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1.
Evol Dev ; 16(5): 306-17, 2014 Sep.
Article in English | MEDLINE | ID: mdl-25124217

ABSTRACT

Comparative studies of ontogenies of closely related species provide insights into the mechanisms responsible for morphological diversification. Using geometric morphometrics, we investigated the ontogenetic dynamics of postlarval skull shape and disparity in three closely related crested newt species. The skull shapes of juveniles just after metamorphosis (hereafter metamorphs) and adult individuals were sampled by landmark configurations that describe the shape of the dorsal and ventral side of the newt skull, and analyzed separately. The three species differ in skull size and shape in metamorphs and adults. The ontogenies of dorsal and ventral skull differ in the orientation but not lengths of the ontogenetic trajectories. The disparity of dorsal skull shape increases over ontogeny, but that of ventral skull shape does not. Thus, modifications of ontogenetic trajectories can, but need not, increase the disparity of shape. In species with biphasic life-cycles, when ontogenetic trajectories for one stage can be decoupled from those of another, increases and decreases in disparity are feasible, but our results show that they need not occur.


Subject(s)
Skull/anatomy & histology , Triturus/anatomy & histology , Triturus/embryology , Animals , Metamorphosis, Biological
2.
C R Biol ; 334(12): 896-905, 2011 Dec.
Article in English | MEDLINE | ID: mdl-22123091

ABSTRACT

Numerous alpine newt (Ichthyosaura alpestris) populations from the Balkans, representing all the previously established phylogeographic lineages, were studied for variations in various morphological characteristics (body size and shape, skull qualitative traits and number of trunk vertebrae). Here, we present a decoupling of morphological and mtDNA phylogeographic substructuring in the alpine newt on the Balkan Peninsula. In sharp contrast to other European newts (Triturus spp., Lissotriton spp.), the vast majority of morphological variation in the alpine newt is concentrated at the population level indicating an in situ morphological diversification. We found that the rate of morphological change is similar to the rate of mtDNA change. We hypothesize that the alpine newts are characterized by non-adaptive morphological evolution.


Subject(s)
Morphogenesis/physiology , Salamandridae/physiology , Animals , Biodiversity , Biological Evolution , Body Size/genetics , Body Size/physiology , DNA, Mitochondrial/genetics , DNA, Mitochondrial/physiology , Female , Male , Phylogeny , Phylogeography , Salamandridae/anatomy & histology , Salamandridae/genetics , Signal Transduction/genetics , Signal Transduction/physiology , Skull/anatomy & histology , Spine/anatomy & histology
3.
J Exp Zool B Mol Dev Evol ; 316(4): 296-305, 2011 Jun 15.
Article in English | MEDLINE | ID: mdl-21246709

ABSTRACT

This study deals with the ontogenetic and evolutionary aspects of integration patterns in the limbs of crested newt species, which, like most amphibians, have a biphasic life history with two morphologically distinct stages (larval vs. juvenile and adult) that occupy different environments (aquatic vs. terrestrial). We analyzed the structure and pattern of correlation between limb skeletal elements at three ontogenetic stages (larval, juvenile, and adult) of four closely related species that differ in their preferences of aquatic habitats (more terrestrial and more aquatic). We found dynamic changes in the pattern of morphological integration between successive ontogenetic stages, as well as changes over the course of crested newt phylogeny. Generally, equivalent ontogenetic stages of different species of crested newts show higher concordance in the correlation pattern than successive ontogenetic stages within species. Among species, two opposing correlation patterns were observed: in more terrestrial species, homologous limb elements are less correlated and within-limb elements are more correlated; in aquatic species, the reverse pattern occurs. These results indicate that the function seems to be the covariance-generating factor, which has shaped the patterns of morphological integration of crested newt limbs.


Subject(s)
Environment , Extremities/anatomy & histology , Life Cycle Stages/physiology , Triturus/anatomy & histology , Animals , Body Weights and Measures , Extremities/physiology , Phylogeny , Species Specificity , Triturus/physiology
4.
J Exp Zool B Mol Dev Evol ; 314(7): 527-38, 2010 Nov 15.
Article in English | MEDLINE | ID: mdl-23939712

ABSTRACT

In this article, we explore the possible influences of the developmental and functional relationships between skeletal elements on the pattern of morphological integration in the adult skull of the alpine newt. Like many tailed amphibians, the alpine newt has a biphasic life cycle, which implies the possibility that two distinct sets of constraints on development and function of the cranial skeleton may act at different times. We study how trait covariation, resulting from processes early in development, affects patterns of covariation at the adult stage. We test whether the observed patterns of integration are consistent with those predicted from three a priori hypothesized sources of integration: developmental timing, hormonally mediated growth/remodeling during metamorphosis, and developmental and functional relationships. The analyses of the covariation among the landmarks in the dorsal and ventral alpine newt craniums yield somewhat contrasting results. Our results do not indicate a clear correspondence between the observed variations in the skull shape and any of the three proposed hypotheses. No traceable reflection of hypothesized developmental relationships in the pattern of morphological integration/modularity in the adult skull indicate that covariation structure is continually restructured by overlaying variation introduced through developmental and environmental factors at different stages of development. This finding supports the recently elaborated palimpsest view of morphological integration. Also, our results indicate that the allometry-free shape data have an even higher level of morphological integration than the data that contain the allometric component of the shape variation.


Subject(s)
Metamorphosis, Biological , Salamandridae/anatomy & histology , Skull/anatomy & histology , Vertebrates/anatomy & histology , Animals , Life Cycle Stages , Phenotype , Salamandridae/growth & development , Skull/growth & development , Vertebrates/growth & development
5.
BMC Evol Biol ; 9: 278, 2009 Dec 02.
Article in English | MEDLINE | ID: mdl-19954520

ABSTRACT

BACKGROUND: Sexual size dimorphism (SSD) is a key evolutionary feature that has been studied in many organisms. In a wide range of species, this pattern is more complex because of polymorphism within each sex. However, it is not known whether the magnitude and direction of SSD could be affected by alternative developmental trajectories within sexes. Our aim was to test whether an intrasexual polymorphism, facultative paedomorphosis (a process in which the development of somatic and gonadal tissues differs in alternative morphs), could affect SSD variation patterns in European newts. RESULTS: We report here the first evidence that SSD varies depending on the paedomorphic or metamorphic ontogenetic pathway. In species with a consistent female-biased SSD, paedomorphosis decreased the SSD level, but did not affect its direction. In species with moderate female-biased SSD or variable SSD patterns, paedomorphosis changed the magnitude, or both the magnitude and the direction, of SSD. CONCLUSION: Our study highlights the importance of developmental processes for shaping SSD patterns in populations in which contrasting life-history pathways evolved. European newts express different SSD patterns depending on their developmental pathway (i.e., metamorphosis versus paedomorphosis), as well as their species and population. These findings emphasize the importance of studying alternative morphotypes, which are found in a wide range of animal groups, to understand the evolution of SSD.


Subject(s)
Biological Evolution , Salamandridae/genetics , Animals , Body Size , Female , Male , Salamandridae/embryology , Salamandridae/physiology , Sex Characteristics , Species Specificity
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