Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013
Spatial distribution and seasonal and interannual variability are determined for parameters of the upper mixed layer and seasonal thermocline in the western deep basin of the Bering Sea in summer and fall of 2002-2013 and compared with chlorophyll- a concentration at the sea surface. The mixed layer...
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Transactions of the Pacific Research Institute of Fisheries and Oceanography
2015-09-01
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| Series: | Известия ТИНРО |
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| Online Access: | https://izvestiya.tinro-center.ru/jour/article/view/271 |
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| author | Gennady V. Khen Eugeny O. Basyuk Vladimir I. Matveev |
| author_facet | Gennady V. Khen Eugeny O. Basyuk Vladimir I. Matveev |
| author_sort | Gennady V. Khen |
| collection | DOAJ |
| description | Spatial distribution and seasonal and interannual variability are determined for parameters of the upper mixed layer and seasonal thermocline in the western deep basin of the Bering Sea in summer and fall of 2002-2013 and compared with chlorophyll- a concentration at the sea surface. The mixed layer is formed by solar heating of the sea surface and wind mixing. Its thickness doesn’t exceed 10-15 m in summer but increases up to 25-40 m in fall. The thermocline becomes deeper from summer to fall, too, in particular its lower bound that sinks from 37 to 48 m, on average; however, its thickness decreases from 20-25 to 16-22 m and temperature and density gradients increase from 0.23-0.25 to 0.37-0.45 °C/m and from 0.032 to 0.062 units/m, respectively, that means that the thermocline becomes steadier. Tendency to cooling was observed for both layers in the last decade, the process was more visible in autumn, with a shift at the upper bound of thermocline (from the mean temperature of 9.8 °C in 2002-2006 to the mean temperature of 8.4 °C in 2007-2013) and gradual decreasing at its lower bound (from 3.3 °C in 2003 to 2.1 °C in 2013), and not so obvious in summer. Year-to-year fluctuations of salinity in summer/autumn were within the limits 32.77-33.03/32.60-32.96 psu for the upper bound of the thermocline and 32.98-33.14/33.06-33.13 psu for its lower bound and had slight negative tendency. In both seasons, the mixed layer depth has significant negative correlation with the temperature at the upper bound of the thermocline (R2 = 0.6) and the temperature at the lower bound of the thermocline correlates significantly with salinity at its both bounds (R2 > 0.4). Spring bloom of chlorophyll- a has no relationship neither with temperature in the mixed layer in April and May, nor with the rate of warming between these months. Strong fall bloom of chlorophyll- a develops if the fall cooling begins in conditions of high temperature at the sea surface (> 6 °C) that negatively depends on the mixed layer thickness, so slow cooling and delay of the fall mixing are favorable for chlorophyll- a blooming in autumn. |
| format | Article |
| id | doaj-art-ecc0c2ef56254737a3c2232646af6f62 |
| institution | Kabale University |
| issn | 1606-9919 2658-5510 |
| language | Russian |
| publishDate | 2015-09-01 |
| publisher | Transactions of the Pacific Research Institute of Fisheries and Oceanography |
| record_format | Article |
| series | Известия ТИНРО |
| spelling | doaj-art-ecc0c2ef56254737a3c2232646af6f622025-08-20T03:59:16ZrusTransactions of the Pacific Research Institute of Fisheries and OceanographyИзвестия ТИНРО1606-99192658-55102015-09-01182311513110.26428/1606-9919-2015-182-115-131271Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013Gennady V. Khen0Eugeny O. Basyuk1Vladimir I. Matveev2Тихоокеанский научно-исследовательский рыбохозяйственный центрТихоокеанский научно-исследовательский рыбохозяйственный центрТихоокеанский научно-исследовательский рыбохозяйственный центрSpatial distribution and seasonal and interannual variability are determined for parameters of the upper mixed layer and seasonal thermocline in the western deep basin of the Bering Sea in summer and fall of 2002-2013 and compared with chlorophyll- a concentration at the sea surface. The mixed layer is formed by solar heating of the sea surface and wind mixing. Its thickness doesn’t exceed 10-15 m in summer but increases up to 25-40 m in fall. The thermocline becomes deeper from summer to fall, too, in particular its lower bound that sinks from 37 to 48 m, on average; however, its thickness decreases from 20-25 to 16-22 m and temperature and density gradients increase from 0.23-0.25 to 0.37-0.45 °C/m and from 0.032 to 0.062 units/m, respectively, that means that the thermocline becomes steadier. Tendency to cooling was observed for both layers in the last decade, the process was more visible in autumn, with a shift at the upper bound of thermocline (from the mean temperature of 9.8 °C in 2002-2006 to the mean temperature of 8.4 °C in 2007-2013) and gradual decreasing at its lower bound (from 3.3 °C in 2003 to 2.1 °C in 2013), and not so obvious in summer. Year-to-year fluctuations of salinity in summer/autumn were within the limits 32.77-33.03/32.60-32.96 psu for the upper bound of the thermocline and 32.98-33.14/33.06-33.13 psu for its lower bound and had slight negative tendency. In both seasons, the mixed layer depth has significant negative correlation with the temperature at the upper bound of the thermocline (R2 = 0.6) and the temperature at the lower bound of the thermocline correlates significantly with salinity at its both bounds (R2 > 0.4). Spring bloom of chlorophyll- a has no relationship neither with temperature in the mixed layer in April and May, nor with the rate of warming between these months. Strong fall bloom of chlorophyll- a develops if the fall cooling begins in conditions of high temperature at the sea surface (> 6 °C) that negatively depends on the mixed layer thickness, so slow cooling and delay of the fall mixing are favorable for chlorophyll- a blooming in autumn.https://izvestiya.tinro-center.ru/jour/article/view/271bering seaseasonal thermoclinetemperaturesalinitychlorophyll-aseasonal and interannual varabilitycorrelation |
| spellingShingle | Gennady V. Khen Eugeny O. Basyuk Vladimir I. Matveev Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013 Известия ТИНРО bering sea seasonal thermocline temperature salinity chlorophyll-a seasonal and interannual varability correlation |
| title | Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013 |
| title_full | Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013 |
| title_fullStr | Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013 |
| title_full_unstemmed | Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013 |
| title_short | Parameters of the upper mixed layer and thermocline layer and chlorophyll- <i>a </i>in the western deep basin of the Bering Sea in summer and fall of 2002-2013 |
| title_sort | parameters of the upper mixed layer and thermocline layer and chlorophyll i a i in the western deep basin of the bering sea in summer and fall of 2002 2013 |
| topic | bering sea seasonal thermocline temperature salinity chlorophyll-a seasonal and interannual varability correlation |
| url | https://izvestiya.tinro-center.ru/jour/article/view/271 |
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