2018
DOI: 10.1111/nph.15045
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Quantification of complex modular architecture in plants

Abstract: Morphometrics, the assignment of quantities to biological shapes, is a powerful tool to address taxonomic, evolutionary, functional and developmental questions. We propose a novel method for shape quantification of complex modular architecture in thalloid plants, whose extremely reduced morphologies, combined with the lack of a formal framework for thallus description, have long rendered taxonomic and evolutionary studies extremely challenging. Using graph theory, thalli are described as hierarchical series of… Show more

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Cited by 20 publications
(9 citation statements)
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“…These measurements are unitless and are less sensitive to diametric measurement noise. The Strahler order corresponds to branching complexity ( 47 ). Vessel order describes the conventional order of division of each branch of a vessel.…”
Section: Discussionmentioning
confidence: 99%
“…These measurements are unitless and are less sensitive to diametric measurement noise. The Strahler order corresponds to branching complexity ( 47 ). Vessel order describes the conventional order of division of each branch of a vessel.…”
Section: Discussionmentioning
confidence: 99%
“…reference specimens generally cited in the original descriptions of species, with which other specimens have to be compared to be determined. Currently, mass digitization of herbarium specimens (Beaman and Cellinese 2012; Smith and Blagoderov 2012; Seregin 2016) triggers systematics studies and has a strong impact on the development of innovative methods of trait data extraction from image analysis, including machine learning algorithms (Younis et al 2018;Schneider et al 2018;Corney et al 2012;Unger, Merhof, and Renner 2016;Reeb et al 2018). Herbarium specimens can also be a convenient source of biological material (e.g.…”
Section: Systematics and Patterns Of Biodiversitymentioning
confidence: 99%
“…Alternative descriptors of 3D shape and complexity, such as fractal dimension and alpha shapes, have emerged as potential approaches for quantifying morphology in complex-shaped organisms and structures (Martin-Garin et al, 2007;Reichert et al, 2016;Gardiner et al, 2018;Klinkenbuß et al, 2020;Orbach et al, 2021). Yet, previous frameworks to extract meaningful characters in the absence of identifiable landmarks and characterize phena in complex modular organisms have either gauged only a few variables from 3D-morphological data (e.g., Gutierrez-Heredia et al, 2016;Reichert et al, 2017) or been restricted to twodimensional analyses (e.g., Reeb et al, 2018). However, in most cases, geometrical complex shapes such as corals can be only represented adequately in three dimensions (Kaandorp and Kübler, 2001;Courtney et al, 2007).…”
Section: Introductionmentioning
confidence: 99%