Dryland dunes and other dryland environmental archives as proxies for Late Quaternary stratigraphy and environmental and climate change in southern Africa

IF 1.2 4区 地球科学 Q2 GEOLOGY South African Journal of Geology Pub Date : 2021-10-18 DOI:10.25131/sajg.124.0055
A. Stone
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引用次数: 5

Abstract

The Namib Desert and the Kalahari constitute the drylands of southern Africa, with the current relatively humid portions of the latter having experienced periodically drier conditions during the Late Quaternary. This study explores the range of dryland archives and proxies available for the past ~190 ka. These include classic dryland geomorphological proxies, such as sand dunes, as well as water-lain sediments within former lakes and ephemeral fluvial systems, lake shorelines, sand ramps, water-lain calcrete and tufa sediments at the interface of surface hydrological and hydrogeological, speleothems and groundwater hydrogeological records, and hyrax middens. Palaeoenvironmental evidence can also be contained within geoarchaeological archives in caves, overhangs and rockshelters. This integration of records is undertaken with the aim of identifying a (or a number of) terrestrial regional chronostratigraphic framework(s) for this time period within southern Africa, because this is missing from the Quaternary stratigraphy lexicon. Owing to a lack of long, near-continuous terrestrial sequences in these drylands, the correspondence between nearby terrestrial records are explored as a basis for parasequences to build this chronostratigraphy. Recognising the modern climatological diversity across the subcontinent, four broad spatial subdivisions are used to explore potential sub-regional parasequences, which capture current climatic gradients, including the hyper-arid west coast and the decrease in aridity from the southwest Kalahari toward the north and east. These are the Namib Desert, the northern Kalahari, the southern Kalahari and the eastern fringes of the southern Kalahari. Terrestrial chronostratigraphies must start from premise that climate-driven environmental shifts may have occurred independently to those in other terrestrial locations and may be diachronous compared to the marine oxygen isotope stratigraphy (MIS), which serves as a global-scale master climatostratigraphy relating to global ice volume. The fragmented nature of preserved evidence means that we are still some way from producing unambiguous parasequences. There is however, a rich record to consider, compile and compare, within which seven broad wetter intervals are identified, with breaks between these inferred to be relatively drier, and some also have proxy evidence for drying. The onset and cessation of these wetter intervals does not align with MIS: they occur with greater frequency, but not with regular periodicity. Precession-paced insolation forcing is often invoked as a key control on southern African climate, but this does not explain the pacing of all of the identified events. Overall, the pattern is complex with some corresponding wetter intervals across space and others with opposing west-east trends. The evidence for drying over the past 10 ka is pronounced in the west (Namib Desert), with ephemerally wet conditions in the south (southern Kalahari). The patterns identified here provide a framework to be scrutinised and to inspire refinements to proposed terrestrial chronostratigraphies for southern Africa. Considering changes across this large geographic area also highlights the complexity in environmental responses across space as we continue to test a range of hypotheses about the nature of climatic forcing in this region.
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旱地沙丘和其他旱地环境档案作为南部非洲晚第四纪地层以及环境和气候变化的代表
纳米布沙漠和卡拉哈里构成了南部非洲的旱地,后者目前相对潮湿的部分在第四纪晚期经历了周期性的干旱。本研究探讨了过去约190 ka的旱地档案和替代资料的范围。其中包括典型的旱地地貌替代物,如沙丘,以及前湖泊和短暂河流系统内的水下沉积物、湖泊海岸线、沙坡、地表水文和水文地质界面处的水下钙矾土和凝灰岩沉积物、洞穴和地下水水文地质记录,以及hyrax middens。古环境证据也可以包含在洞穴、悬挑和岩石避难所的地质考古档案中。对记录进行整合的目的是确定南部非洲这一时期的一个(或多个)陆地区域年代地层格架,因为这在第四纪地层学词典中是缺失的。由于这些旱地缺乏长的、近连续的陆地序列,因此对附近陆地记录之间的对应关系进行了探索,作为建立这种年代地层学的准层序的基础。认识到整个次大陆的现代气候多样性,使用了四个广泛的空间细分来探索潜在的亚区域准层序,这些准层序捕捉了当前的气候梯度,包括极度干旱的西海岸以及从卡拉哈里西南部到北部和东部的干旱度下降。这些是纳米布沙漠、北部卡拉哈里、南部卡拉哈里和南部卡拉哈里东缘。陆地年代地层学必须从这样一个前提开始,即气候驱动的环境变化可能独立于其他陆地位置的环境变化,并且与海洋氧同位素地层学(MIS)相比可能是跨时的,后者是与全球冰量相关的全球尺度主气候地层学。保存证据的碎片性意味着我们离产生明确的准层序还有一段路要走。然而,有一个丰富的记录需要考虑、汇编和比较,其中确定了七个较宽的湿润区间,这些区间之间的间歇被推断为相对干燥,一些区间也有干燥的替代证据。这些潮湿间隔的开始和停止与MIS不一致:它们发生的频率更高,但没有规律的周期性。推进速度的日照强迫通常被称为对南部非洲气候的关键控制,但这并不能解释所有已确定事件的速度。总的来说,这种模式很复杂,在整个空间中有一些相应的湿润间隔,而另一些则有相反的东西走向。过去10 ka的干旱证据在西部(纳米布沙漠)很明显,南部(卡拉哈里南部)则短暂潮湿。这里确定的模式提供了一个需要仔细审查的框架,并启发对南部非洲拟议的陆地年代地层进行改进。考虑到这一大地理区域的变化,也突显了整个空间环境反应的复杂性,因为我们继续测试关于该地区气候强迫性质的一系列假设。
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来源期刊
CiteScore
3.60
自引率
5.60%
发文量
18
审稿时长
>12 weeks
期刊介绍: The South African Journal of Geology publishes scientific papers, notes, stratigraphic descriptions and discussions in the broadly defined fields of geoscience that are related directly or indirectly to the geology of Africa. Contributions relevant to former supercontinental entities such as Gondwana and Rodinia are also welcome as are topical studies on any geoscience-related discipline. Review papers are welcome as long as they represent original, new syntheses. Special issues are also encouraged but terms for these must be negotiated with the Editors.
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