Calibrating a long-term meteoric 10Be delivery rate into eroding western US glacial deposits by comparing meteoric and in situ produced 10Be depth profiles

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
T. Clow, J. Willenbring, M. Schaller, J. Blum, M. Christl, P. Kubik, F. von Blanckenburg
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引用次数: 2

Abstract

Abstract. Meteoric 10Be (10Bemet) concentrations in soil profiles have great potential as a geochronometer and a tracer of Earth surface processes, particularly in fine-grained soils lacking quartz that would preclude the use of in situ produced 10Be (10Bein situ). One prerequisite for using this technique for accurately calculating rates and dates is constraining the delivery, or flux, of 10Bemet to a site. However, few studies to date have quantified long-term (i.e., millennial) delivery rates, and none have determined a delivery rate for an eroding soil. In this study, we compared existing concentrations of 10Bein situ with new measurements of 10Bemet in eroding soils sampled from the same depth profiles to calibrate a long-term 10Bemet delivery rate. We did so on the Pinedale (∼ 21–25 kyr) and Bull Lake (∼ 140 kyr) glacial moraines at Fremont Lake, Wyoming (USA), where age, grain sizes, weathering indices, and soil properties are known, as are erosion and denudation rates calculated from 10Bein situ. After ensuring sufficient beryllium retention in each profile, solving for the delivery rate of 10Bemet, and normalizing for paleomagnetic and solar intensity variations over the Holocene, we calculate 10Bemet fluxes of 1.46 (±0.20) × 106 atoms cm−2 yr−1 and 1.30 (±0.48) × 106 atoms cm−2 yr−1 to the Pinedale and Bull Lake moraines, respectively, and compare these values to two widely used 10Bemet delivery rate estimation methods that substantially differ for this site. Accurately estimating the 10Bemet flux using these methods requires a consideration of spatial scale and temporally varying parameters (i.e., paleomagnetic field intensity, solar modulation) to ensure the most realistic estimates of 10Bemet-derived erosion rates in future studies.
通过比较大气和原位产生的10Be深度剖面,校准美国西部冰川侵蚀沉积物的长期大气10Be输送率
摘要大气10Be (10Bemet)浓度在土壤剖面中具有巨大的潜力,可以作为地球时计和地表过程的示踪剂,特别是在缺乏石英的细粒土壤中,这将妨碍就地生产10Be (10Bein situ)的使用。使用这种技术精确计算速率和日期的一个先决条件是限制到一个地点的10met的交付或通量。然而,迄今为止,很少有研究量化长期(即千年)的输送率,也没有研究确定侵蚀土壤的输送率。在这项研究中,我们比较了从相同深度剖面取样的侵蚀土壤中现有的10Bein原位浓度和新的10Bemet测量值,以校准长期的10Bemet输送率。我们对美国怀俄明州弗里蒙特湖的Pinedale (~ 21-25 kyr)和BullLake (~ 140 kyr)冰川冰碛进行了研究,这些冰碛的年龄、粒度、风化指数和土壤性质都是已知的,从10Bein原位计算的侵蚀和剥蚀率也是已知的。在确保每个剖面中有足够的铍保留量,求解10Bemet的输送速率,并对全新世的古地磁和太阳强度变化进行归一化后,我们分别计算出10Bemet通量为1.46(±0.20)× 106原子cm−2 yr−1和1.30(±0.48)× 106原子cm−2 yr−1到Pinedale和Bull湖冰碛,并将这些值与两种广泛使用的10Bemet输送速率估算方法进行比较,这两种方法在该地点存在很大差异。使用这些方法准确估计10bemet通量需要考虑空间尺度和时间变化参数(即古磁场强度,太阳调制),以确保在未来的研究中最真实地估计10bemet侵蚀率。
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
Geochronology
Geochronology Earth and Planetary Sciences-Paleontology
CiteScore
6.60
自引率
0.00%
发文量
35
审稿时长
19 weeks
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