Abstract
Unlike landmark methods for estimating object asymmetry, continuous symmetry measures (CSM) can be used to measure the symmetry distance (ds) of inconsistent objects, such as plant leaves. Inconsistent objects have no homologous landmarks, no consistent topology, no quantitative consistency, and sometimes no matching points. When CSM is used in conjugation with LAMINA Leaf Shape Determination software, one can quickly and efficiently process a large number of scanned leaves. LAMINA automatically generates equally-spaced points around the perimeter of each leaf and the resulting x-y coordinates are normalized to average centroid size prior to estimating ds using a fold, average, unfold algorithm. We estimated shape asymmetry of leaves of three species of flowering plants: Ligustrum sinense (Chinese Privet), Rubus cuneifolius (blackberry), and Perilla frutescens (Perilla), as well as individual leaves from a few species of oaks (Quercus) and maples (Acer). We found that 100 to 200 equally-spaced points worked well for all three of the main species. Measurement error accounted for a small proportion of the asymmetry variation. Nevertheless, measurement error was great enough to generate some negative size scaling after normalization to average centroid size.
Original language | English |
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Pages (from-to) | 255-268 |
Number of pages | 14 |
Journal | Symmetry |
Volume | 7 |
Issue number | 1 |
DOIs | |
State | Published - 2015 |
Bibliographical note
Copyright - Copyright MDPI AG 2015Last updated - 2016-05-07
Keywords
- Sciences: Comprehensive Works
- continuous symmetry measure
- fluctuating asymmetry
- LAMINA software
- plant leaves
- shape asymmetry continuous symmetry measure
- shape asymmetry