温度低于0°C时沙丘径迹的生物分层

IF 0.8 4区 地球科学 Q4 PALEONTOLOGY
Grzegorz Sadlok
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引用次数: 1

摘要

在沙丘上留下的轨道以其短暂的性质引发了人们的兴趣。小动物(节肢动物和脊椎动物)在风沙上留下脚印,但这些脚印不会持续很长时间。风和雪崩可能会重新调动沙粒,抹去它们的足迹,最终阻止它们进入化石记录。有些转瞬即逝的足迹很幸运地在沉积层之间的分离表面幸存下来。本文强调了低于0°C的温度在风成足迹的生物分层中可能起的作用。水与低于0°C的温度相结合,可能会在活动砂层(毫米级)地壳的最顶层形成短暂的冰胶结。时间水泥稳定表面,抑制沙粒的再动员和阻碍足迹的湮没。这样的地壳可以提供一个短暂的时间窗口,增强保存潜力,保护轨道,直到来袭的沙子将它们掩埋。相反,如果冰-水泥外壳在小型轻型履带机通过之前形成,则根本不会形成任何履带。这是因为地壳对于轻动物的小脚来说是无法穿透的。因此,低于0°C的温度对风成径的生物层序可能既有积极作用,也有消极作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biostratinomy of dune tracks in sub-0 °C temperature
Abstract Trackways left in dune sand spark intrigue with their ephemeral nature. Small animals (arthropods and vertebrates) leave their footprints in eolian sands but such tracks do not last long. Wind and avalanching may re-mobilize sand grains and obliterate their footprints, ultimately preventing them from entering fossil record. Some of these fleeting tracks are lucky enough to survive at the parting surfaces between sedimentary layers. This paper highlights the possible role that sub-0 °C temperatures play in the biostratinomy of eolian tracks. Water combined with sub-0 °C temperatures may create short-lasting ice cementation within the very top of an active sand layer—mm-scale crust. The temporal cement stabilizes the surface, inhibits the re-mobilization of sand particles and hinders the obliteration of footprints. Such crust may provide a brief time window of enhanced preservation potential, protecting tracks until incoming sand buries them. On the contrary, if the ice-cement crust forms before the passage of a small and light trackmaker, no tracks are formed at all. This is because the crust is impenetrable to the tiny feet of light animals. Therefore, sub-0 °C temperatures apparently may play both, positive and negative roles in the biostratinomy of eolian tracks.
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来源期刊
CiteScore
2.50
自引率
12.50%
发文量
0
审稿时长
>12 weeks
期刊介绍: The foremost aim of Ichnos is to promote excellence in ichnologic research. Primary emphases center upon the ethologic and ecologic significance of tracemaking organisms; organism-substrate interrelationships; and the role of biogenic processes in environmental reconstruction, sediment dynamics, sequence or event stratigraphy, biogeochemistry, and sedimentary diagenesis. Each contribution rests upon a firm taxonomic foundation, although papers dealing solely with systematics and nomenclature may have less priority than those dealing with conceptual and interpretive aspects of ichnology. Contributions from biologists and geologists are equally welcome. The format for Ichnos is designed to accommodate several types of manuscripts, including Research Articles (comprehensive articles dealing with original, fundamental research in ichnology), and Short Communications (short, succinct papers treating certain aspects of the history of ichnology, book reviews, news and notes, or invited comments dealing with current or contentious issues). The large page size and two-column format lend flexibility to the design of tables and illustrations. Thorough but timely reviews and rapid publication of manuscripts are integral parts of the process.
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