“通过宇宙成因铍-10和碳-14测量,调和加拿大育空地区末次冰期最大阿尔卑斯冰川推进的明显缺失”的补充材料

IF 2.7 Q2 GEOCHEMISTRY & GEOPHYSICS Geochronology Pub Date : 2021-12-13 DOI:10.5194/gchron-2021-43-supplement
B. Goehring, B. Menounos, Gerald Osbron, Adam C. Hawkins, B. Ward
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引用次数: 2

摘要

摘要本文报道了加拿大育空地区南部灰色猎人地块的两组高山冰川冰碛(内外)原位生成的宇宙成因铍-10和碳-14核素年代学。末次极大冰期(LGM)冰盖范围之外的高山冰川沉积的冰碛物的年代学潜力可能比从冰盖本身的范围推断的质量平衡和气候提供更明确的档案。这两种核素对于外部冰碛的结果都是不确定的,有证据表明是lgm前沉积(铍-10)和全新世沉积(碳-14)。内部冰碛的铍-10结果表明典型的LGM沉积,但散射相对较高。相反,内部冰碛的原位碳14结果紧密聚集,表明新仙女木晚期沉积。我们探索了导致所观察到的核素之间差异的合理情景,并发现对外部冰碛最简洁的解释是lgm沉积前的沉积,但许多取样的巨石表面直到全新世才从冰碛内部挖掘出来。因此,我们的研究结果表明,在典型LGM前后采样的内部和外部冰碛物,以及LGM的冰碛物可能由于随后的晚冰期/最早全新世的推进而被覆盖而缺乏。
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Supplementary material to "Reconciling the Apparent Absence of a Last Glacial Maximum Alpine Glacial Advance, Yukon Territory, Canada, through Cosmogenic Beryllium-10 and Carbon-14 Measurements"
Abstract. We present a new in situ produced cosmogenic beryllium-10 and carbon-14 nuclide chronology from two sets (outer and inner) of alpine glacier moraines from the Grey Hunter massif of southern Yukon Territory, Canada. The chronology potential of moraines deposited by alpine glaciers outside the limits of the Last Glacial Maximum (LGM) ice sheets potentially provide a less-ambiguous archive of mass balance, and hence climate than can be inferred from the extents of ice sheets themselves. Results for both nuclides are inconclusive for the outer moraines, with evidence for pre-LGM deposition (beryllium-10) and Holocene deposition (carbon-14). Beryllium-10 results from the inner moraine are suggestive of canonical LGM deposition, but with relatively high scatter. Conversely, in situ carbon-14 results from the inner moraines are tightly clustered and suggestive of terminal Younger Dryas deposition. We explore plausible scenarios leading to the observed differences between nuclides and find that the most parsimonious explanation for the outer moraines is that of pre-LGM deposition, but many of the sampled boulder surfaces were not exhumed from within the moraine until the Holocene. Our results thus imply that the inner and outer moraines sampled pre- and post-date the canonical LGM and that moraines dating to the LGM are lacking likely due to overriding by the subsequent Late Glacial/earliest Holocene advance.
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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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