Deglacial Temperature and Carbonate Saturation State Variability in the Tropical Atlantic at Antarctic Intermediate Water Depths

IF 3.2 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Paleoceanography and Paleoclimatology Pub Date : 2023-08-26 DOI:10.1029/2023PA004674
D. Oppo, Lu, K.‐F. Huang, N. Umling, W. Guo, J. Yu, W. Curry, T. Marchitto, S. Wang, W. Lu
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Abstract

Variations in the Atlantic Meridional Overturning Circulation (AMOC) redistribute heat and nutrients, causing pronounced anomalies of temperature and nutrient concentrations in the subsurface ocean. However, exactly how millennial‐scale deglacial AMOC variability influenced the subsurface is debated, and the role of other deglacial forcings of subsurface temperature change is unclear. Here, we present a new deglacial temperature reconstruction, which, with published records, helps assess competing hypotheses for deglacial warming in the upper tropical North Atlantic. Our record provides new evidence of regional subsurface warming in the western tropical North Atlantic within the core of modern Antarctic Intermediate Water (AAIW) during Heinrich Stadial 1 (HS1), an early deglacial interval of iceberg discharge into the North Atlantic. Our results are consistent with model simulations that suggest subsurface heat accumulates in the northern high‐latitude convection regions and along the upper AMOC return path when the AMOC weakens, and with warming due to rising greenhouse gases. Warming of AAIW may have also contributed to warming in the tropics at modern AAIW depths during late HS1. Nutrient and ΔCO32− ${\Delta }\left[{\mathrm{C}\mathrm{O}}_{3}^{2-}\right]$ reconstructions from the same site suggest a link between AMOC intensity and the northward extent of AAIW in the northern tropics across the deglaciation and on millennial time scales. However, the timing of the initial deglacial increase in AAIW to the northern tropics is ambiguous. Deglacial trends and variability of ΔCO32− ${\Delta }\left[{\mathrm{C}\mathrm{O}}_{3}^{2-}\right]$ in the upper North Atlantic have likely biased temperature reconstructions based on the elemental composition of calcitic benthic foraminifera.
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南极中间水深热带大西洋的冰川温度和碳酸盐饱和状态变化
大西洋经向翻转环流(AMOC)的变化重新分配了热量和营养物质,导致地下海洋的温度和营养物质浓度明显异常。然而,千年尺度的冰川消融AMOC变化究竟是如何影响地表的,目前尚不清楚其他冰川消融对地表温度变化的影响。在这里,我们提出了一种新的冰川消退温度重建方法,根据已发表的记录,该方法有助于评估北大西洋热带上层冰川消退变暖的相互竞争的假设。我们的记录提供了新的证据,证明在Heinrich Stadial 1(HS1)期间,热带北大西洋西部现代南极中间水(AAIW)核心内的区域性地下变暖,这是冰山排入北大西洋的早期冰川消退期。我们的结果与模型模拟一致,模型模拟表明,当AMOC减弱时,地下热量在北部高纬度对流区和上部AMOC返回路径积聚,并随着温室气体增加而变暖。在HS1晚期,AAIW的变暖可能也导致了现代AAIW深度的热带变暖。同一地点的营养和ΔCO32−${\Delta}\left[{\mathrm{C}\mathrm{O}}_{3}^{2-}\right]$重建表明,在冰川消融和千年时间尺度上,AMOC强度与热带北部AAIW的向北范围之间存在联系。然而,AAIW在热带北部最初的冰川消退增加的时间尚不明确。北大西洋上层ΔCO32−${\Delta}\left[{\mathrm{C}\mathrm{O}}_{3}^{2-}\right]$的退冰趋势和变化可能基于钙质底栖有孔虫的元素组成对温度重建产生偏差。
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来源期刊
Paleoceanography and Paleoclimatology
Paleoceanography and Paleoclimatology Earth and Planetary Sciences-Atmospheric Science
CiteScore
6.20
自引率
11.40%
发文量
107
期刊介绍: Paleoceanography and Paleoclimatology (PALO) publishes papers dealing with records of past environments, biota and climate. Understanding of the Earth system as it was in the past requires the employment of a wide range of approaches including marine and lacustrine sedimentology and speleothems; ice sheet formation and flow; stable isotope, trace element, and organic geochemistry; paleontology and molecular paleontology; evolutionary processes; mineralization in organisms; understanding tree-ring formation; seismic stratigraphy; physical, chemical, and biological oceanography; geochemical, climate and earth system modeling, and many others. The scope of this journal is regional to global, rather than local, and includes studies of any geologic age (Precambrian to Quaternary, including modern analogs). Within this framework, papers on the following topics are to be included: chronology, stratigraphy (where relevant to correlation of paleoceanographic events), paleoreconstructions, paleoceanographic modeling, paleocirculation (deep, intermediate, and shallow), paleoclimatology (e.g., paleowinds and cryosphere history), global sediment and geochemical cycles, anoxia, sea level changes and effects, relations between biotic evolution and paleoceanography, biotic crises, paleobiology (e.g., ecology of “microfossils” used in paleoceanography), techniques and approaches in paleoceanographic inferences, and modern paleoceanographic analogs, and quantitative and integrative analysis of coupled ocean-atmosphere-biosphere processes. Paleoceanographic and Paleoclimate studies enable us to use the past in order to gain information on possible future climatic and biotic developments: the past is the key to the future, just as much and maybe more than the present is the key to the past.
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