Tissue preservation can affect geometric morphometric analyses: a case study using fish body shape

Abstract In geometric morphometrics, the extent of variation attributable to non-biological causes (i.e. measurement error) is sometimes overlooked. The effects of this variation on downstream statistical analyses are also largely unknown. In particular, it is unclear whether specimen preservation induces substantial variation in shape and whether such variation affects downstream statistical inference. Using a combination of empirical fish body shape data and realistic simulations, we show that preservation introduces substantial artefactual variation and significant non-random error (i.e. bias). Most changes in shape occur when fresh fish are frozen and thawed, whereas a smaller change in shape is observed when frozen and thawed fish are fixed in formalin and transferred to ethanol. Surprisingly, we also show that, in our case, preservation produces only minor effects on three downstream analyses of shape variation: classification using canonical variate analysis, permutation tests of differences in means and computations of differences in mean shape between groups. Even mixing of differently preserved specimens has a relatively small effect on downstream analyses. However, we suggest that mixing fish with different preservation should still be avoided and discuss the conditions in which this practice might be justified.

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Objectively measuring subjectively described traits: geographic variation in body shape and caudal coloration pattern within Vieja melanura (Teleostei: Cichlidae)

Revista de Biología Tropical ◽

10.15517/rbt.v65i2.25500 ◽

2017 ◽

Vol 65 (2) ◽

Cited By ~ 2

Author(s):

Caleb D. McMahan ◽

Justin Kutz ◽

Christopher Murray ◽

Prosanta Chakrabarty ◽

Aaron Geheber ◽

...

Keyword(s):

Geographic Variation ◽

Body Shape ◽

Population Level ◽

Phylogeographic Structure ◽

Shape Variation ◽

Southern Mexico ◽

Geometric Morphometric ◽

Morphometric Analyses ◽

Mitochondrial Cytochrome B ◽

Riverine Habitats

Vieja melanura is a Neotropical cichlid occurring in the Petén-lake district systems of Guatemala, as well as the Río Grijalva-Usumacinta basin, and other systems in Southern México, Belize, and Guatemala. A caudal stripe, extending forward from the caudal peduncle, is characteristic of this species. This stripe is sloped downward in nearly all individuals of V. melanura, but the degree of the slope is highly variable throughout its range. The slope and shape of the stripe has previously been used in diagnosing and differentiating between species of Vieja. The purpose of this study was to use objective methods to investigate morphological variation in the caudal stripe and body shape throughout the range of V. melanura. We studied geometric morphometric analyses of body shape and empirical measurements of the slope of the caudal stripe in 215 specimens of V. melanura. We also used the mitochondrial cytochrome b marker to study population level patterns within V. melanura. Results from our analyses showed significant geographic variation in body shape and patterns of coloration with little mitochondrial phylogeographic structure. These patterns likely correspond to differences in riverine habitats throughout the species’ distribution. In conclusion, these results can be used to inform other studies of color and shape variation as it applies to taxonomy and systematics.

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Taxonomic relationships of Nearctic small-footed bats of the Myotis leibii group (Chiroptera: Vespertilionidae)

Canadian Journal of Zoology ◽

10.1139/z84-369 ◽

1984 ◽

Vol 62 (12) ◽

pp. 2519-2526 ◽

Cited By ~ 9

Author(s):

C. G. van Zyll de Jong

Keyword(s):

Canonical Variate Analysis ◽

Canonical Variate ◽

Separate Species ◽

Taxonomic Relationships ◽

Morphometric Analyses ◽

Cranial Measurements ◽

Variate Analysis ◽

Myotis Leibii

Crania and bacula of five taxa of small-footed bats of the leibii group, comprising two currently recognised species, Myotis californicus and M. leibii, were studied to elucidate their interrelationships. Canonical variate analysis of 14 cranial measurements shows the existence of three distinct nonoverlapping clusters corresponding to (i) M. californicus, (ii) M. I. ciliolabrum and M. I. melanorhinus, and (iii) M. I. leibii. The results of the morphometric analyses do not support the claim that M. I. leibii and M. I. melanorhinus intergrade in Oklahoma. The taxonomic interpretation of the results is that the western forms of M. leibii represent a separate species M. ciliolabrum (Mcrriam). The bacula of the taxa studied lack distinctive characters that would allow one to discriminate between the species of the leibii group.

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Wing morphometry as a tool for correct identification of primary and secondary New World screwworm fly

Bulletin of Entomological Research ◽

10.1017/s0007485309006762 ◽

2009 ◽

Vol 100 (1) ◽

pp. 19-26 ◽

Cited By ~ 14

Author(s):

M.L. Lyra ◽

L.M. Hatadani ◽

A.M.L. de Azeredo-Espin ◽

L.B. Klaczko

Keyword(s):

Population Variation ◽

Canonical Variate ◽

Correct Identification ◽

Morphological Marker ◽

Geometric Morphometric ◽

Control Programs ◽

Cochliomyia Macellaria ◽

Males And Females ◽

Cattle Breeders ◽

Shape Data

AbstractCochliomyia hominivoraxandCochliomyia macellariaare endemic Neotropical Calliphoridae species. The former causes severe myiasis in hosts while the latter is Sarcosaprophagous, but commonly found as a second invader in wounds. Due to the morphological similarity between them and the potential losses thatC. hominivoraxrepresents for cattle breeders, the rapid and correct identification of these two species is very important. In addition to a correct identification of these species, a good knowledge ofC. hominivoraxbiology can be helpful for designing control programs. We applied geometric morphometric methods to assess wing differences betweenC. hominivoraxandC. macellariaand conduct a preliminary analysis of wing morphological variation inC. hominivoraxpopulations. Canonical variate analysis, using wing shape data, correctly classified 100% of the individuals analyzed according to sex and species. This result demonstrates that wing morphometry is a simple and reliable method for identifyingC. hominivoraxandC. macellariasamples and can be used to monitorC. hominivorax. Both species show sexual dimorphism, but inC. hominivoraxit is magnified. We suggest that this may reflect different histories of selection pressures operating on males and females. Significant differences in wing size and shape were obtained amongC. hominivoraxpopulations, with little correlation with latitude. This result suggests that wing variation is also a good morphological marker for studying population variation inC. hominivorax.

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On the morphospace of eurypterine sea scorpions

Earth and Environmental Science Transactions of the Royal Society of Edinburgh ◽

10.1017/s175569102100030x ◽

2021 ◽

pp. 1-6

Author(s):

Russell D. C. BICKNELL ◽

Lisa AMATI

Keyword(s):

New Taxa ◽

Compound Eye ◽

Developmental Changes ◽

Apex Predators ◽

Geometric Morphometric ◽

Eye Morphology ◽

Morphometric Analyses ◽

Ontogenetic Trajectories ◽

Landmark Analyses ◽

Shape Data

ABSTRACT Eurypterids (sea scorpions) are a group of extinct, marine euchelicerates that have an extensive Palaeozoic record. Despite lacking a biomineralised exoskeleton, eurypterids are abundantly preserved within select deposits. These collections make statistical analyses comparing the morphology of different genera possible. However, eurypterid shape has not yet been documented with modern geometric morphometric tools. Here, we summarise the previous statistical assessments of eurypterid morphology and expand this research by presenting landmark and semi-landmark analyses of 115 eurypterid specimens within the suborder Eurypterina. We illustrate that lateral compound eye morphology and position drives specimen placement in morphospace and separates proposed apex predators from more generalist forms. Additionally, evidence for size clusters in Eurypterus that may reflect ontogeny is uncovered. We highlight the use of geometric morphometric analyses in supporting the naming of new taxa and demonstrate that these shape data represent a novel means of understanding inter-generic ontogenetic trajectories and uncovering developmental changes within the diverse euarthropod group.

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The Cheilosia canicularis group (Diptera: Syrphidae): species delimitation and evolutionary relationships based on wing geometric morphometrics

Zootaxa ◽

10.11646/zootaxa.1825.1.4 ◽

2008 ◽

Vol 1825 (1) ◽

pp. 40 ◽

Cited By ~ 12

Author(s):

JASMINA LUDOŠKI ◽

LJUBINKA FRANCUSKI ◽

ANTE VUJIĆ ◽

VESNA MILANKOV

Keyword(s):

Sequence Data ◽

Balkan Peninsula ◽

Wing Shape ◽

Canonical Variate ◽

Wing Size ◽

Shape Variation ◽

Geometric Morphometric ◽

Mahalanobis Distances ◽

Size And Shape ◽

Upgma Cluster Analysis

A landmark-based geometric morphometric approach was used to assess differences in the size and shape of wing among/within three species of the Cheilosia canicularis group (Diptera: Syrphidae): C. canicularis, C. himantopus and C. orthotricha. Wing size and shape variation was observed from 25, 176 and 41 specimens of C. canicularis, C. himantopus and C. orthotricha, respectively, collected from six localities on the Balkan Peninsula. Significant differences in wing size were obtained among the analysed species and canonical variate analysis showed that wing shape was sufficiently different to allow the correct classification of 73% individuals of C. canicularis, 80% of C. orthotricha and 94% of C. himantopus, and clear delimitation of the species pairs C. canicularis/C. orthotricha and C. himantopus/C. orthotricha. In all analysed species, the consistent sex dimorphism in wing shape was observed indicating that female specimens had shorter and broader wings than males. The UPGMA cluster analysis based on squared Mahalanobis distances revealed close accordance with previously published phylogenetic relationships of these species indicated by allozyme and DNA sequence data analysis. Our results suggested that wing parameters contain useful information in quantification phenotypic variation and identification of species in this challenging group for taxonomy and systematics.

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Ecophenotypic variation in <i>Mutilus pumilus</i> (Ostracoda) from Australia, studied by canonical variate analysis and tensor biometrics

Journal of Micropalaeontology ◽

10.1144/jm.7.1.11 ◽

1988 ◽

Vol 7 (1) ◽

pp. 11-20 ◽

Cited By ~ 15

Author(s):

R. A. Reyment ◽

F. L. Bookstein ◽

K. G. Mckenzie ◽

S. Majoran

Keyword(s):

Statistical Analysis ◽

Canonical Variate Analysis ◽

Canonical Variate ◽

Seasonal Temperature ◽

Geographical Differences ◽

Geometric Morphometric ◽

Standard Methods ◽

Variate Analysis ◽

Morphometric Methods ◽

Complex Patterns

Abstract. Ecophenotypic variation in the ornament of living Mutilus pumilus from Australia may be related to seasonal temperature differences along the southern coasts. Standard methods of statistical analysis identify geographical differences in the morphology of the data, but are inadequate for analysing the complex patterns of shape variability in the species. Geometric morphometric methods localised the more important changes in shape in both the outline of the shell and in the configuration of the ornament.

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Leaf geometric morphometric analyses of Callicarpa and Geunsia (Lamiaceae) in the Malesian region

Biodiversitas Journal of Biological Diversity ◽

10.13057/biodiv/d221031 ◽

2021 ◽

Vol 22 (10) ◽

Author(s):

Jennifer Danila ◽

GRECEBIO JONATHAN D. ALEJANDRO

Keyword(s):

Geometric Morphometrics ◽

Leaf Shape ◽

Canonical Variate ◽

Leaf Margin ◽

Geometric Morphometric ◽

Morphological Studies ◽

Morphometric Analyses ◽

Significant Difference ◽

Distinguishing Features ◽

Landmark Position

Abstract. Danila JS, Alejandro GJD. 2021. Leaf geometric morphometric analyses of Callicarpa and Geunsia (Lamiaceae) in the Malesian region. Biodiversitas 22: 4379-4390. Leaves are one of the most substantial organs of plants for it serves as a basis of species identification. Leaf morphology provides distinguishing features that help in the discrimination of plant species as well as investigation of leaf features among populations. This study aimed to investigate leaf shape variations between the two genera Geunsia Blume group and its closely related taxon, Callicarpa L. (Lamiaceae) using a landmark-based geometric morphometric method. The differences in the leaf shape among former members of Geunsia, namely C. apoensis, C. basilanensis, C. flavida, C. paloensis, C. pentandra, C. ramiflora, and C. surigaensis are also evaluated. Two primary landmarks and 14 semilandmarks were assigned in all samples to represent changes around the leaf margin. The Procrustes fit was generated using MorphoJ software which displays the mean and landmark position for individual configurations. Canonical Variate Analysis (CVA) and Mahalanobis Distance (MD) were able to discriminate all samples of Geunsia species using a scatter plot. Furthermore, Procrustes ANOVA showed a significant difference (P = 0.0082) among the seven species of the Geunsia group. Based on the results obtained, geometric morphometrics of leaf shape is effective in interspecific discrimination within members of Geunsia. However, the result of Discriminant Analysis (DA) showed that Geunsia and Callicarpa groups made leaf shape differences inefficient in discriminating the two genera. Therefore, further morphological studies on landmark-based geometric morphometrics of leaf shape involving a larger number of samples especially in the study of intergeneric classification are suggested.

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Populations of Odontesthes (Teleostei: Atheriniformes) in the Andean region of Southern South America: body shape and hybrid individuals

Neotropical Ichthyology ◽

10.1590/1982-0224-20130094 ◽

2015 ◽

Vol 13 (1) ◽

pp. 137-150 ◽

Cited By ~ 5

Author(s):

Cecilia Conte-Grand ◽

Julie Sommer ◽

Guillermo Ortí ◽

Víctor Cussac

Keyword(s):

Morphometric Analysis ◽

Body Shape ◽

Distribution Area ◽

Geometric Morphometric ◽

Original Distribution ◽

Morphometric Analyses ◽

Diagnostic Characteristics ◽

Lakes And Reservoirs ◽

Odontesthes Hatcheri ◽

High Degree

The original distribution area of the Patagonian 'pejerrey' Odontesthes hatcheri has been subjected to the introduction of a related species; the Bonaerensean 'pejerrey' Odontesthes bonariensis. This species currently coexists with O. hatcheri in lakes and reservoirs, and can interbreed and produce fertile hybrid offspring. The purposes of this study were; a) the extensive sampling of Patagonian and Andean-Cuyan populations of pejerrey, b) the species identification according to taxonomic key, c) validation of taxonomic results on the basis of mitochondrial DNA composition, and d) applying morphometric analysis to explore the effects of hybridization and environmental conditions on body shape. Cytochrome b sequence analysis showed a high degree of genetic divergence between species and low intraspecific variation in O. hatcheri. Geometric Morphometric Analyses detected shape differences in agreement with diagnostic characteristics of each species. Putative hybrids exhibiting intermediate diagnostic characteristics were identified by Geometric Morphometric Analysis. Significant regressions between body shape and total phosphorus and altitude were found, suggesting a dependence on trophic web structure. This multi-level approach suggests the introgression of O. bonariensis into several O. hatcheri populations throughout Patagonia. Managers should take this into account when considering further exotic introductions into regions where non-native fishes have not yet become established.

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A geometric morphometric analysis of Arachnoides placenta (Echinoidea: Clypeasteroida): An examination of ontogenetic development and morphological variation

Zoosymposia ◽

10.11646/zoosymposia.15.1.18 ◽

2019 ◽

Vol 15 (1) ◽

pp. 159-171

Author(s):

ROBERT E. SWISHER ◽

JIH-PAI LIN

Keyword(s):

Developmental Change ◽

Shape Change ◽

Adult Life ◽

Morphologic Change ◽

Shape Variation ◽

Minor Variation ◽

Geometric Morphometric ◽

Morphometric Analyses ◽

Geometric Morphometric Analysis ◽

Sand Dollars

Irregular echinoids, particularly clypeasteroids or “sand dollars”, have obtained highly adaptive morphologies suited to their life habitats. Specimens (n = 26) of a clypeasteroid echinoid Arachnoides placenta were examined to understand how these adaptive morphologies were ontogenetically and developmentally obtained. Ontogenetically, early post-larval juvenile specimens have a pentagonal morphologic outline (known as ambitus) that shifts to a circular or a sub-circular morphology observed in the largest adult specimens. Circular morphology appears optimized for the adult life habitat or niche. Both landmark and semilandmark geometric morphometric methodologies were applied to quantify shape change, ontogenetic variation, and developmental morphology in A. placenta. Ambitus change is concentrated along the interambulacral regions with broader curvature variations occurring across both ambulacral and interambulacral regions. Circular adult morphology was a result of non-isometric shape change concentrated anteriorly with minor variation around posterior margin/periproctal furrow. Interior morphologic change of the petaloids and periproct was also quantified, mainly impacting posterior outline morphology. Minimal deformation of the basicoronal plates was detected, indicating stability during ontogeny. Results indicated that complex, non-isometric allometric shape change, both along the ambitus and interiorly, is required to morph from a pentagonal outline in post-larval juveniles to a circular or sub-circular ambitus morphology in adults. This analysis demonstrates the advantages of both landmark and semilandmark geometric morphometric analyses for quantifying developmental change and shape variation in Clypeasteroida.

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Assessment of Shape Variation Patterns in Triatoma infestans (Klug 1834) (Hemiptera: Reduviidae: Triatominae): A First Report in Populations from Bolivia

Insects ◽

10.3390/insects11050274 ◽

2020 ◽

Vol 11 (5) ◽

pp. 274

Author(s):

Carolina Vilaseca ◽

Marco A. Méndez ◽

Carlos F. Pinto ◽

Hugo A. Benítez

Keyword(s):

Permutation Test ◽

Principal Component ◽

Multivariate Regression Analysis ◽

Climatic Conditions ◽

Triatoma Infestans ◽

Canonical Variate ◽

Shape Variation ◽

Morphological Variations ◽

Variation Patterns ◽

Variate Analysis

The morphological variations of four populations of geographically isolated Triatoma infestans located in the area of inter-Andean valleys and Chaco of Chuquisaca, Bolivia, were evaluated. Fifty-three females and sixty-one males were collected in the peri-domicile and analyzed with geometric morphometrics tools to study the patterns of the head and wing shape variation. The principal component analysis and canonical variate analysis revealed morphological variations between the populations studied, which were then confirmed by the permutation test of the differences between populations using Mahalanobis and Procustes distances. The multivariate regression analysis shows that the centroid size influences the shape of the heads and wings. T. infestans of the inter-Andean valleys are longer in the head and wings compared to the population of the Chaco. We propose that the geometric shape variation may be explained by geographical changes in climatic conditions, peri-domiciliar habitats, food source quality, and the use of insecticides.

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