role in feeding surface blooms in the
conditions of coupled coastal upwelling and downwelling events in the Gulf of
Finland. |
url |
http://www.ocean-sci.net/12/715/2016/os-12-715-2016.pdf |
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