美国俄勒冈州北走私者湾海崖波浪切割平台遗址,卡斯卡迪亚地震引发的蜂蜡帆船残骸木材的岩石滑坡埋葬

IF 0.4 Q4 GEOSCIENCES, MULTIDISCIPLINARY
C. Peterson, S. Williams, Craig Andes
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引用次数: 0

摘要

西班牙大帆船圣克里斯多·德·布尔戈斯的沉船木材(n=27),也被称为蜂蜡残骸(1693年丢失),在俄勒冈州北部海岸的小走私者湾的潮汐间波浪切割平台上,研究了多个同时发生的岩石滑坡埋葬的起源,这些埋葬保护和保存了木材。将掩埋沉船木材的岩石滑坡(n= 3-4)与附近历史上类似的岩石滑坡进行比较,以更好地建立波浪切割平台上巨石分布的机制。在北走私者湾(NSC)木材掩埋地点,测量了大石块(n=20),通常中间直径≥1.0 m,估计质量(1-41 t)和沿海岸分布在小沟壑下,这些沟壑将巨石从上覆的短(~100 m距离)但陡峭的山坡(40-60%坡度)引导到波浪切割平台。在国家安全委员会遗址的多个独立的岩石滑坡,通过埋藏的蜂蜡残骸的木材可以追溯到300年前,显示出由一个广泛的触发因素同时发生的灾难性的激活。异常降雨和/或风暴波攻击不太可能是这些岩崩激活的机制,因为1)山坡保护免受延伸的上坡地表水排放的影响,2)海崖保护免受风暴波的直接影响。在国家安全委员会地区引发岩石滑坡的最可能的广泛触发因素是中部卡斯卡迪亚俯冲带的地震引起的地面震动。现代风暴风速(>10 s-1持续速度和170-225°方位)和风暴潮产生的离岸流(离岸距离≥0.5公里)表明,在Santo Cristo de Burgos解体后的几个冬季,蜂蜡残骸的木材可能被向北(1-10公里)运送到Smuggler Cove。1700年卡斯卡迪亚大地震(Mw~9.0)是在走私者湾狭窄的潮间带波浪切割平台上短暂堆积沉船木材后不久,最有可能引发NSC现场多重岩石滑坡的地震触发器。建议在中部卡斯卡迪亚边缘的其他海崖岩崩地点(n=8)进一步研究1700年卡斯卡迪亚大地震引起的地震诱发的边坡破坏。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cascadia Earthquake-Triggered Rockslide Burial of Beeswax Galleon Wreck Timbers in a Sea Cliff Wave-Cut Platform Site, North Smuggler Cove, Oregon, USA
Shipwreck timbers (n=27) from the Spanish galleon Santo Cristo de Burgos, also known as the Beeswax Wreck (lost in 1693), are examined for origins of multiple, simultaneous rockslide burials that protected and preserved the timbers on an intertidal wave-cut platform in the small Smuggler Cove in the Northern Oregon coast. The rockslides (n=3–4) that buried the shipwreck timbers are compared to nearby historic rockslide analogs to better establish the mechanisms of boulder distributions on the wave-cut platform. Large boulders (n=20), generally ≥1.0 m intermediate diameter, in the North Smuggler Cove (NSC) timber burial site were measured for estimated mass (1–41 t) and alongshore distribution below small gullies that routed the boulders to the wave-cut platform from overlying short (~100 m distance) but steep hillslopes (40–60% gradient). The multiple independent rockslides in the NSC site, dated to ~300 years by the buried Beeswax Wreck timbers, showed catastrophic, simultaneous activation by a widespread trigger. Anomalous rainfall and/or storm wave attack are unlikely mechanisms for these rockslide activations due to 1) hillslope protections from extended-upslope surface water discharge and 2) sea cliff protection from direct storm wave impacts. The most likely widespread trigger for rockslide activation in the NSC site is seismic ground shaking from an earthquake in the Central Cascadia subduction zone. Modern storm wind velocities (>10 s-1 sustained velocity and 170–225° bearing) and storm surge generated rip currents (≥0.5 km offshore distance) indicate that Beeswax Wreck timbers could have been transported north (1–10 km) to Smuggler Cove, within several winter seasons after the breakup of the Santo Cristo de Burgos. The most likely seismic trigger that could have activated the multiple rockslides in the NSC site, shortly after the brief accumulation of shipwreck timbers on the narrow, intertidal wave-cut platform in Smuggler Cove, is the 1700 Cascadia great earthquake (Mw~9.0). Additional sea cliff rockslide sites (n=8) in the central Cascadia margin are suggested for further investigations of seismically activated slope failures by the 1700 Cascadia great earthquake.
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Journal of Geology Geography and Geoecology
Journal of Geology Geography and Geoecology GEOSCIENCES, MULTIDISCIPLINARY-
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