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      The exchangeability of shape

      research-article
      1 , 2 , , 3 , 4
      BMC Research Notes
      BioMed Central

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          Abstract

          Background

          Landmark based geometric morphometrics (GM) allows the quantitative comparison of organismal shapes. When applied to systematics, it is able to score shape changes which often are undetectable by traditional morphological studies and even by classical morphometric approaches. It has thus become a fast and low cost candidate to identify cryptic species. Due to inherent mathematical properties, shape variables derived from one set of coordinates cannot be compared with shape variables derived from another set. Raw coordinates which produce these shape variables could be used for data exchange, however they contain measurement error. The latter may represent a significant obstacle when the objective is to distinguish very similar species.

          Results

          We show here that a single user derived dataset produces much less classification error than a multiple one. The question then becomes how to circumvent the lack of exchangeability of shape variables while preserving a single user dataset. A solution to this question could lead to the creation of a relatively fast and inexpensive systematic tool adapted for the recognition of cryptic species.

          Conclusions

          To preserve both exchangeability of shape and a single user derived dataset, our suggestion is to create a free access bank of reference images from which one can produce raw coordinates and use them for comparison with external specimens. Thus, we propose an alternative geometric descriptive system that separates 2-D data gathering and analyzes.

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          Most cited references23

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          Growth-Invariant Discriminant Functions and Generalized Distances

          T. Burnaby (1966)
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            Morphometrics applied to medical entomology.

            Morphometrics underwent a revolution more than one decade ago. In the modern morphometrics, the estimate of size is now contained in a single variable reflecting variation in many directions, as many as there are landmarks under study, and shape is defined as their relative positions after correcting for size, position and orientation. With these informative data, and the corresponding software freely available to conduct complex analyses, significant biological and epidemiological features can be quantified more accurately. We discuss the evolutionary significance of the environmental impact on metric variability, mentioning the importance of concepts like genetic assimilation, genetic accommodation, and epigenetics. We provide examples of measuring the effect of selection on metric variation by comparing (unpublished) Qst values with corresponding (published) Fst. The primary needs of medical entomologists are to distinguish species, especially cryptic species, and to detect them where they are not expected. We explain how geometric morphometrics could apply to these questions, and where there are deficiencies preventing the approach from being utilized at its maximum potential. Medical entomologists in connection with control programs aim to identify isolated populations where the risk of reinfestation after treatment would be low ("biogeographical islands"). Identifying them can be obtained from estimating the number of migrants per generation. Direct assessment of movement remains the most valid approach, but it scores active movement only. Genetic methods estimating gene flow levels among interbreeding populations are commonly used, but gene flow does not necessarily mean the current flow of migrants. Methods using the morphometric variation are neither suited to evaluate gene flow, nor are they adapted to estimate the flow of migrants. They may provide, however, the information needed to create a preliminary map pointing to relevant areas where one could invest in using molecular machinery. In case of reinfesting specimens after treatment, the question relates to the likely source of reinfesting specimens: are they a residual sample not affected by the control measures, or are they individuals migrating from surrounding, untreated foci? We explain why the morphometric approach may be adapted to answer such question. Thus, we describe the differences between estimating the flow of migrants and identifying the source of reinfestation after treatment: although morphometrics is not suited to deal with the former, it may be an appropriate tool to address the latter.
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              Relationship of wing length to adult dry weight in several mosquito species (Diptera: Culicidae).

              R Nasci (1990)
              The relationship between dry weight at adult emergence and wing length cubed was compared by regression analysis for three mosquito species reared in the laboratory and five species collected from the field. The regression equations were compared by ANCOVA between sexes and sources within species, and among species. Results indicated that the proportional relationship of wing length to teneral adult dry weight is highly variable and that unique regression formulae are required for each mosquito species and sex. Also, the relationship between wing length and dry weight differed within species among specimens reared in the lab versus those collected from the field.
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                Author and article information

                Journal
                BMC Res Notes
                BMC Research Notes
                BioMed Central
                1756-0500
                2010
                22 October 2010
                : 3
                : 266
                Affiliations
                [1 ]Department of Medical Entomology, Faculty of Tropical Medicine, Mahidol University, Bangkok, Thailand
                [2 ]Institute for Research and Development, Montpellier, France
                [3 ]Institute Pierre Richet/INSP, BP. V 47, Abidjan, Ivory Cost
                [4 ]Asia-Pacific Institute of Tropical Medicine and Infectious Diseases, University of Hawaii at Manoa, Honolulu, United States
                Article
                1756-0500-3-266
                10.1186/1756-0500-3-266
                2987866
                20964872
                5a1e1219-c81a-46dd-b9c4-16c9c4c1d19f
                Copyright ©2010 Dujardin et al; licensee BioMed Central Ltd.

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : 16 March 2010
                : 22 October 2010
                Categories
                Short Report

                Medicine
                Medicine

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