Late Neogene terrestrial climate reconstruction of the central Namib Desert derived by the combination of U–Pb silcrete and terrestrial cosmogenic nuclide exposure dating

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS
B. Ritter, R. Albert, Aleksandr Rakipov, F. van der Wateren, T. Dunai, Axel Gerdes
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引用次数: 0

Abstract

Abstract. The chronology of the Cenozoic “Namib Group” of the Namib Desert is rather poorly understood and lacks direct radiometric dating. Thus, the paleoclimate and landscape evolution of the central Namib Desert remains imprecise, complicating the detailed search for global and/or local forcing factors for the aridification of the Namib. The widespread occurrence of calcretes and silcretes in the Namib Desert allows us to apply the novel application of the U–Pb laser ablation dating technique on silcretes and calcretes to date important phases of landscape stability and to retrieve critical paleoclimatic and environmental information on desertification and its paleoclimatic variability. Microscale silcrete formation (maximum of 8 mm) due to pressure solution by expanding calcrete cementation provides the opportunity to date multiple phases (multiple generations of silcrete as growing layers or shells) of silcrete formation. Groundwater silcrete and calcrete formation occurred at our study site during the Pliocene, a period of relatively stable climate and landscape conditions under semi-arid to arid conditions. Terrestrial cosmogenic nuclide (TCN) exposure ages from flat canyon rim surfaces indicate the cessation of groundwater calcrete formation due to incision during the Late Pliocene–Early Pleistocene and mark a large-scale landscape rejuvenation due to climate shifts towards more arid conditions in the Pleistocene, which can be connected to global climate patterns. This study demonstrates the feasibility of applying U–Pb laser ablation to groundwater silcrete and calcretes, discusses several important issues associated with this technique, and opens up the possibility of dating numerous sedimentary sequences containing silcretes and calcretes in arid environments. In particular, the use of silcretes (as described above) reduces potential effects of detrital components and bulk signal measurements by using massive calcretes. Our study redefines and improves the generally accepted Late Cenozoic chronostratigraphy of the Namib Desert (Miller, 2008).
结合U-Pb硅质岩和陆地宇宙成因核素暴露年代测定法重建纳米布沙漠中部新近纪晚期陆地气候
摘要。对纳米布沙漠新生代“纳米布群”的年代学了解甚少,缺乏直接的辐射定年法。因此,纳米布中部沙漠的古气候和景观演变仍然不精确,这使得对纳米布干旱化的全球和/或局部强迫因素的详细研究变得复杂。纳米比沙漠中钙砾岩和硅砾岩的广泛分布使我们能够将U-Pb激光烧蚀测年技术应用于硅砾岩和硅砾岩的新应用,以确定景观稳定性的重要阶段,并检索有关荒漠化及其古气候变率的关键古气候和环境信息。微尺度的硅质混凝土形成(最大8毫米)是由膨胀的钙砾石胶结作用的压力溶解造成的,这为确定硅质混凝土形成的多个阶段(作为生长层或壳的多代硅质混凝土)提供了机会。地下水粉砾岩和钙质砾岩的形成发生在上新世,这是一个气候和景观条件相对稳定的半干旱至干旱时期。平原峡谷边缘地表的陆生宇宙核素暴露年龄表明,晚上新世-早更新世期间由于切口导致地下水钙质形成的停止,并标志着更新世气候向更干旱条件转变导致的大规模景观恢复,这与全球气候模式有关。本研究证明了将U-Pb激光烧蚀应用于地下水硅质砾岩和钙质砾岩的可行性,讨论了与该技术相关的几个重要问题,并为干旱环境中含有硅质砾岩和钙质砾岩的大量沉积序列定年开辟了可能性。特别是,硅质硅质硅的使用(如上所述)减少了碎屑成分的潜在影响,并通过使用大量钙来测量大量信号。我们的研究重新定义和改进了普遍接受的纳米比亚沙漠晚新生代年代地层(Miller, 2008)。
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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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