Phylogenetic convergence and multiple shell shape optima for gliding scallops (Bivalvia: Pectinidae)

Serb, Jeanne M.; Sherratt, Emma; Alejandrino, Alvin; Adams, Dean C.

doi:10.1111/jeb.13137

Cited by 35 publications

(50 citation statements)

References 71 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Allometry, or the scaling relationships between physical traits as body size changes, is a pervasive pattern in the evolution of animal morphological diversity (Huxley and Teissier 1936). Related species with different body sizes usually have morphologies close to those predicted by their clade's evolutionary allometric trajectory, even when natural selection would favor alternative scaling relationships Serb et al 2017). Therefore, evolutionary allometry represents a compromise between the natural selective regimes driving diversification and the clade's inherited development underlying morphology .…”

Section: Introductionmentioning

confidence: 99%

Australian rodents reveal conserved Cranial Evolutionary Allometry across 10 million years of murid evolution

Marcy¹,

Guillerme²,

Sherratt³

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

Among vertebrates, placental mammals are particularly variable in the covariance between their cranial shapes and body size (allometry), with the notable exception of rodents. Australian murid rodents present an opportunity to assess the cause of this anomaly because they radiated on an ecologically diverse continent unique for lacking other terrestrial placentals. Here we used 3D geometric morphometrics to quantify species-level and evolutionary allometries in 38 species (317 crania) from all Australian murid genera. We ask if ecological opportunity resulted in greater allometric diversity; conversely, we test if intrinsic constraints and/or stabilizing selection conserved allometry. To increase confidence in species-level allometric slopes, we introduce a new phylogeny-based method of bootstrapping and randomly resampling across the whole sample. We found exceedingly conserved allometry across the 10 million year split between Mus and the clade containing Australian murids. Cranial shapes followed craniofacial evolutionary allometry (CREA) patterns, with larger species having relatively longer snouts and smaller braincases. CREA is consistent with both intrinsic constraints and stabilizing selection hypotheses for conserved allometry. However, large-bodied frugivores evolved faster, while carnivorous specialists showed skull modifications known to conflict with masticatory efficiency. These results suggest a strong role of stabilizing selection on the masticatory apparatus of murid rodents.

show abstract

Section: Introductionmentioning

confidence: 99%

Australian rodents reveal conserved Cranial Evolutionary Allometry across 10 million years of murid evolution

Marcy¹,

Guillerme²,

Sherratt³

et al. 2020

Preprint

Self Cite

View full text Add to dashboard Cite

show abstract

“…The iso F ratio is also given in analogy to the 6 usual F ratio and the proportion of the total variation accounted for by differences among means, 2 iso R , 7 is also given. Note that these are not the usual F and R 2 coefficients from an anova or a multiple 8 regression analysis -they are expected values assuming the isotropic model, unlike a standard 9 MANOVA where one estimates between-group variance relative to within-group using all original 10 variables, here computations are only within the g-1 dimensions of the bgPCA transformed data and 11 cannot be used for statistical testing. This means that the within-group component shown in the table 12 only refers to the residual variance left unexplained by groups in the g-1 dimensional bgPCA space 13 (i.e., the within-group variation one sees in the scatterplots such as in Fig.…”

mentioning

confidence: 99%

“…Plot showing 2 iso R values for the results of sampling experiments 7for simulated data based on the models shown inFig 5A.The slope b was varied from 0 to 1 to8 increase the level of correlation among the variables. Experiments were performed using 10009 replicates for g = 3 groups of size i n = 20. The solid line shows the expected relationship, uncorrelated data that closely matches the results from this sampling 11…”

mentioning

confidence: 99%

See 1 more Smart Citation

Seeing distinct groups where there are none: spurious patterns from between-group PCA

Cardini

O’Higgins

Rohlf

2019

Preprint

View full text Add to dashboard Cite

1 2 Using sampling experiments, we found that, when there are fewer groups than variables, between-groups PCA 3 (bgPCA) may suggest surprisingly distinct differences among groups for data in which none exist. While 4 apparently not noticed before, the reasons for this problem are easy to understand. A bgPCA captures the g-1 5 dimensions of variation among the g group means, but only a fraction of the i n g −

show abstract

“…Similarly, in cephalopods, the evolution of autogenic photophores and the development of a cornea have been correlated with transitions to the pelagic and benthic habitats, respectively, indicating the repeated evolution of similar features conferring crypsis in the open ocean, and eye protection from the sediment in the benthos (Lindgren et al ., ). In scallops, independent evolution of long‐distance swimming behavior was accompanied by a convergent “gliding” shell morphotype (Serb et al ., ).…”

Section: Discussionmentioning

confidence: 99%

Comparative and functional anatomy of the mantle margin in ark clams and their relatives (Bivalvia: Arcoidea) supports association between morphology and life habits

Audino

Marian

2018

Journal of Zoology

View full text Add to dashboard Cite

Evaluating the association between ecology and the evolution of morphological traits is a central question of macroevolutionary studies. The Arcoidea comprises several lineages of epibyssate (epifaunal) and endobyssate (semi‐infaunal or infaunal) bivalves, which makes them a suitable model for analyzing the implications of similar life habits on phenotype. Also, the families currently assigned to the clade (Arcidae, Cucullaeidae, Glycymerididae, and Noetiidae) exhibit great variation in the mantle margin, a region responsible for interacting with the surrounding environment and provided with sensory structures (e.g., photoreceptor organs). Consequently, this anatomical region includes traits relevant for testing hypotheses of morphological attributes associated with lifestyles. For this purpose, we investigated the detailed anatomy of the mantle margin of three arcoidean species (i.e., Arca imbricata, Barbatia candida, and Arcopsis adamsi) applying integrative microscopy, and complemented the study with basic morphological analysis of 27 species obtained in museum collections. Secretory cells, muscle fibers and sensory organs are described in detail, including sensory ciliated cells of the inner mantle fold, reported for the first time. Our results corroborate a very reduced to absent middle fold in arcoideans, with transfer of sensory functions to the first outer and inner folds. Moreover, our data indicates association of some pallial characters with life habits, i.e., presence of pallial pigmentation and photoreceptor organs in epibyssates, and development of an enlarged pallial curtain in endobyssates, which should stimulate further investigations on these potentially adaptive morphological features.

show abstract

Phylogenetic convergence and multiple shell shape optima for gliding scallops (Bivalvia: Pectinidae)

Cited by 35 publications

References 71 publications

Australian rodents reveal conserved Cranial Evolutionary Allometry across 10 million years of murid evolution

Australian rodents reveal conserved Cranial Evolutionary Allometry across 10 million years of murid evolution

Seeing distinct groups where there are none: spurious patterns from between-group PCA

Comparative and functional anatomy of the mantle margin in ark clams and their relatives (Bivalvia: Arcoidea) supports association between morphology and life habits

Contact Info

Product

Resources

About