日本地球惑星科学連合2023年大会

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[J] オンラインポスター発表

セッション記号 A (大気水圏科学) » A-OS 海洋科学・海洋環境

[A-OS16] 海洋化学・生物学

2023年5月21日(日) 13:45 〜 15:15 オンラインポスターZoom会場 (3) (オンラインポスター)

コンビーナ:三角 和弘(一般財団法人電力中央研究所 サステナブルシステム研究本部 )、川合 美千代(東京海洋大学)

現地ポスター発表開催日時 (2023/5/21 17:15-18:45)

13:45 〜 15:15

[AOS16-P04] 北太平洋の水温躍層へのケイ酸塩の供給過程に関する数値シミュレーション

*三角 和弘1西岡 純2坪野 考樹1津旨 大輔1 (1.一般財団法人電力中央研究所 サステナブルシステム研究本部 、2.北海道大学低温科学研究所)

キーワード:栄養塩、北太平洋、潮汐混合

1. Introduction
The North Pacific is known to be a unique oceanic region where the silicate concentrations are higher than the nitrate concentrations in the thermocline. The richness of silicate is represented by Si* (Sarmiento et al., 2004) that is defined as Si*=Si(OH)4-NO3, and, in the thermocline, the Si* values are positive in the North Pacific while they are negative in the other oceanic regions. In the deep water below the thermocline of the Pacific, the Si* values exceed 100 μmol/L. This is because the longer dissolution length scale of silicon than mineralization length scale of nitrogen elevates the Si* values during water flowing in the deep Pacific. Sarmiento et al. (2004) hypothesized that the positive Si* in the Pacific thermocline is mainly formed by vertical Si transport from the deep water by locally enhanced vertical-mixing caused by interaction of tidal flow and rough bathymetry. In this study, to test this hypothesis, we used an ocean model coupled with marine biogeochemical cycle model and conducted experiments with tidal vertical mixing turned on and off.

2. Numerical model
We used the ROMS (Regional Ocean Modeling System) model coupled with the BEC (Biogeochemical Elemental Cycling) model simulating marine biogeochemical cycles (Misumi et al., 2021). The computational domain was the entire North Pacific, with a resolution of 1/12° for the northwestern part around Japan and a resolution of 1/4° for the outer part. To represent tidal vertical mixing, we used a parameterization of the near-field mixing (Oka and Niwa, 2013) with conversion rates of baroclinic tide energy calculated by a tide model (Niwa and Hibiya, 2014). We conducted a case with tidal vertical mixing (ON) and a case without it (OFF). Each simulation was conducted for 60 years, and the results for the last 10 years were compared.

3. Results and discussion
Silicate concentrations in the thermocline were simulated better in the ON case than in the OFF case. However, Si* in the thermocline was positive in both the cases and the difference was small. Comparison of the silicate tendency caused by vertical mixing showed that silicate was mainly supplied to the thermocline by background vertical mixing and the tidal vertical mixing only has secondary effect. Because the dissolution length scale of silicon is longer than the mineralization length scale of nitrogen, the vertical gradient of silicate concentration reaching below the thermohaline, which makes silicate to be supplied from deeper water more efficiently than nitrate.