叶蜡脂提取考古应用。

Q1 Agricultural and Biological Sciences
Robert Patalano, Jana Zech, Patrick Roberts
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引用次数: 4

摘要

植物蜡质分子,主要是正烷和正烷酸,经常被用来作为理解古环境和古气候变化的指标。这些数据定期从海洋和湖泊沉积物中进行分析,甚至更频繁地在考古背景下进行分析,从而能够重建与过去人类行为记录直接相关的过去环境。这些化合物的碳和氢同位素测量可用于追踪植物类型和水分利用效率、相对古温度、降水、叶片蒸散和土壤水分以及其他生理和生态参数。植物蜡质在回答与人类环境相互作用有关的问题方面具有很大的潜力,因为它们在很大程度上是化学惰性的,很容易从陆地沉积物中恢复,包括那些可以追溯到数百万年前的沉积物。随着这项技术的应用越来越广泛,并将这些数据与其他古环境指标(如花粉和植物岩分析、土壤碳酸盐和牙釉质同位素记录)进行比较,有必要建立一致的最佳实践方案,从考古沉积物中提取正烷烃和正烷酸,为解释过去的气候、生态系统和水文变化及其与人类社会的相互作用提供可比信息。©2020作者。基本方案1:总脂提取支持方案1:总脂提取称重支持方案2:清洗PSE提取细胞备用方案1:索氏总脂提取备用方案2:超声总脂提取基本方案2:氨基丙基柱层析分离脂质基本方案3:硝酸银注入硅胶柱层析分离脂质支持方案3:10%硝酸银注入硅胶的制备基本方案4:正烷酸甲基化基本方案5:气相色谱质谱(GC-MS)基本方案6:气相色谱同位素比质谱(GC-IRMS)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Leaf Wax Lipid Extraction for Archaeological Applications.

Plant wax lipid molecules, chiefly normal (n-) alkanes and n-alkanoic acids, are frequently used as proxies for understanding paleoenvironmental and paleoclimatic change. These are regularly analyzed from marine and lake sediments and even more frequently in archaeological contexts, enabling the reconstruction of past environments in direct association with records of past human behavior. Carbon and hydrogen isotope measurements of these compounds are used to trace plant type and water-use efficiency, relative paleotemperature, precipitation, evapotranspiration of leaf and soil moisture, and other physiological and ecological parameters. Plant wax lipids have great potential for answering questions related to human-environment interactions, being for the most part chemically inert and easily recoverable in terrestrial sediments, including those dating back millions of years. The growing use of this technique, and comparison of such data with other paleoenvironmental proxies such as pollen and phytolith analysis and soil carbonate and tooth enamel isotope records, make it essential to establish consistent, best-practice protocols for extracting n-alkanes and n-alkanoic acids from archaeological sediments to provide comparable information for interpreting past climatic, ecosystem, and hydrological changes and their interaction with human societies. © 2020 The Authors. Basic Protocol 1: Total lipid extraction Support Protocol 1: Weighing the total lipid extract Support Protocol 2: Cleaning the PSE extraction cells Alternate Protocol 1: Soxhlet total lipid extraction Alternate Protocol 2: Ultrasonic total lipid extraction Basic Protocol 2: Separation of lipids by aminopropyl column chromatography Basic Protocol 3: Separation of lipids by silver-nitrate-infused silica gel column chromatography Support Protocol 3: Preparation of silica gel infused with 10% silver nitrate Basic Protocol 4: Methylation of n-alkanoic acids Basic Protocol 5: Gas chromatography mass spectrometry (GC-MS) Basic Protocol 6: Gas chromatography isotope ratio mass spectrometry (GC-IRMS).

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来源期刊
Current protocols in plant biology
Current protocols in plant biology Agricultural and Biological Sciences-Plant Science
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期刊介绍: Sound and reproducible laboratory methods are the foundation of scientific discovery. Yet nuances that are critical for an experiment''s success are not captured in the primary literature but exist only as part of a lab''s oral tradition. Current Protocols in Plant Biology provides reproducible step-by-step instructions for protocols relevant to plant research. Furthermore, Current Protocols content is thoughtfully organized by topic for optimal usage and to maximize contextual knowledge. Quarterly issues allow Current Protocols in Plant Biology to constantly evolve to keep pace with the newest discoveries and developments. Current Protocols in Plant Biology is the comprehensive source for protocols in the multidisciplinary field of plant biology, providing an extensive range of protocols from basic to cutting edge. Coverage includes: Extraction and analysis of DNA, RNA, proteins Chromosome analysis Transcriptional analysis Protein expression Metabolites Plant enzymology Epigenetics Plant genetic transformation Mutagenesis Arabidopsis, Maize, Poplar, Rice, and Soybean, and more.
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