Radiometric dating of the Ootun palaeosol and its implication for the age of the Shifting Sand in Ngorongoro Lengai Geopark (Arusha, Tanzania)

IF 0.9 Q3 GEOLOGY
Mohamed Zengo Makongoro, Maheswara Rao Vegi, S. Vuai, M. Msabi
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引用次数: 0

Abstract

Abstract The Shifting Sand is a barchan dune in Ngorongoro Lengai Geopark in Arusha, Tanzania. The geopark, a UNESCO World Heritage Site, is protected by the Ngorongoro Conservation Area Authority. The dune ranks amongst the main geosites that have been attracting numerous tourists; it formed as a result of volcanic ash eruptions that led to tephra deposition on a palaeosol (palaeosurface) in the Ootun area. The easterly winds modified the ash into dunes and headed to the Olduvai Gorge area. The age of the Shifting Sand dune is not known in detail. In the present study, we employ the radiocarbon (14C) dating method to date a subsurface palaeosol bed in the Ootun area where the tephra (i.e., original Shifting Sand materials) was originally deposited. An Accelerator Mass Spectrometer was used to determine the carbon-14 date of the palaeosol so as to estimate the age of the Shifting Sand dune, and an Energy Dispersive X-ray Fluorescent Spectrometer to determine the chemical composition of the Shifting Sand material and the tephra bed for correlative purposes. A radiocarbon (14C) date of 2510 ± 30 years BP for the Ootun palaeosol was obtained to estimate the minimum age of the Ootun subsurface tephra deposited in the area; since then, this started to move westwards towards the Olduvai Gorge area, where it is today defined as the Shifting Sand. The current findings add educational value to the Shifting Sand in Ngorongoro Lengai Geopark and improve our understanding of the eruption history of the Gregory Rift volcanoes.
Ngorongoro Lengai地质公园(坦桑尼亚阿鲁沙)Ootun古土壤的放射性测年及其对流沙年龄的影响
摘要流沙是坦桑尼亚阿鲁沙NgorongoLengai地质公园中的一个新月形沙丘。该地质公园是联合国教科文组织世界遗产,由恩戈罗戈罗保护区管理局保护。沙丘是吸引众多游客的主要地质点之一;它是火山灰喷发的结果,火山灰喷发导致火山灰沉积在Ootun地区的古溶胶(古表面)上。东风将火山灰吹成沙丘,并吹向奥尔杜瓦伊峡谷地区。流动沙丘的年龄尚不清楚。在本研究中,我们采用放射性碳(14C)定年方法对Ootun地区的地下古溶胶层进行了定年,该地区最初沉积了tephra(即原始流沙物质)。利用加速器质谱仪测定了古土壤的碳-14年代,从而估算了流沙沙丘的年龄;利用能量分散X射线荧光光谱仪测定了流沙物质和火山床的化学成分,以达到相关目的。获得了Ootun古土壤2510±30年BP的放射性碳(14C)日期,以估计该地区沉积的Ootun地下火山灰岩的最小年龄;从那时起,它开始向西向奥尔杜瓦伊峡谷地区移动,今天在那里被定义为流沙。目前的发现为Ngorongoro Lengai地质公园的流沙增加了教育价值,并提高了我们对Gregory裂谷火山喷发历史的理解。
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来源期刊
Geologos
Geologos GEOLOGY-
CiteScore
1.70
自引率
0.00%
发文量
7
审稿时长
12 weeks
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