Evaluating Existing Ocean Glider Sampling Strategies for Submesoscale Dynamics

IF 1.9 4区 地球科学 Q2 ENGINEERING, OCEAN
Ryan D. Patmore, David Ferreira, David P. Marshall, M. D. du Plessis, J. Brearley, Sebastiaan Swart
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Abstract

Mixing in the upper ocean is important for biological production and the transfer of heat and carbon between the atmosphere and deep ocean, properties commonly targeted by observational campaigns using ocean gliders. We assess the reliability of ocean gliders to obtain a robust statistical representation of submesocale variability in the ocean mixed layer of the Weddell Sea. A 1/48° regional simulation of the Southern Ocean is sampled with virtual ‘bow-tie’ glider deployments, which are then compared against the reference model output. Sampling biases of lateral buoyancy gradients associated with the arbitrary alignment between glider paths and fronts are formally quantified, and the magnitude of the biases are comparable to observational estimates, with a mean error of 52%. The sampling bias leaves errors in the retrieved distribution of buoyancy gradients largely insensitive to deployment length and the deployment of additional gliders. Notable sensitivity to these choices emerges when the biases are removed by sampling perpendicular to fronts at all times. Detecting seasonal change in the magnitude of buoyancy gradients is sensitive to the glider-orientation sampling bias but the change in variance is not. We evaluate the impact of reducing the number of dives and climbs in an observational campaign and find small reductions in the number of dive-climb pairs have a limited effect on the results. Lastly, examining the sensitivity of the sampling bias to path orientation indicates the bias is not dependent on the direction of travel, in our deep ocean study site.
评估现有海洋滑翔机对亚主题尺度动态的采样策略
海洋上层的混合层对生物生产以及大气与深海之间的热量和碳的传输非常重要,这些特性通常是使用海洋滑翔机进行观测活动的目标。我们评估了海洋滑翔机在获得威德尔海海洋混合层亚尺度变异性的稳健统计表示方面的可靠性。利用虚拟 "领结式 "滑翔机布放对南大洋 1/48° 区域模拟进行采样,然后与参考模式输出进行比较。与滑翔机路径和锋面之间的任意对齐有关的横向浮力梯度采样偏差被正式量化,偏差的大小与观测估计值相当,平均误差为 52%。采样偏差使得浮力梯度分布的误差对布放长度和布放额外的滑翔机基本不敏感。如果在任何时候都垂直于锋面取样,就可以消除这些偏差。检测浮力梯度大小的季节性变化对滑翔机取样方向的偏差很敏感,但对方差的变化则不敏感。我们评估了在观测活动中减少下潜和爬升次数的影响,发现下潜和爬升次数的少量减少对观测结果的影响有限。最后,研究了取样偏差对路径方向的敏感性,结果表明在我们的深海研究地点,取样偏差与行进方向无关。
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来源期刊
CiteScore
4.50
自引率
9.10%
发文量
135
审稿时长
3 months
期刊介绍: The Journal of Atmospheric and Oceanic Technology (JTECH) publishes research describing instrumentation and methods used in atmospheric and oceanic research, including remote sensing instruments; measurements, validation, and data analysis techniques from satellites, aircraft, balloons, and surface-based platforms; in situ instruments, measurements, and methods for data acquisition, analysis, and interpretation and assimilation in numerical models; and information systems and algorithms.
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