| Type |
Article |
| Date |
2022-02 |
| Language |
English |
| Author(s) |
Yasunaka Sayaka1, Ono Tsuneo2, Sasaoka Kosei1, Sato Kanako1 |
| Affiliation(s) |
1 : Japan Agcy Marine Earth Sci & Technol, Res Inst Global Change, Yokosuka, Kanagawa 2370061, Japan.
2 : Japan Fisheries Res & Educ Agcy, Fisheries Resources Inst, Yokohama, Kanagawa 2368648, Japan. |
| Source |
Ocean Science (1812-0784) (Copernicus Gesellschaft Mbh), 2022-02 , Vol. 18 , N. 1 , P. 255-268 |
| DOI |
10.5194/os-18-255-2022 |
| WOS© Times Cited |
7 |
| Abstract |
Chlorophyll a (Chl a) often exhibits a maximum concentration in the subsurface layer rather that at the surface. The depth of the Chl a maximum primarily depends on the balance between light penetration from the surface and the nutrient supply from the deep ocean. However, a global map of subsurface Chl a concentrations based on observations has not been presented yet. In this study, we integrate Chl a concentration data from recent biogeochemical floats and historical ship-based (and other) observations and present global maps of subsurface Chl a concentrations with related variables. The subsurface Chl a maximum was observed globally throughout the oceans: at depths greater than 80m in the subtropics and tropics (30 degrees S to 30 degrees N); in the 40-80m depth range in the tropics, in the Southern Ocean (south of 40 degrees S), and at the midlatitudes (30-40 degrees N/S) in the North Pacific; and at depths of less than 40m in the northern subarctic (north of 40 degrees N). The observed maxima all lie below the mixed-layer depth for the entire year in the subtropics and tropics and during summer in the midlatitudes and the northern subarctic. The depths of the subsurface Chl a maxima are greater than those of the photosynthetically active layer in the subtropics but shallower in the tropics and midlatitudes. In the subtropics, a seasonal increase in oxygen below the mixed layer implies substantial new biological production, which corresponds to 10% of the net primary production in that region. During El Nino, subsurface Chl a concentrations are higher in the middle and eastern equatorial Pacific but lower to the west in comparison with La Nina, a pattern which is opposite to that on the surface. The spatiotemporal variability of the Chl a concentrations described here has implications to not only for the biogeochemical cycling in the ocean but also for understanding the thermal structure and dynamics of the ocean via absorption of shortwave radiation. |
| Full Text |
| File |
Pages |
Size |
Access |
| Publisher's official version |
14 |
11 MB |
Open access |
| Supplement |
4 |
2 MB |
Open access |
| Preprint |
22 |
4 MB |
Open access |
| Supplement to the preprint |
2 |
990 KB |
Open access |
|
