黑激流冰川的涌动追踪了过去 600 年的气候情况

IF 3.2 1区 地球科学 Q1 GEOGRAPHY, PHYSICAL
D.H. Mann , P.R. Wilson , B.V. Gaglioti , P. Groves , M.E. Young
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引用次数: 0

摘要

在冰川地质记录中,涌浪型冰川沉积非常普遍;然而,目前还不清楚几十年到几百年时间尺度的气候变化如何影响涌浪型冰川。在这里,我们结合地貌学、地层学、地衣测量学、放射性碳年代测定法和树木年代学,重建了自公元 1400 年以来阿拉斯加山脉东部黑激流冰川(BRG)的历史。冰川前缘的冰碛物记录了冰川的四次推进,所有这些推进都留下了典型的涌动冰川沉积物。公元 1600 年的一次冰川暴涨形成了一个湖泊,在大约公元 1703-04 年的一次溃决洪水中被冲走。在公元 1400 年,另一个更大的冰川堰塞湖也发生了溃决洪水。根据对 BRG 的冰川观测及其过去几个世纪的历史,其暴涨周期在 80 到 120 年之间。在公元 1400 年至 1900 年期间,白垩纪冰川最大规模的激增与苏斯/德弗里斯太阳周期的最小值相吻合,当时该地区的非激增冰川也在前进。鉴于 BRG 总站在两次暴涨之间的 80-120 年间基本不对气候做出反应,BRG、太阳周期最小值和非暴涨冰川之间的同步性令人惊讶。一种解释是,在小冰河时期(LIA,约公元 1300-1900 年),BRG 的涌动周期缩短,以至于它对气候的反应滞后于邻近的非涌动冰川。虽然重建的 BRG 年表没有显示出在小冰河时期涌动周期缩短的迹象,但随着时间的推移,记录的逐渐消失,很难排除这种可能性。另一种解释是,BRG 的 80 至 120 年周期是太阳周期在几千年中调整的结果。当冰川的静止期与太阳的最小值相吻合时,由于冰川库区的补充速度加快,静止期就会缩短。当冰川的静止期与太阳的最大值重合时,则会出现相反的情况。最终的结果是,布拉格冰川的涌浪周期与太阳的极小值一致。在低潮期,冰川的涌动周期缩短,而太阳周期的调整可能是这一特殊涌动型冰川的冰川地质记录为过去 600 年的区域气候提供了令人惊讶的可靠记录的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surges of the Black Rapids Glacier tracked climate over the last 600 years
Deposits of surge-type glaciers are widespread in the glacial geologic record; however, it is unclear how climate changes occurring at time scales of decades to centuries affect surge-type glaciers. Here we reconstruct the history of the Black Rapids Glacier (BRG) in the eastern Alaska Range since AD 1400 using a combination of geomorphology, stratigraphy, lichenometry, radiocarbon dating, and dendrochronology. Moraines in the glacier's foreland record four advances, all of which left deposits typical of surging glaciers. A surge in the AD 1600s dammed a lake which drained in an outburst flood ca. AD 1703-04. Another outburst flood from a larger glacier-dammed lake occurred in the AD 1400s. Based on the BRG's observed glaciology and its history over the last several centuries, its surge cycles have varied between 80 and 120 years. Between AD 1400 and 1900, the most extensive surges of the BRG coincided with minima in the Seuss / de Vries solar cycle when non-surging glaciers in the region also advanced. Synchroneity between the BRG, solar minima, and non-surging glaciers is surprising given that the terminus of the BRG was largely unresponsive to climate for 80–120 years between surges. One explanation is that the BRG's surge cycle shortened during the Little Ice Age (LIA, ca. AD 1300–1900) to the point that its climate-response lag resembled that of neighboring, non-surging glaciers. Although the reconstructed chronology of the BRG shows no indication of the surge cycle decreasing during the LIA, fading of the record with time makes it difficult to exclude this possibility. Another explanation is that the BRG's 80- to 120-year cycle is the result of tuning by the solar cycle over the course of millennia. Tuning occurred when quiescent phases that coincided with solar minima were shortened because of faster replenishment of the glacier's reservoir zone. The opposite occurred when the glacier's quiescent phases coincided with solar maxima. The net result was to align the surge cycle of the BRG with solar minima. Some combination of shortened surge cycles during the LIA and tuning by the solar cycle may be why the glacial-geologic record of this particular surge-type glacier provides a surprisingly dependable record of regional climate over the past 600 years.
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来源期刊
Quaternary Science Reviews
Quaternary Science Reviews 地学-地球科学综合
CiteScore
7.50
自引率
15.00%
发文量
388
审稿时长
3 months
期刊介绍: Quaternary Science Reviews caters for all aspects of Quaternary science, and includes, for example, geology, geomorphology, geography, archaeology, soil science, palaeobotany, palaeontology, palaeoclimatology and the full range of applicable dating methods. The dividing line between what constitutes the review paper and one which contains new original data is not easy to establish, so QSR also publishes papers with new data especially if these perform a review function. All the Quaternary sciences are changing rapidly and subject to re-evaluation as the pace of discovery quickens; thus the diverse but comprehensive role of Quaternary Science Reviews keeps readers abreast of the wider issues relating to new developments in the field.
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