A Simple Method for the Recovery of Palynomorphs from Rock Gypsum and Rock Anhydrite

IF 1.4 4区地球科学 Q3 PALEONTOLOGY

Palynology Pub Date : 2022-12-15 DOI:10.1080/01916122.2022.2158956

Curtis R. Klug

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引用次数: 1

Abstract

ABSTRACT A method for the relatively fast, inexpensive, and safe dissolution of rock gypsum and rock anhydrite for the recovery of palynomorphs is described. Rock gypsum and rock anhydrite deposits are widely distributed geographically and throughout the geologic column. They represent deposition under environmental conditions unlike those of most other rock types. Consequently, palynomorphs and other microfossils recovered from these rocks may present unique paleontological and biostratigraphic insights not provided by other strata. Despite their relatively high solubility, rock gypsum and rock anhydrite tend to be difficult to process and do not yield to typical palynological methods. Consequently, potentially important sequences of sulfate rocks may be largely neglected in palynological investigations. The method described herein utilizes gently boiling dilute (10%) hydrochloric acid (HCl) and will completely dissolve 25 grams of rock gypsum in approximately 1.5hours. Rock anhydrite can be similarly treated but takes substantially longer than gypsum to completely dissolve. Important aspects of the process include boiling HCl at or near 102°C, a beaker without a pouring spout but with a loose-fitting cover to reduce evaporation, and quenching of the hot solution in cool, filtered water to prevent reprecipitation of the dissolved calcium sulfate. The size of the rock fragments treated by this process also appears to be of importance with larger pieces of gypsum but smaller pieces of anhydrite producing the best results. Palynomorphs recovered by this method show no apparent deterioration of the exines. In addition to palynomorphs (spores, pollen, dinoflagellates, etc.), the method also resulted in the recovery of other acid insoluble fossils such as foraminiferal test linings, scolecodonts, arthropod fragments and diatoms as well as amorphous inorganic material and acid insoluble minerals. The method is also safe as long as appropriate precautions are taken.

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从岩石石膏和硬石膏中回收炔形体的一种简单方法

摘要:本文描述了一种相对快速、廉价、安全的溶解岩石石膏和岩石硬石膏的方法。岩石膏和岩硬石膏矿床在地理上和整个地质柱上分布广泛。它们代表了不同于大多数其他岩石类型的环境条件下的沉积。因此，从这些岩石中发现的孢状物和其他微化石可能提供了其他地层所没有的独特的古生物学和生物地层学见解。尽管它们的溶解度相对较高，但岩石石膏和岩石硬石膏往往难以加工，而且不能采用典型的孢粉学方法。因此，在孢粉学研究中，潜在重要的硫酸盐岩序列可能在很大程度上被忽视。本文所描述的方法使用轻度煮沸的稀(10%)盐酸(HCl)，并将在大约1.5小时内完全溶解25克岩石膏。岩石硬石膏也可以进行类似的处理，但完全溶解所需的时间要比石膏长得多。该过程的重要方面包括在102°C或接近102°C的温度下煮沸HCl，烧杯没有浇口，但有一个宽松的盖子以减少蒸发，并在冷却的过滤水中淬火热溶液，以防止溶解的硫酸钙再沉淀。用这种方法处理的岩石碎片的大小似乎也很重要，大块的石膏和小块的硬石膏产生的效果最好。用这种方法恢复的畸形没有表现出明显的外观恶化。除了芽孢虫(孢子、花粉、鞭毛虫等)外，该方法还发现了其他酸不溶性化石，如有孔虫试验衬里、scolecodonts、节肢动物碎片和硅藻，以及无定形无机物质和酸不溶性矿物质。只要采取适当的预防措施，这种方法也是安全的。

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

Palynology 地学-古生物学

CiteScore

3.40

自引率

26.70%

发文量

审稿时长

>12 weeks

期刊介绍： Palynology is an international journal, and covers all aspects of the science. We accept papers on both pre-Quaternary and Quaternary palynology and palaeobotany. Contributions on novel uses of palynology, review articles, book reviews, taxonomic studies and papers on methodology are all actively encouraged.