Discriminating Deep Water Deposits for IODP Expedition 401: "Mediterranean-Atlantic Gateway Exchange" (Acronym: DISCRIMINATE)

IODP 401 号远征的深水沉积物识别：“地中海-大西洋门户交换”（缩写：DISCRIMINATE）

• 批准号: NE/Y005511/1
• 负责人: F Javier Hernandez-Molina
• 金额: $ 3.26万
• 依托单位: Royal Holloway University of London
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FY005511%2F1
• 关键词: Discriminating; Deep; Water; Deposits; IODP

Ocean basins are connected by gateways (e.g., Drake Passage), sometimes referred to as seaways, passages, straits, and corridors. Marine gateways play a critical role in the exchange of water, heat, salt and nutrients between oceans and seas. The advection of dense waters helps drive global thermohaline circulation and, since the ocean is the largest of the rapidly exchanging CO2 reservoirs, this advection also affects atmospheric carbon concentration. Changes in gateway geometry can therefore significantly alter both the pattern of global ocean circulation and associated heat transport and climate, as well as having a profound local impact.Today, the volume of dense water supplied by Atlantic-Mediterranean exchange through the Gibraltar Strait is amongst the largest in the global ocean. For the past five million years this overflow has generated a saline plume at intermediate depths in the Atlantic, generates bottom currents distinctive deposits (called "contourites") in the Gulf of Cadiz and contributes to the formation of North Atlantic Deep Water. This single gateway configuration only developed in the early Pliocene, however. During the Miocene, a wide, open seaway linking the Mediterranean and Atlantic evolved into two narrow corridors: one in northern Morocco; the other in southern Spain. Formation of these corridors permitted Mediterranean salinity to rise and a new, distinct, dense water mass to form and overspill into the Atlantic for the first time. Further restriction and closure of these connections resulted in extreme salinity fluctuations in the Mediterranean, leading to the formation of the Messinian Salinity Crisis salt giant. The International Ocean Discovery Program (IODP) Expedition 401: "Mediterranean-Atlantic Gateway Exchange" is planned to recover a complete record of Atlantic-Mediterranean exchange from its Late Miocene inception to its current configuration. This IODP expedition is the offshore component of the Land2Sea Proposal IMMAGE "Investigating Miocene Mediterranean-Atlantic Gateway Exchange", which aims to constrain quantitatively the consequences for ocean circulation and global climate of the inception of Atlantic-Mediterranean exchange; to explore the mechanisms for high amplitude environmental change in marginal marine systems and to test physical oceanographic hypotheses for extreme high-density overflow dynamics that do not exist in the world today on this scale.The JOIDES Resolution Science Operator (JRSO) was pleased to invite my participation as a Sedimentologist on IODP Expedition 401. This proposal "Discriminating Deep Water Deposits for IODP Expedition 401: "Mediterranean-Atlantic Gateway Exchange" (DISCRIMINATE) would support my participation in the IODP Exp 401 covering my participant's cost; staff, travel and subsistence, and moratorium period research. This research project aims the discrimination d of deep marine deposits, with special emphasis on possible deposits generated by bottom currents (contourites) or sediment reworked by currents (as reworked turbidites), on the Atlantic sites from IODP Expedition 401. The specific research objectives of the proposed research based on than general aim are: a) recognise and discriminate bottom current deposits, for estimate the bottom current variability and circulation before, during and after the Messinian Salinity Crisis; b) Understand the long- and short-term dynamics and exchange of water masses during key intervals during the Late Miocene (as the early and Late Messinian), and c) determine the key events and their significance for basin analysis and palaeocirculation. The growing interest in, and implications of, contourite and sediment reworked by currents deposits demonstrates that these sediments represent significant deep-marine sedimentary environments.

洋盆通过门户（例如德雷克海峡）连接，有时也称为海道、通道、海峡和走廊。海洋门户在海洋之间的水、热、盐和营养物质交换中发挥着至关重要的作用。稠密水域的平流有助于推动全球温盐环流，而且由于海洋是最大的快速交换二氧化碳库，这种平流也会影响大气中的碳浓度。因此，门户几何形状的变化可以显着改变全球海洋环流的模式以及相关的热传输和气候，并对当地产生深远的影响。今天，大西洋-地中海交换通过直布罗陀海峡供应的浓水量是其中之一全球海洋中最大的。在过去的五百万年里，这种溢流在大西洋的中间深度产生了盐羽流，在加的斯湾产生了独特的底流沉积物（称为“等深流”），并促成了北大西洋深水的形成。然而，这种单一网关配置仅在上新世早期发展起来。在中新世，一条连接地中海和大西洋的宽阔开放的航道演变成两条狭窄的走廊：一个在摩洛哥北部，另一个在摩洛哥北部。另一个在西班牙南部。这些走廊的形成使地中海盐度上升，并首次形成新的、独特的、致密的水团并溢出到大西洋。这些联系的进一步限制和关闭导致地中海盐度极度波动，导致墨西拿盐度危机盐巨星的形成。国际海洋探索计划 (IODP) 401 号探险：“地中海-大西洋门户交换”计划恢复大西洋-地中海交换从晚中新世开始到目前配置的完整记录。这次IODP探险是陆海提案IMMAGE“调查中新世地中海-大西洋门户交换”的近海部分，其目的是定量地限制大西洋-地中海交换开始时对海洋环流和全球气候的影响；探索边缘海洋系统大幅环境变化的机制，并测试当今世界在这种规模上不存在的极端高密度溢出动力学的物理海洋学假设。JOIDES 分辨率科学运营商 (JRSO) 很高兴邀请我作为沉积学家参与了 IODP 401 号远征。该提案“为 IODP 401 号远征识别深水沉积物：“地中海-大西洋门户交换” (DISCRIMINATE) 将支持我参与 IODP Exp 401，涵盖参与者的费用；人员费用、旅行和生活费以及暂停期研究。该研究项目旨在识别深海沉积物，特别强调海底洋流可能产生的沉积物。 IODP 401 号远征大西洋地点的沉积物（等深岩）或被水流改造的沉积物（作为改造浊积岩）。拟议研究的具体研究目标基于总体目标是： a) 识别和区分底流沉积物，以估计墨西拿盐度危机之前、期间和之后的底流变化和环流； b) 了解晚中新世（如早墨西纪和晚墨西拿）关键时期水团的长期和短期动态和交换，以及 c) 确定关键事件及其对盆地分析和古环流的意义。人们对由水流沉积物改造的等高线岩和沉积物的兴趣日益浓厚，其影响表明，这些沉积物代表了重要的深海沉积环境。