Theoretical Morphology: The Concept and its Applications

McGhee, George R.

doi:10.1017/s2475263000002130

Cited by 63 publications

(81 citation statements)

References 36 publications

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“…The concept of spatial conformation has played a fundamental role in the study of biological macromolecules in chemistry (particularly biochemistry) since the early 1950s. However, it has only been introduced in the science of morphology as theoretical morphology , which studies extant organismal forms (complex structures of interdependent and subordinate elements whose relationships and properties are largely determined by their function in the whole) as a subset of the range of theoretically possible morphologies [32]. …”

Section: Discussionmentioning

confidence: 99%

“…As computer models are crucial for scientific procedures, and the modeling process itself represents the hypothetical-deductive approach in science [30-32], we developed a simple computer-aided model capable of generating an unlimited number of 2-D images of a simulated vascular network. The model was simplified by using a minimum amount of mathematical complexity and only two variables: the number of vessels and their pattern of distribution.…”

Section: Discussionmentioning

confidence: 99%

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Quantitative evaluation and modeling of two-dimensional neovascular network complexity: the surface fractal dimension

et al. 2005

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Background: Modeling the complex development and growth of tumor angiogenesis using mathematics and biological data is a burgeoning area of cancer research. Architectural complexity is the main feature of every anatomical system, including organs, tissues, cells and sub-cellular entities. The vascular system is a complex network whose geometrical characteristics cannot be properly defined using the principles of Euclidean geometry, which is only capable of interpreting regular and smooth objects that are almost impossible to find in Nature. However, fractal geometry is a more powerful means of quantifying the spatial complexity of real objects.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Quantitative evaluation and modeling of two-dimensional neovascular network complexity: the surface fractal dimension

et al. 2005

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“…Morphospaces are often divided into two kinds, those whose axes are parameters of a shape-generating function, called generative or theoretical morphospaces, and those whose axes are measurements of organisms, called empirical morphospaces (McGhee 1999). Theoretical morphospaces generally have only a few axes and thus a small number of dimensions that is easy to visualize; the first and bestknown example is classic morphospace of coiled shells.…”

Section: Morphospacesmentioning

confidence: 99%

“…Theoretical morphospaces generally have only a few axes and thus a small number of dimensions that is easy to visualize; the first and bestknown example is classic morphospace of coiled shells. Because of this, empirical morphospaces have been described as having axes that are data-dependent or unstable, since different measurements of the same morphology will result in different ordinated axes (McGhee 1999). Because of this, empirical morphospaces have been described as having axes that are data-dependent or unstable, since different measurements of the same morphology will result in different ordinated axes (McGhee 1999).…”

Section: Morphospacesmentioning

confidence: 99%

Evolution of Lightweight Structures

2015

Biologically-Inspired Systems

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Motto: Structure and function of biological systems as inspiration for technical developments Throughout evolution, nature has constantly been called upon to act as an engineer in solving technical problems. Organisms have evolved an immense variety of shapes and structures from macro down to the nanoscale. Zoologists and botanists have collected a huge amount of information about the structure and functions of biological materials and systems. This information can be also utilized to mimic biological solutions in further technical developments. The most important feature of the evolution of biological systems is multiple origins of similar solutions in different lineages of living organisms. These examples should be the best candidates for biomimetics. This book series will deal with topics related to structure and function in biological systems and show how knowledge from biology can be used for technical developments in engineering and materials science. It is intended to accelerate interdisciplinary research on biological functional systems and to promote technical developments. Documenting of the advances in the field will be important for fellow scientists, students, public officials, and for the public in general. Each of the books in this series is expected to provide a comprehensive, authoritative synthesis of the topic.More information about this series at

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“…These parameters are theoretical (McGhee, 1991). Each describes a rate of change of a particular geometric aspect of form from one whorl to the next, so a point in this morphospace represents a shell growing at a constant rate.…”

Section: Morf'hospatial Analysismentioning

confidence: 99%

Ontogenic tracks and evolutionary vestiges in morphospace

Stone

1998

Biological Journal of the Linnean Society

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Strombid shells were used to e x e m p q how to construct ontogenic tracks and evolutionary vestiges in morphological space (morphospace). Parameters in a mathematical model of shell form were used to construct morphospaces. Ontogenic information was mapped into these morphospaces to form 'tracks.' Ontogenic tracks showed that the predominant trend of morphological evolution of strombid species consisted of an increase of vertical dimensions of whorls (apertures). Integrating information extracted from cladograms with ontogenic tracks in morphospace, 'evolutionary vestiges' were determined and used to infer and reconstruct ancestral shell forms. 0 1998 The Linnean Society of London ADDITIONAL.

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Theoretical Morphology: The Concept and its Applications

Cited by 63 publications

References 36 publications

Quantitative evaluation and modeling of two-dimensional neovascular network complexity: the surface fractal dimension

Quantitative evaluation and modeling of two-dimensional neovascular network complexity: the surface fractal dimension

Evolution of Lightweight Structures

Ontogenic tracks and evolutionary vestiges in morphospace

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