Abstract
This paper reviews the researches relating to carbon dioxide circulation in oceans, and introduces the roles played by oceans in respect of the CO {sub 2} problem. Oceans occupy 70% of the globe {prime} s surface area, and contain 60 times as much of carbon as in the atmosphere. However, the amount of CO {sub 2} absorbed from the atmosphere into the oceans as has been estimated to date can not explain the carbon balance on earth. The exchange rate of CO {sub 2} between the atmosphere and the oceans was estimated from measurements of the partial pressure (PCO {sub 2}), and from behaviors of the radiocarbon ({sup 14} C). However, to raise the estimation accuracy, it is necessary to obtain data from the sea areas where observations are carried out only infrequently, and from the winter season during which the observation frequency is low. Identifying variations in organic and inorganic carbon amount generated by marine organisms is also important. Since more than 99.9% of carbon is present in the form of carbonate, it is required that its amount, and the amount of precipitation and dissolution per unit time be identified, and that CO {sub 2} removed from the carbon
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Honda, M
[1]
- Japan Marine Science and Technology Center, Kanagawa (Japan)
Citation Formats
Honda, M.
Study of carbon dioxide (CO sub 2 ) problems through marine science. Kaiyo kara mita nisankatanso mondai.
Japan: N. p.,
1990.
Web.
Honda, M.
Study of carbon dioxide (CO sub 2 ) problems through marine science. Kaiyo kara mita nisankatanso mondai.
Japan.
Honda, M.
1990.
"Study of carbon dioxide (CO sub 2 ) problems through marine science. Kaiyo kara mita nisankatanso mondai."
Japan.
@misc{etde_5601635,
title = {Study of carbon dioxide (CO sub 2 ) problems through marine science. Kaiyo kara mita nisankatanso mondai}
author = {Honda, M}
abstractNote = {This paper reviews the researches relating to carbon dioxide circulation in oceans, and introduces the roles played by oceans in respect of the CO {sub 2} problem. Oceans occupy 70% of the globe {prime} s surface area, and contain 60 times as much of carbon as in the atmosphere. However, the amount of CO {sub 2} absorbed from the atmosphere into the oceans as has been estimated to date can not explain the carbon balance on earth. The exchange rate of CO {sub 2} between the atmosphere and the oceans was estimated from measurements of the partial pressure (PCO {sub 2}), and from behaviors of the radiocarbon ({sup 14} C). However, to raise the estimation accuracy, it is necessary to obtain data from the sea areas where observations are carried out only infrequently, and from the winter season during which the observation frequency is low. Identifying variations in organic and inorganic carbon amount generated by marine organisms is also important. Since more than 99.9% of carbon is present in the form of carbonate, it is required that its amount, and the amount of precipitation and dissolution per unit time be identified, and that CO {sub 2} removed from the carbon cycle be quantified. What is particularly required is the study of open-sea bottom deposits, and the coastal study with coral reefs as the main object. 40 refs., 30 figs., 11 tabs.}
journal = []
volume = {24}
journal type = {AC}
place = {Japan}
year = {1990}
month = {Sep}
}
title = {Study of carbon dioxide (CO sub 2 ) problems through marine science. Kaiyo kara mita nisankatanso mondai}
author = {Honda, M}
abstractNote = {This paper reviews the researches relating to carbon dioxide circulation in oceans, and introduces the roles played by oceans in respect of the CO {sub 2} problem. Oceans occupy 70% of the globe {prime} s surface area, and contain 60 times as much of carbon as in the atmosphere. However, the amount of CO {sub 2} absorbed from the atmosphere into the oceans as has been estimated to date can not explain the carbon balance on earth. The exchange rate of CO {sub 2} between the atmosphere and the oceans was estimated from measurements of the partial pressure (PCO {sub 2}), and from behaviors of the radiocarbon ({sup 14} C). However, to raise the estimation accuracy, it is necessary to obtain data from the sea areas where observations are carried out only infrequently, and from the winter season during which the observation frequency is low. Identifying variations in organic and inorganic carbon amount generated by marine organisms is also important. Since more than 99.9% of carbon is present in the form of carbonate, it is required that its amount, and the amount of precipitation and dissolution per unit time be identified, and that CO {sub 2} removed from the carbon cycle be quantified. What is particularly required is the study of open-sea bottom deposits, and the coastal study with coral reefs as the main object. 40 refs., 30 figs., 11 tabs.}
journal = []
volume = {24}
journal type = {AC}
place = {Japan}
year = {1990}
month = {Sep}
}