A river flowing through a desert: late Quaternary environments in the Nile basin – current understanding and unresolved questions

Journal of Palaeosciences Pub Date : 2021-09-10 DOI:10.54991/jop.2021.22

Martin A. J. Williams

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引用次数: 2

Abstract

Late Quaternary environments in the Nile Basin reflect the influence of the African summer monsoon upon plant cover, sediment yield and flood discharge in the Ethiopian and Ugandan headwaters of the Nile. Intervals of prolonged and very high Nile flow coincide with times of stronger summer monsoon and have been dated using a combination of 14C, OSL and 10Be methods. Periods of high Nile flow into the eastern Mediterranean coincide with the formation of highly organic sedimentary layers termed sapropels. Ages obtained so far for these times of sustained middle to late Pleistocene high flow in the Blue and White Nile are broadly coeval with sapropel beds S8 (ca 217 ka), S7 (ca 195 ka), S6 (ca 172 ka), S5 (ca 124 ka), S4 (ca 102 ka) S3 (ca 81 ka), S2 (ca 55–50 ka) and S1 (10–6.5 ka). Sapropel 5 (ca 124 ka) was synchronous with extreme Blue Nile floods and the formation of the 386 m lake in the lower White Nile Valley, as well as with a prolonged wet phase in the eastern Sahara. Fluctuations in Nile flow and sapropel formation reflect the influence of the precessional cycle upon the East African monsoon. Between 75 ka and 19 ka the climate in the Nile headwaters region became progressively colder and drier. During the Last Glacial Maximum, Lake Tana in Ethiopia and Lake Victoria in Uganda became dry, flow in the White Nile was reduced to a trickle, and the Blue Nile and Atbara became highly seasonal bed–load rivers. The return of the summer monsoon at 14.5 ka ushered in extreme Blue Nile floods, widespread flooding across the Nile Basin and the formation of the 382 m lake in the lower White Nile Valley. There was a brief return to aridity during the Younger Dryas (12.8–11.5 ka), after which the climate again became wetter and widespread flooding in the Nile Valley resumed. The early Holocene floods were later followed by incision and creation of the modern relatively narrow flood plain.

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流经沙漠的河流:尼罗河盆地的晚第四纪环境——目前的认识和未解决的问题

尼罗河流域晚第四纪环境反映了非洲夏季风对尼罗河上游埃塞俄比亚和乌干达地区植被覆盖、产沙量和洪水流量的影响。尼罗河流量延长和非常高的间隔时间与夏季季风较强的时间相吻合，并使用14C, OSL和10Be方法的组合来确定时间。尼罗河高流量流入地中海东部的时期与高度有机沉积层的形成相吻合。到目前为止，蓝、白尼罗河持续中晚更新世高流时期的年龄与S8(约217 ka)、S7(约195 ka)、S6(约172 ka)、S5(约124 ka)、S4(约102 ka)、S3(约81 ka)、S2(约55-50 ka)和S1(约10-6.5 ka)大致相同。Sapropel 5(约124 ka)与蓝尼罗河极端洪水和白尼罗河下游386米湖泊的形成同步，也与撒哈拉东部长时间的湿润期同步。尼罗河流量的波动和冲力的形成反映了岁差循环对东非季风的影响。在公元前75年至公元前19年之间，尼罗河源头地区的气候逐渐变得更冷、更干燥。在末次盛冰期，埃塞俄比亚的塔纳湖和乌干达的维多利亚湖干涸，白尼罗河的流量减少为涓涓细流，青尼罗河和阿特巴拉河成为季节性很强的河床。14.5 ka夏季季风的回归带来了极端的青尼罗河洪水，整个尼罗河盆地广泛泛滥，并在白尼罗河河谷下游形成了382米的湖泊。在新仙女木时期(12.8-11.5 ka)有短暂的干旱，之后气候再次变得湿润，尼罗河谷的大范围洪水又恢复了。全新世早期的洪水之后，形成了现代相对狭窄的洪泛平原。

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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Journal of Palaeosciences

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