亲爱的研友该休息了!由于当前在线用户较少,发布求助请尽量完整地填写文献信息,科研通机器人24小时在线,伴您度过漫漫科研夜!身体可是革命的本钱,早点休息,好梦!

Surface-to-Interior Transport Timescales and Ventilation Patterns in a Time-Dependent Circulation Driven by Sustained Climate Warming

环境科学 大气科学 气候学 纬度 大气(单位) 过境时间 气候变化 循环(流体动力学) 全球变暖 地质学 气象学 海洋学 机械 地理 物理 大地测量学 运输工程 工程类
作者
Yi Liu,François Primeau
出处
期刊:Journal of Physical Oceanography [American Meteorological Society]
卷期号:54 (1): 173-186
标识
DOI:10.1175/jpo-d-23-0113.1
摘要

Abstract The effect of climate warming in response to rising atmospheric CO 2 on the ventilation of the ocean remains uncertain. Here we make theoretical advances in elucidating the relationship between ideal age and transit time distribution (TTD) in a time-dependent flow. Subsequently, we develop an offline tracer-transport model to characterize the ventilation patterns and time scales in the time-evolving circulation for the 1850–2300 period as simulated with the Community Earth System Model version 1 (CESMv1) under a business-as-usual warming scenario. We found that by 2300 2.1% less water originates from the high-latitude deep water formation regions (both hemispheres) compared to 1850. In compensation, there is an increase in the water originating from the subantarctic. We also found that slowing meridional overturning circulation causes a gradual increase in mean age during the 1850–2300 period, with a globally averaged mean-age increase of ∼110 years in 2300. Where and when the water will be re-exposed to the atmosphere depends on the post-2300 circulation. For example, if we assume that the circulation persists in its year-2300 state (scenario 1), the mean interior-to-surface transit time in year 1850 is ∼1140 years. In contrast, if we assume that the circulation abruptly recovers to its year-1850 state (scenario 2), the mean interior-to-surface transit time in 1850 is only ∼740 years. By 2300, these differences become even larger; in scenario 1, the mean interior-to-surface transit time increases by ∼200 years, whereas scenario 2 decreases by ∼80 years. The dependence of interior-to-surface transit time on the future ocean circulation produces an additional unavoidable uncertainty in the long-term durability of marine carbon dioxide removal strategies. Significance Statement The ocean’s circulation, when altered by climate warming, can affect its capacity to absorb heat and CO 2 , which are crucial for the global climate. In our study, we investigated how global warming, caused by rising CO 2 levels, might impact the ocean circulation—the way water moves from deep ocean to the surface and vice versa. We discovered that by 2300, if we continue on our current warming trajectory, the origins of water within the ocean will shift, with less coming from deep, cold zones near the poles and more from subantarctic regions. As a result, deep water will take longer time before it resurfaces than shallow water. How quickly this water travels from deep regions to the surface could change, depending on the state of future ocean circulation. If the circulation remains as predicted in 2300, this journey will take longer. Conversely, if it reverts to the pattern in 1850, the process will be quicker. This variability introduces added uncertainty to strategies aimed at mitigating climate change by storing CO 2 in the ocean. Our work highlights the intricate ways in which climate change can influence our oceans, potentially affecting our plans to mitigate global warming.

科研通智能强力驱动
Strongly Powered by AbleSci AI
科研通是完全免费的文献互助平台,具备全网最快的应助速度,最高的求助完成率。 对每一个文献求助,科研通都将尽心尽力,给求助人一个满意的交代。
实时播报
6秒前
9秒前
HAO发布了新的文献求助10
11秒前
Kao应助科研通管家采纳,获得10
19秒前
丘比特应助科研通管家采纳,获得10
19秒前
31秒前
Wei发布了新的文献求助10
32秒前
笑点低冥发布了新的文献求助10
37秒前
38秒前
笑点低冥完成签到,获得积分10
48秒前
YYL完成签到 ,获得积分10
58秒前
1分钟前
万物皆可爱应助Wei采纳,获得10
1分钟前
1分钟前
1分钟前
1分钟前
1分钟前
学术垃圾发布了新的文献求助10
1分钟前
bkagyin应助Wei采纳,获得10
2分钟前
小王完成签到,获得积分20
2分钟前
2分钟前
cw1231发布了新的文献求助10
2分钟前
miaomiao123完成签到 ,获得积分10
2分钟前
Kao应助科研通管家采纳,获得10
2分钟前
Kao应助科研通管家采纳,获得10
2分钟前
Kao应助科研通管家采纳,获得10
2分钟前
Kao应助科研通管家采纳,获得10
2分钟前
cw1231完成签到,获得积分10
2分钟前
2分钟前
2分钟前
yy发布了新的文献求助10
2分钟前
senli2018发布了新的文献求助10
3分钟前
叶子应助senli2018采纳,获得10
3分钟前
hui完成签到 ,获得积分10
3分钟前
画善完成签到,获得积分10
3分钟前
MGraceLi_sci完成签到,获得积分10
3分钟前
3分钟前
淡淡的向雁完成签到,获得积分10
4分钟前
学术垃圾完成签到,获得积分10
4分钟前
4分钟前
高分求助中
(应助此贴封号)【重要!!请各用户(尤其是新用户)详细阅读】【科研通的精品贴汇总】 10000
2026年中国辛酸癸酸聚乙二醇甘油酯行业市场现状调查及投资机会研判报告 1000
2026年中国辛酸癸酸聚乙二醇甘油酯行业市场规模及竞争格局分析报告 1000
48V Low-voltage Power Distribution Network (PDN) Architecture Industry Report, 2024 800
Fundamentals of Pharmaceutical and Biologics Regulations: A Global Perspective, Second Edition 700
Matrix Methods in Data Mining and Pattern Recognition Second Edition 510
Periodic Report Summary 2 - AFTER (A Framework for electrical power sysTems vulnerability identification, dEfense and Restoration) 500
热门求助领域 (近24小时)
化学 材料科学 医学 生物 纳米技术 工程类 有机化学 化学工程 生物化学 计算机科学 内科学 物理 复合材料 催化作用 细胞生物学 无机化学 光电子学 物理化学 电极 基因
热门帖子
关注 科研通微信公众号,转发送积分 7317814
求助须知:如何正确求助?哪些是违规求助? 8933595
关于积分的说明 18938076
捐赠科研通 6977088
什么是DOI,文献DOI怎么找? 3214236
关于科研通互助平台的介绍 2382144
邀请新用户注册赠送积分活动 2193158