不同海拔地区野生樱桃(Prunus avium(L.)L.)自然种群叶片形状和大小的变化

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Danijela Miljković, Milena Stefanović, Saša Orlović, Milena Stanković Neđić, Lazar Kesić, Srđan Stojnić
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引用次数: 25

摘要

首次在巴尔干半岛中部(波斯尼亚和黑塞哥维那)的不同海拔点,从230米到1177米,对欧洲李自然种群的叶片形状变化和发育不稳定性进行了研究。海平面以上。几何形态计量工具被用于评估叶片形状和大小的变异性,而波动的不对称叶片指数被用作衡量叶片发育不稳定性的指标。根据形状变异对称分量的正则变量分析和质心大小的层次方差分析结果,研究的种群可以部分分为三组。通过两块偏最小二乘分析估计,叶片形状(形状和大小)与气候变量之间的共同变化是显著的。气候变量(5月降水量和De Martonne干旱指数的总和)主要影响叶片的形状和大小。位于最高海拔的种群的不对称叶指数波动值最高,这表明发育不稳定。所有研究的叶片性状(叶片形状、质心大小、波动不对称叶片指数、叶片面积、叶片长度和宽度、叶柄长度)都具有较高的自然变异性和种群间差异。根据先前的研究,对于众所周知的传统形态测量方法(叶面积、叶长、叶宽和叶柄长度),种群内变异性大于种群间变异性。对于质心大小和波动的不对称叶指数(几何形态计量学中使用的指标),种群之间的变异性高于种群内部。这表明几何形态计量学可以为亚特异性变异性提供新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Wild cherry (Prunus avium (L.) L.) leaf shape and size variations in natural populations at different elevations

Wild cherry (Prunus avium (L.) L.) leaf shape and size variations in natural populations at different elevations

Leaf shape variations and developmental instability were examined for the first time in natural populations of Prunus avium (L.) L. in the central Balkan region (Bosnia and Herzegovina) at different elevational points, from 230 to 1177 m. above sea level. Geometric morphometric tools were applied to assess the variability of leaf shapes and sizes, while a fluctuating asymmetry leaf index was used as a measure of leaf developmental instability. According to the results of canonical variate analysis for the symmetric component of shape variation and hierarchical analysis of variance for centroid size, the studied populations could be partially differentiated into three groups. The co-variation between leaf form (shape and size) and climate variables was significant, estimated by two-block partial least square analysis. Climate variables (the sum of precipitation in May and the De Martonne aridity index) mostly influenced leaf shape and size. A population situated at the highest elevation had the highest value for fluctuating asymmetry leaf index, which was an indication of developmental instability. High natural variability and interpopulation differences were observed for all studied leaf traits (leaf shape, centroid size, fluctuating asymmetry leaf index, leaf area, leaf length and width, petiole length). For well-known traditional morphometric measures (leaf area, leaf length, leaf width, and petiole length) in accordance with previous studies, intrapopulation variability was greater than interpopulation variability. For centroid size and the fluctuating asymmetry leaf index (measures used in geometric morphometrics) variability was higher among populations than within them. This indicates that geometric morphometrics could give new insights into infra-specific variability.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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