高浊度条件下石英和长石发光信号的差异漂白

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS Geochronology Pub Date : 2023-09-22 DOI:10.5194/gchron-5-377-2023
Jürgen Mey, Wolfgang Schwanghart, Anna-Maartje de Boer, Tony Reimann
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引用次数: 1

摘要

摘要利用光激发发光(OSL)测定沉积物埋藏年代是一种成熟的地质年代学工具。对于其成功使用的一个重要但通常不适用的要求是,在沉积之前,OSL信号必须充分重置。然而,对河流运输过程中的水下漂白条件的研究还远远不够;例如,浊度和沉淀物混合对发光漂白率的影响只是不太确定。在某些运输条件下,缓慢的白化率可能占主导地位,这导致了OSL可用于推导沉积物运输历史的概念。这一概念的可行性仍有待证明,实验装置仍有待测试。我们对这一科学挑战的贡献包括水下漂白实验,在实验中,我们将中新世的饱和海岸沙子悬浮在一个圆形水槽中,然后用自然光在离散的时间间隔内照射它。利用带潜水探针的宽带谱仪记录了悬浮颗粒在紫外-近红外波段的原位能量通量密度。我们的分析包括根据多矿物多信号(PMS)协议对每个样品进行预分析。使用PMS,在125°C (IR-25)下,石英为主的蓝致发光信号(BSL-125)即使在地面条件下也比k -长石为主的红外致发光信号衰减得慢。纯化石英的BSL-125表现出相反的行为,这使得PMS在我们的情况下不可靠。我们发现悬浮沉积物浓度与所有测量信号的白化率呈负相关。对于室外漂白实验,我们建议将测量的发光剂量与累积接收辐照度而不是漂白时间联系起来。与红-近红外波长相比,沉积物浓度的增加导致了更强的紫外-蓝衰减。因此,这种衰减遵循由沉积物浓度和波长相关衰减常数λ控制的指数衰减。因此,λ可以潜在地用于浑浊悬浮液中发光信号重置的数值模型。
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Differential bleaching of quartz and feldspar luminescence signals under high-turbidity conditions
Abstract. Sediment burial dating using optically stimulated luminescence (OSL) is a well-established tool in geochronology. An important but often inapplicable requirement for its successful use is that the OSL signal is sufficiently reset prior to deposition. However, subaqueous bleaching conditions during fluvial transport are vastly understudied; for example the effect of turbidity and sediment mixing on luminescence bleaching rates is only poorly established. The possibility that slow bleaching rates may dominate under certain transport conditions led to the concept that OSL could be used to derive sediment transport histories. The feasibility of this concept is still to be demonstrated, and experimental set-ups are still to be tested. Our contribution to this scientific challenge involves subaquatic bleaching experiments, in which we suspend saturated coastal sand of Miocene age in a circular flume and illuminate it for discrete time intervals with natural light. We record the in situ energy flux density received by the suspended grains in the UV-NIR frequency range by using a broadband spectrometer with a submersible probe. Our analysis includes pre-profiling of each sample following a polymineral multiple signal (PMS) protocol. Using the PMS, the quartz-dominated, blue-stimulated luminescence signal at 125 ∘C (BSL-125) decays slower than the K-feldspar-dominated, infrared-stimulated luminescence signal at 25 ∘C (IR-25) even under subaerial conditions. The BSL-125 from purified quartz shows the opposite behaviour, which renders the PMS unreliable in our case. We find a negative correlation between suspended-sediment concentration and bleaching rate for all the measured signals. For outdoor bleaching experiments we propose to relate the measured luminescence dose to the cumulative received irradiance rather than to the bleaching time. Increases in the sediment concentration lead to a stronger attenuation of the UV–blue compared to the red–NIR wavelength. This attenuation thereby follows an exponential decay that is controlled by the sediment concentration and a wavelength-dependent decay constant, λ. As such λ could potentially be used in numerical models of luminescence signal resetting in turbid suspensions.
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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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