植物形态学的现代理论和技术方法

IF 0.4 Q4 PLANT SCIENCES
J. Schönenberger, Marion Chartier, Y. Staedler
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引用次数: 1

摘要

形态学深深植根于有机体生物学,近年来,研究机构和资助机构对它的兴趣都在稳步下降。与此同时,形态学作为一门学科被边缘化了,现在许多人认为它只是一个经典的、基本上已经过时的研究领域。然而,事实远非如此。由于现代的理论概念和新的技术应用,植物形态学对现代植物学和进化研究有很大的贡献。在我们的报告中,我们将首先概述高分辨率x射线计算机断层扫描(HRXCT)在植物结构研究中的应用。描述给定生物形态表型的理想方法是建立一个三维(3D)模型,然后可以根据其他类型的数据进行解释,例如,代谢物含量或传粉媒介的功能群。我们已经开发了简单但有效的实验室方案,使用对比剂,如磷钨酸盐和酒石酸铋,允许流线获取高分辨率表型数据和3d表示,甚至是软植物组织,如花器官,胚珠和分生组织。为了说明这一点,我们将概述在比较植物科学中使用高分辨率断层扫描的一些正在进行的研究。在我们演讲的第二部分,我们将介绍一个关于花卉形态空间的项目。形态变异的一个显著特征是,由于发育、功能和系统发育的限制,在进化过程中并不是所有理论上可能的结构都被探索过。在可能的形式中研究已实现形式的进化的一种现代方法是构建形态空间,即描述和联系有机体表型的理论、数学空间。尽管形态空间分析及其相关方法在动物学中得到了广泛的应用,但在植物学中却很少受到重视,只有在传粉生物学中才有明显的例外。本文采用形态空间方法对菊科花的形态多样性(差异)进行了描述和量化。为此,我们建立了一个包含整个目380多个物种(275属)37个花性特征的数据集。我们使用基于距离矩阵的非参数表示和统计方法来构建和分析一个形态空间,并在其中比较了不同ericalean族的相对位置。我们根据这些类群的分类多样性、进化史和生态学来量化和解释它们之间的差异。此外,我们还分析了不育、雄性和雌性花器官之间的差异模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modern theoretical and technical approaches in plant morphology
Morphology is deeply rooted in organismal biology, which in recent years has gone through a steady decline in interest both at research institutions and funding agencies. In parallel with this development, morphology as a discipline has been marginalized and nowadays many think of it as just a classical and largely obsolete field of research.  However, this is far from the truth. Thanks to modern theoretical concepts and novel technical applications, plant morphology has much to contribute to modern botanical and evolutionary research.In our presentation, we will first outline the application of High Resolution X-Ray Computed Tomography (HRXCT) to the study of plant structure. The ideal way to describe the morphological phenotype of a given organism is to build a three dimensional (3D) model, which may then be interpreted with respect to other types of data, e.g., metabolite content or functional groups of pollinators. We have developed simple but efficient lab protocols using contrasting agents such as phosphotungstate and bismuth tartrate that allow for the streamlined acquisition of high resolution phenotypic data and 3D-representations even of soft plant tissues such as floral organs, ovules, and meristematic tissues. To illustrate this, we will outline selected ongoing studies in comparative plant science that make use of high resolution tomography.In the second part of our talk, we will present a project on the floral morphospace. A striking feature of morphological variation is that due to developmental, functional, and phylogenetic constraints, not all theoretically possible architectures have been explored during evolution. A modern approach to studying the evolution of realized forms among possible ones is to construct morphospaces, i.e. theoretical, mathematical spaces describing and relating organismal phenotypes. Although widely applied in zoology, morphospace analyses and related approaches have so far been largely disregarded in botany, with notable exceptions in the field of pollination biology. Here, we use a morphospace approach to describe and quantify the morphological diversity (disparity) of flowers in the asterid order Ericales. To do so, we have built a dataset containing 37 floral characters for more than 380 species (275 genera) representative of the entire order. We have used non-parametric representations and statistics methods based on distance matrices to build and analyze a morphospace, in which we compare the relative positions of the different ericalean families. We quantify and interpret the disparity among these groups in the light of their taxonomic diversity, their evolutionary history, and their ecology. In addition, we analyze patterns of disparity between sterile, male, and female floral organs.
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Modern Phytomorphology
Modern Phytomorphology PLANT SCIENCES-
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