14 C in the Deep Water of the East Atlantic
The renewal of east Atlantic deep water and its large-scale circulation and mixing have been studied in observed distributions of temperature, silicate, ΣCO 2 , and 14 C. 14 C variations in northeast Atlantic deep water below 3500m depth are small. Δ 14 C values range from − 100‰ to −125‰. 14 C bott...
| Published in: | Radiocarbon |
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| Main Author: | |
| Format: | Article in Journal/Newspaper |
| Language: | English |
| Published: |
Cambridge University Press (CUP)
1986
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| Subjects: | |
| Online Access: | http://dx.doi.org/10.1017/s0033822200007505 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0033822200007505 |
| Summary: | The renewal of east Atlantic deep water and its large-scale circulation and mixing have been studied in observed distributions of temperature, silicate, ΣCO 2 , and 14 C. 14 C variations in northeast Atlantic deep water below 3500m depth are small. Δ 14 C values range from − 100‰ to −125‰. 14 C bottom water concentrations decrease from Δ 14 C =−117‰ in the Sierra Leone Basin to Δ 14 C = − 123‰ in the Iberian Basin and are consistent with a mean northward bottom water flow. The characteristic of the water that flows from the west Atlantic through the Romanche Trench into the east Atlantic was determined by inspection of θ /Δ 14 C and θ /SiO 2 diagrams. A mean potential temperature of θ = 1.50 ± .05°C was found for the inflowing water. A multi-box model including circulation, mixing, and chemical source terms in the deep water has been formulated. Linear programing and least-squares techniques have been used to obtain the transport and source parameters of the model from the observed tracer fields. Model calculations reveal an inflow through the Romanche Trench from the west Atlantic, which predominates over any other inflow, of (5 ± 2) Sv (potential temperature 1.50°C), a convective turnover of (150 ± 50) years and a vertical apparent diffusivity of (4 ± 1) cm 2 /s. Chemical source terms are in the expected ranges. |
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