Local-scale environmental gradients in ‘snail-shell’ stable isotopes from Holocene Jordanian archaeological sites

IF 1.6 3区地球科学 Q3 GEOGRAPHY, PHYSICAL

Holocene Pub Date : 2022-12-21 DOI:10.1177/09596836221138345

H. Jenkins, J. Andrews, Y. Rowan, Alexander Wasse, T. White, G. Philip, A. Marca, J. Clarke

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Abstract

Reconstructing environments around archaeological sites is complicated by past land management practices and regional-scale climate proxies that can be contradictory and are often located at a distance from the sites themselves. Here we explore environmental information from fossil snail shells which, even when few in number on an archaeological site, may prove invaluable in constructing site-specific data. The palaeoecology of fossil snails and the stable isotopic composition of their shell carbonate can provide context-specific information on vegetation, water availability, and relative humidity during the occupation of a site. We studied terrestrial and aquatic snails from two later Neolithic archaeological sites in the Jordanian badia, Wadi al-Qattafi and Wisad Pools. At specific archaeological site-scale our study highlights the importance of aquatic snails in the reconstruction of semi-arid environments. At Wisad pools rare aquatic snails in contexts dating between ~8.0 and ~7.6 ka demonstrate episodes of wetness; moreover, their shell isotopic compositions indicate that local watercourses were well established, corroborating previous findings that during this period the immediate environs of Wisad Pools were host to C3 plant species more typical of the Mediterranean zone. Moreover, the δ18O signal in these snail shells allow tentative reconstruction of rainwater isotopic compositions and identify the effects of evaporation. Such fine-grained environmental information is much less evident from the terrestrial snail-shell data alone, showing that an ensemble of snail-shell data can be highly sensitive to environmental differentials across an archaeological site. Finally, at a regional palaeoclimate-scale our Wisad Pools snail-shell stable isotope data are consistent with a sustained, Rapid Climate Change (RCC)-driven wetness between 8.6 and 7.6 ka concurrent with cold and wet conditions in the wider Levant.

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全新世约旦考古遗址中“蜗牛壳”稳定同位素的局地尺度环境梯度

重建考古遗址周围的环境因过去的土地管理实践和区域尺度的气候代用物而变得复杂，这些代用物可能是相互矛盾的，而且往往位于距离遗址本身很远的地方。在这里，我们从化石蜗牛壳中探索环境信息，即使在考古遗址上数量很少，也可能证明在构建特定遗址数据方面是无价的。蜗牛化石的古生态学及其壳碳酸盐的稳定同位素组成可以提供特定环境下的植被、水分有效性和相对湿度信息。我们研究了来自约旦巴迪亚两个新石器时代晚期考古遗址——Wadi al-Qattafi和Wisad Pools的陆生和水生蜗牛。在特定的考古遗址尺度上，我们的研究强调了水生蜗牛在半干旱环境重建中的重要性。在Wisad池中，约8.0 ~7.6 ka的珍稀水生蜗牛表现出湿润期;此外，它们的壳同位素组成表明当地水道已经建立，证实了先前的发现，即在这一时期，Wisad池的邻近地区是C3植物物种的宿主，这些植物物种更典型的地中海地区。此外，这些蜗牛壳中的δ18O信号可以初步重建雨水同位素组成，并确定蒸发的影响。这种细粒度的环境信息仅从陆地蜗牛壳数据中就不那么明显了，这表明蜗牛壳数据的集合对考古遗址的环境差异非常敏感。最后，在区域古气候尺度上，我们的Wisad Pools蜗牛壳稳定同位素数据与8.6 - 7.6 ka的快速气候变化(RCC)驱动的持续湿润相一致，同时在更广泛的黎凡特地区出现了寒冷和潮湿的条件。

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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来源期刊

Holocene 地学-地球科学综合

CiteScore

4.70

自引率

8.30%

发文量

106

审稿时长

4 months

期刊介绍： The Holocene is a high impact, peer-reviewed journal dedicated to fundamental scientific research at the interface between the long Quaternary record and the natural and human-induced environmental processes operating at the Earth''s surface today. The Holocene emphasizes environmental change over the last ca 11 700 years.