3D Chemometric Model Simulating the Acitheca Polymorpha Frond: Implications for Reconstructing Carboniferous Ferns (Marattiales, Canada)

J. D'Angelo, E. Zodrow, J. Pšenička
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引用次数: 1

Abstract

Abstract Reported are results of an initial approximate imitation of a Carboniferous fern frond, i.e., marattialean Acitheca polymorpha (Schimper), Middle Pennsylvanian Sydney Coalfield, Canada. The simulation experiment is based on the analysis of 14 infrared spectra obtained by means of Fourier Transform Infrared spectroscopy from four detached fragments of sterile polymorphic penultimate-pinna compressions. The calculated relative, semi-quantitative, chemical data from the infrared spectra are the input for principal component analysis deriving a 3D (three-dimensional) chemometric model. To interpret it, the four specimens are placed in hypothetical-frond positions simulating a tripinnate frond, based on diminishing penultimate-rachial widths from 1-mm (distal) to 10-mm (proximal). Hypothetical conclusions include position-dependent chemistries, specifically that of opposing trends of aromaticity vs. aliphaticity in pinnules-rachises. This, in turn, would suggest potential for (i) fern-frond reconstruction, and (ii) for determination of a most likely frond position of fragmentary specimens by “chemical classification”; the predictive aspect. However, further experimental refinement is necessary particularly based on larger frond segments to confirm or disconfirm the overall hypothetical results.
模拟Acitheca Polymorpha叶片的三维化学计量学模型:对石炭纪蕨类植物重建的启示
摘要本文报道了一种石炭系蕨类植物叶片的初步近似模拟结果,即,maratialean Acitheca polymorpha (Schimper), mid pennsylvania Sydney Coalfield, Canada。利用傅里叶变换红外光谱对4个分离的不育多态次耳廓压缩片段进行了14个红外光谱分析,并进行了仿真实验。从红外光谱中计算出的相对、半定量的化学数据是主成分分析的输入,推导出三维化学计量模型。为了解释这一点,根据倒数第二臂宽度从1毫米(远端)减少到10毫米(近端),将四个标本放置在模拟三棱叶的假设前肢位置。假设的结论包括位置依赖的化学反应,特别是芳香性和脂肪性的相反趋势。反过来,这将表明:(1)蕨类植物叶片重建的潜力,以及(2)通过“化学分类”确定碎片标本最可能的叶片位置的潜力;预测方面。然而,进一步的实验改进是必要的,特别是基于更大的前段,以证实或否定整体假设结果。
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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