Heat Balance in the Sharm Obhur and Exchange with the Red Sea

Heat Balance in the Sharm Obhur and Exchange with the Red Sea

A comprehensive understanding of the balance and exchange of heat is vital to explore the interaction between atmosphere and ocean. Sharm Obhur is one of the most important lagoons along the eastern coast of the Red Sea. In situ observations of current speed and direction, temperature, and salinity...

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Veröffentlicht in:Earth systems and environment 2019-12, Vol.3 (3), p.483-490
Hauptverfasser: Alshreem, Badriah M., Alsaafani, Mohammed A., Alraddadi, Turki M., Abdulla, Cheriyeri Poyil
Format: Artikel
Sprache:eng
Schlagworte:
Climate
Climate Change/Climate Change Impacts
Earth and Environmental Science
Earth Sciences
Earth System Sciences
Environmental Science and Engineering
Field trips
Geography
Heat balance
Heat exchange
Heat flux
Heat loss
Heat transfer
Heating
Lagoons
Meteorological parameters
Monitoring/Environmental Analysis
Original Article
Radiation
Salinity
Seasonal variations
Summer
Velocity
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container_end_page 490
container_issue 3
container_start_page 483
container_title Earth systems and environment
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creator Alshreem, Badriah M.
Alsaafani, Mohammed A.
Alraddadi, Turki M.
Abdulla, Cheriyeri Poyil
description A comprehensive understanding of the balance and exchange of heat is vital to explore the interaction between atmosphere and ocean. Sharm Obhur is one of the most important lagoons along the eastern coast of the Red Sea. In situ observations of current speed and direction, temperature, and salinity along with near surface meteorological parameters are used to investigate monthly variability of heat balance in the Sharm Obhur and the exchange with the Red Sea. The net heat flux in the Sharm shows a notable seasonality with an annual heat loss of 49 W m −2 . The heat loss in the region peaked during December while maximum heat gain noticed during August. The entrance of the Sharm is well mixed during winter, while it is stratified by 2–3 °C during summer. Heat exchange between the Sharm and the Red Sea shows significant seasonality associated with the velocity of spring and neap flows. Interestingly, the annual net heat gain of 49.9 W m −2 noticed from the heat exchange is well compensated by the net surface heat loss of 49 W m −2 .
doi_str_mv 10.1007/s41748-019-00113-0
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subjects Climate
Climate Change/Climate Change Impacts
Earth and Environmental Science
Earth Sciences
Earth System Sciences
Environmental Science and Engineering
Field trips
Geography
Heat balance
Heat exchange
Heat flux
Heat loss
Heat transfer
Heating
Lagoons
Meteorological parameters
Monitoring/Environmental Analysis
Original Article
Radiation
Salinity
Seasonal variations
Summer
Velocity
title Heat Balance in the Sharm Obhur and Exchange with the Red Sea
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