澳洲植物分泌物分析之中、远红外资料

IF 1 Q3 MULTIDISCIPLINARY SCIENCES

Data in Brief Pub Date : 2025-06-24 DOI:10.1016/j.dib.2025.111830

Abigail K. Mann , Dominique Appadoo , Claire E. Lenehan , Rachel S. Popelka-Filcoff

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引用次数: 0

摘要

在考古记录中，植物渗出物在世界各地被用于文化表达和各种应用，并一直持续到今天。澳大利亚土著居民利用特定的植物渗出物的物理化学特性，并将其作为与国家的基本联系。这份手稿包含了与澳大利亚原生植物分泌物的分析相关的数据，使用了20世纪初的一个组合，有来源信息，但没有收集者的进一步信息。来自这些老化样本的数据被来自世界各地的平行样本所补充，这些样本已经得到了更广泛的表征。数据通过基于实验室的中红外光谱（mid-IR）和基于同步加速器的远红外光谱（far-IR）获得。光谱数据呈现，按属组织多个样本（黄荆属，阿拉卡属，金合欢属，Callitris，桉树）为中红外和远红外区域，允许直接比较两个光谱区域的指纹区域。所有光谱均归一化至其最高和最低值以供呈现。进一步的比较可以与未来收集和文化遗产材料中澳大利亚本土植物分泌物的工作进行比较，以确定它们的属和种。本文介绍了收集到的中、远红外光谱数据。

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Mid- and far-infrared data for the analysis of Australian plant exudates

Plant exudates have been used around the world for cultural expression and various applications throughout the archaeological record and continue today. Indigenous Australians utilize specific plant exudates for their physiochemical properties and as a fundamental connection to Country. This manuscript contains data related to the analysis of aged Australian native plant exudates, using an assemblage from turn of the 20^th century with provenance information but no further information on the collectors. Data from these aged samples are augmented by parallel examples from worldwide locations that have been more extensively characterized. Data were acquired via laboratory-based mid-infrared spectroscopy (mid-IR) and synchrotron-based far-infrared spectroscopy (far-IR). Spectral data are presented, organised by genera with multiple samples (Xanthorrhoea, Aracauria, Acacia, Callitris, Eucalyptus) for both mid- and far-IR regions to allow direct comparisons of the fingerprint areas for both spectral regions. All spectra were normalised to their highest and lowest values for presentation. Further comparisons can be made with future work on native Australian plant exudates in collections and cultural heritage materials, to identify their genera and species. This manuscript presents the collected spectral data in the mid and far infrared.

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来源期刊

Data in Brief MULTIDISCIPLINARY SCIENCES-

CiteScore

3.10

自引率

0.00%

发文量

996

审稿时长

70 days

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