Extremes of Dissolved Oxygen in the California Current System

arXiv - PHYS - Atmospheric and Oceanic Physics Pub Date : 2024-08-22 DOI:arxiv-2408.12287

J. Xavier ProchaskaUniversity of California, Santa CruzScripps Institution of OceanographSimons Pivot Fellow, Daniel RudnickScripps Institution of Oceanograph

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Abstract

Dissolved oxygen (DO) is a non-conservative tracer of interactions at the air-sea interface, respiration and photosynthesis, and advection. In this manuscript, we study extremes in the degree of oxygen saturation (SO), the ratio of DO to the maximum concentration given the water's temperature, salinity, and depth with SO=1 critically saturated. We perform the analysis with the California Underwater Glider Network (CUGN), which operates gliders on four lines that extend from the California coast to several hundred kilometers offshore, profiling to 500m depth every 3km. Since ~2017, the gliders have been equipped with a Sea-Bird 63 optode sensor to measure the DO content. We find that parcels with SO>1.1, hyperoxic extrema, occur primarily near-shore in the upper 50m of the water column and during non-winter months. Along Line 90 which originates in San Diego, these hyperoxic events occur primarily in stratified waters with shallow mixed layers. We hypothesize that photosynthesis elevates DO in sub-surface water that can not rapidly ventilate with the surface. Along the three other lines, hyperoxic extrema occur almost exclusively at the surface and are correlated with elevated Chl-a fluorescence suggesting they are primarily driven by blooms of photosynthesis. We also examine hypoxic extrema, finding that parcels with SO<0.9 and z<50m occur most frequently along the northernmost line where upwelling has greatest impact.

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加利福尼亚洋流系统中溶解氧的极值

溶解氧（DO）是海气界面相互作用、呼吸作用和光合作用以及平流的非保守示踪剂。在本手稿中，我们研究了氧气饱和度（SO）的极端情况，即在 SO=1 的极度饱和状态下，在水温、盐度和水深条件下溶解氧与最大浓度的比值。我们利用加利福尼亚水下滑翔机网络（CUGN）进行分析，该网络在四条线上运行滑翔机，从加利福尼亚海岸延伸到离岸几百公里处，每隔 3 公里进行一次深度为 500 米的剖面测量。自 ~2017 年起，滑翔机配备了 Sea-Bird 63 光学传感器来测量溶解氧含量。我们发现，SO>1.1 的地块（即高氧极值）主要出现在近岸水柱上部 50 米处和非冬季月份。沿着起源于圣地亚哥的 90 号线，这些高氧事件主要发生在具有浅混合层的分层水体中。我们推测，光合作用使无法与表层快速换气的表层下水体中的氧化亚氮升高。在其他三条线中，高氧极值几乎完全发生在表层，并且与 Chl-a 荧光的升高相关，这表明它们主要是由光合作用的大量繁殖所驱动的。我们还研究了缺氧极值，发现 SO<0.9 和 z<50m 的地块最常出现在最北线，那里的上升流影响最大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Atmospheric and Oceanic Physics

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