Transient tracer-based Investigation of Circulation and Thermal Ocean Change (TICTOC)

基于瞬态示踪剂的环流和热海洋变化调查 (TICTOC)

• 批准号: NE/P019218/1
• 负责人: David Marshall
• 金额: $ 48.09万
• 依托单位: University of Oxford
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2017
• 资助国家: 英国
• 起止时间: 2017 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FP019218%2F1
• 关键词: Transient; tracer; based; Investigation; Circulation

Carbon dioxide produced by burning fossil fuels such as oil and gas is building up in the atmosphere and causing the planet to warm. The oceans have absorbed more than 90% of the heat trapped on the planet to date. However, this heating also causes the ocean to expand, leading to rising sea level and consequently to an increased risk to and vulnerability of people and industries located near the coast. Understanding how much sea level will change into the future allows us to plan accordingly the defences we need to install in order to safeguard the infrastructure and livelihoods of our coastal communities. Warming of the ocean is not geographically uniform however, as ocean currents move heat around the globe. This leads to contrasting changes in ocean temperature and sea level (affecting coastal communities and assets). By the end of the century, some regions may experience very large sea level rises of up to a metre while others will see far less (or even a lowering). This science program will use observations made from research ships and computer models of the ocean to understand where the ocean takes up heat from the atmosphere and how ocean currents transport and redistribute that heat. To study ocean currents we need a 'tracer' - something that is placed in and moves with the flow, like a chemical dye. Although not intentionally for this purpose, three varieties of tracers have been added to the atmosphere since the 1950s and have since gradually been absorbed into the ocean, and redistributed by ocean currents. These are radioactive carbon (produced by mid 20th century nuclear bomb tests), chlorofluorocarbons (historically used in refrigerators and aerosol cans, and which caused an expansion of the Ozone Hole) and more recently sulphur-hexafluoride (formerly found in tennis balls but now predominantly used in electrical industries as an insulator). These tracers have entered the ocean as distinct pulses at different times, forming a fortuitous experiment we can now observe. We will use high-precision equipment to measure these tracers in the Atlantic and Southern Oceans and collaborate with international partners to track their global fate. We will use these observations to estimate the rate at which heat is being absorbed and re-distributed throughout the ocean and to assess and improve climate model predictions of regional sea level rise.

燃烧石油和天然气等化石燃料产生的二氧化碳正在大气中积聚，导致地球变暖。迄今为止，海洋已经吸收了地球上90%以上的热量。然而，这种加热也导致海洋扩大，导致海平面上升，从而增加了沿海地区人民和工业的风险和脆弱性。了解未来海平面将发生多大的变化，使我们能够相应地规划我们需要安装的防御设施，以保护我们沿海社区的基础设施和生计。然而，由于洋流在地球仪周围移动热量，海洋变暖在地理上并不均匀。这导致海洋温度和海平面的对比变化（影响沿海社区和资产）。到世纪末，一些地区的海平面可能会大幅上升，最高可达一米，而其他地区的海平面上升幅度则小得多（甚至有所下降）。该科学计划将利用研究船和海洋计算机模型进行的观测，以了解海洋从大气中吸收热量的位置以及洋流如何运输和重新分配热量。为了研究洋流，我们需要一种“示踪剂”--某种放置在洋流中并随着洋流移动的东西，就像化学染料一样。虽然不是故意的，但自1950年代以来，有三种示踪剂被添加到大气中，并逐渐被海洋吸收，并被洋流重新分配。这些是放射性碳（由世纪中期的核弹试验产生），氯氟烃（历史上用于冰箱和气雾剂罐，并导致臭氧洞扩大）和最近的六氟化硫（以前在网球中发现，但现在主要用于电气工业作为绝缘体）。这些示踪剂在不同的时间以不同的脉冲进入海洋，形成了我们现在可以观察到的偶然实验。我们将使用高精度设备测量大西洋和南大洋的这些示踪剂，并与国际伙伴合作，跟踪它们在全球的命运。我们将利用这些观测结果来估计热量在整个海洋中被吸收和重新分布的速率，并评估和改进气候模型对区域海平面上升的预测。

项目成果

Future Changes in d 13 C of Dissolved Inorganic Carbon in the Ocean

海洋中溶解无机碳的 d 13 C 的未来变化

• DOI: 10.1029/2021ef002173
• 发表时间: 2021
• 期刊: Earth's Future
• 作者: Graven H

Transient and Equilibrium Responses of the Atlantic Overturning Circulation to Warming in Coupled Climate Models: The Role of Temperature and Salinity

• DOI: 10.1175/jcli-d-21-0912.1
• 发表时间: 2022-08-01
• 期刊: JOURNAL OF CLIMATE
• 影响因子: 4.9
• 作者: Bonan, David B.;Thompson, Andrew F.;Rugenstein, Maria
• 通讯作者: Rugenstein, Maria

Greenhouse-gas forced changes in the Atlantic meridional overturning circulation and related worldwide sea-level change

• DOI: 10.1007/s00382-022-06386-y
• 发表时间: 2022-08
• 期刊: Climate Dynamics
• 影响因子: 4.6
• 作者: M. Couldrey;J. Gregory;Xiao Dong;O. Garuba;H. Haak;A. Hu;W. Hurlin;Jiangbo Jin;J. Jungclaus;A. Köhl;Hailong Liu;S. Ojha;O. Saenko;A. Savita;Tatsuo Suzuki;Zipeng Yu;L. Zanna

Fast mechanisms linking the Labrador Sea with subtropical Atlantic overturning

• DOI: 10.1007/s00382-022-06459-y
• 发表时间: 2022-08
• 期刊: Climate Dynamics
• 影响因子: 4.6
• 作者: Y. Kostov;M. Messias;H. Mercier;H. Johnson;D. Marshall

Surface factors controlling the volume of accumulated Labrador Sea Water

控制拉布拉多海水积聚量的地表因素

• DOI: 10.5194/egusphere-2023-1564
• 发表时间: 2023
• 作者: Kostov Y