金银花果实的形态和化学特征。(伞形科)

Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology Pub Date : 2023-01-02 DOI:10.1080/11263504.2022.2160025

V. Laface, V. Sicari, C. Musarella, Giovanni Spampinato, G. Maruca, A. Giuffré

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引用次数: 1

摘要

摘要研究了各向异性子母草果实的形态特征和植物化学成分。单心蕨的形态分析有助于将各向异性蕨与其他相关的商业用途的Pimpinella物种，特别是P. anisetum和P. anisum区分开来。我们的研究表明，这些果实在表面和形状上是不同的:特别是，单果各向异性的果实是无毛的，而其他两个物种是糙伏毛的。经鉴定，5种植物精油中主要含有柠檬烯(46.78 ~ 50.74%)和茴香脑(38.50 ~ 42.77%)两种化合物，其含量总和在85.28 ~ 93.51%之间。另外两种具有代表性的化合物为Estragole和β-phellandrene。所有其他挥发物占总挥发物组成的比例不到1%。单因素方差分析显示，几乎所有挥发物都有显著差异，而在极少量检测到的化合物中发现无显著差异。分层聚类分析允许将五个条目分组在三个主要聚类中。主成分分析(PCA)表明，前两个主成分解释了总方差的71.80%。结果表明，各向异性青果的形态特征和植物化学特征可以用来区分各向异性青果，避免商业上的复杂化，更好地保护该种属。

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Morphological and phytochemical features in fruits of Pimpinella anisoides V.Brig. (Apiaceae)

Abstract The morphological characteristics, phytochemical composition of Pimpinella anisoides fruits was investigated. The morphological analysis of the monocarps contributed to distinguish P. anisoides from other related Pimpinella species used for commercial purposes, in particular P. anisetum and P. anisum. Our study showed that these fruits are different for their surface and shape: in particular, P. anisoides monocarps are glabrous, whereas the other two species are strigose. Two main compounds were identified in the essential oil of the five studied accessions: limonene (46.78-50.74%) and anethole (38.50-42.77%) whose sum ranged between 85.28 and 93.51%. estragole and β-phellandrene were other two representative compounds. All other volatiles accounted for less than 1% of the total volatile composition. One-way ANOVA analysis showed significant differences in almost all volatiles, whereas non-significant differences were found in the compounds detected in very low quantity. Hierarchical cluster analysis allowed to group the five accessions in three main clusters. Principal Component Analysis (PCA) showed that the first two principal components explained 71.80% of total variance. Results show that morphological and phytochemical features of the ripe fruits of P. anisoides can be used to distinguish this species from others, to avoid commercial sophistications and for a better conservation.

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Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology

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