Re-evaluating Marine Isotope Stage 5a paleo-sea-level trends from across the Florida Keys reef tract

IF 2.9 Q2 GEOGRAPHY, PHYSICAL
Scarlette Hsia , Lauren T. Toth , Richard Mortlock , Charles Kerans
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引用次数: 0

Abstract

Unraveling how Global Mean Sea Level (GMSL) fluctuated during past warm periods can improve our understanding of linkages between sea-level fluctuations, orbital forcing, and ice-sheet dynamics. Current estimates of GMSL for Marine Isotope Stages (MIS) 5a and 5c — two warm intervals following the relatively well-documented MIS 5e — contain meters of uncertainty and fewer data due to several challenges. These challenges include concealment of datable in-situ coral facies by MIS 1 deposits and inaccessibility due to submergence by modern sea level. We present a comprehensive dataset based on U–Th dating and stratigraphic correlation of 23 cores totaling over 170 m of recovered coral-reef deposits across the tectonically stable Florida Keys Reef Tract (FKRT). Following detailed facies descriptions, 34 in-situ, minimally altered aragonitic coral samples (≤2.7% calcite) below the Holocene-Pleistocene boundary were targeted for U–Th geochronology. Fourteen closed-system coral U–Th ages from MIS 5a include the commonly used sea-level indicator Acropora palmata, but also the massive coral taxa Pseudodiploria strigosa, Siderastrea siderea, Orbicella spp., and Porites astreoides. Dating yielded ages in the range of 88–81 ka (average 2σ uncertainty of less than 200 years). These ages suggest MIS 5a reef initiation at ∼88 ka BP, a peak near 83 ka with minimum elevations between −6.0 ± 0.5 and −5.6 ± 0.5 m MSL (2σ uncertainty and subsidence-corrected), and reef termination and sea-level fall by ∼81 ka BP. Notably, the range of peak MIS 5a relative sea-level estimates of −6.5 to −5.1 m MSL are more than 2 m shallower (higher) than previous estimates of −11 to −9 m. Our higher resolution regional sea-level reconstruction across four subregions of the Florida Keys reef tract aligns with changes in July insolation at 65° N: a trend that most other records, such as deep-sea sediments, do not have the accuracy and precision to resolve. Three massive coral samples from MIS 5c, consisting of Pseudodiploria clivosa, and Orbicella spp., yielded ages in the range of 104 to 99 ka (average 2σ uncertainty less than 200 years); however, because only one sample met the closed-system criteria, our ability to estimate MIS 5c sea level is relatively limited. More empirical estimates of sea-level from the MIS 5a and MIS 5c intervals based on numerical dating of reliable local sea-level constraints are critical for GMSL calculations and relating changes in sea-level amplitude and timing to global ice volume modeling and glacio-isostatic effects, all of which can improve predictions of future sea-level changes in coastal regions.

Abstract Image

向《第四纪科学进展》投稿 重新评估来自佛罗里达州佛罗里达礁岛群的海洋同位素第 5a 阶段古海平面趋势
揭示全球平均海平面(GMSL)在过去的暖期是如何波动的,可以提高我们对海平面波动、轨道强迫和冰盖动力学之间联系的认识。目前对海洋同位素阶段(MIS)5a 和 5c(在相对有据可查的 MIS 5e 之后的两个温暖时期)的全球海平面的估计,由于面临一些挑战,存在数米的不确定性和较少的数据。这些挑战包括 MIS 1 沉积物掩盖了可确定数据的原位珊瑚层,以及现代海平面的淹没导致无法进入。我们介绍了一个基于 U-Th 测定和地层相关性的综合数据集,该数据集包括 23 个岩心,总长超过 170 米,横跨构造稳定的佛罗里达礁群区(FKRT)。经过详细的岩相描述,34 个全新世-始新世边界以下的原位微蚀文石珊瑚样本(方解石含量≤2.7%)被列为 U-Th 地质年代研究的目标。来自 MIS 5a 的 14 个封闭系统珊瑚 U-Th 年龄包括常用的海平面指标 Acropora palmata,也包括大块珊瑚类群 Pseudodiploria strigosa、Siderastrea siderea、Orbicella spp.和 Porites astreoides。年代测定得出的年龄范围为 88-81 ka(平均 2σ 不确定性小于 200 年)。这些年龄表明,MIS 5a 珊瑚礁开始于公元前 88 ka∼,83 ka 附近达到高峰,最低海拔在 -6.0 ± 0.5 和 -5.6 ± 0.5 m MSL 之间(2σ 不确定性和下沉校正),到公元前 81 ka 珊瑚礁终止,海平面下降。值得注意的是,MIS 5a相对海平面的峰值范围为-6.5至-5.1 m MSL,比之前估计的-11至-9 m浅(高)2 m以上。我们对佛罗里达礁岛群四个亚区进行的分辨率更高的区域海平面重建与北纬65°的七月日照变化相一致:大多数其他记录,如深海沉积物,都不具备解决这一趋势的准确性和精确性。来自 MIS 5c 的三个大块珊瑚样本(包括 Pseudodiploria clivosa 和 Orbicella spp.)的年龄在 104 到 99 ka 之间(平均 2σ 不确定性小于 200 年);但是,由于只有一个样本符合封闭系统标准,我们估计 MIS 5c 海平面的能力相对有限。在对可靠的当地海平面约束条件进行数值测年的基础上,对 MIS 5a 和 MIS 5c 区间的海平面进行更多的经验估算,对于计算全球海平面上升速率以及将海平面幅 度和时间变化与全球冰量建模和冰川-等静力效应联系起来都是至关重要的,所有这些都可 以改进对沿海地区未来海平面变化的预测。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Quaternary Science Advances
Quaternary Science Advances Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
4.00
自引率
13.30%
发文量
16
审稿时长
61 days
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