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51.
The inception, and development of the cephalic skeleton of Barbus barbus from hatching to 24 days passes through periods of fast and slow growth; these rates are not the same in different parts of the skull. Trabeculae, parachordal plates, Meckelian cartilages and hyposymplectics are present at hatching. Then the cartilaginous floor of the neurocranium develops, the pars quadrata, the hyoid bars and branchial arches elements appear shortly before the first movable dermal bones, the dentaries, maxillae and opercles. The first bone of the braincase to appear is the parasphenoid; other bones develop subsequently and at the same time: the angular, quadrate, interopercle and fifth ceratobranchial. Later the splanchnocranium continues to develop at a relatively fast rate while the neurocranium shows little growth. The braincase does not begin to close before the 24th day, nor do the first bones of the skull roof appear, while the bucco-pharyngeal apparatus is complete, having the adult shape. The early constitution of the latter structures seems to be linked with the mechanical demands of biological functions such as breathing and feeding. 相似文献
52.
A. J. M. HEWISON 《Functional ecology》1997,11(4):508-517
1. The fecundity of adult female Roe Deer varies by a factor of 2·35 among populations across Britain. Although much of this variation may be related to environmental differences, there could also be a genetic influence on this component of fitness. In this paper, the relationship between morphological variation of the skull and female fecundity in Roe Deer from 13 populations across the deer's entire range in Britain is investigated.
2. First, principal components analysis of cranial data was used to infer genetic relationships among populations. Three distinct morphological types were identified, all significantly differentiated from the others in terms of both size and shape. The results are compared with earlier analyses of biochemical variation among the same sites; a possible native morph is identified.
3. Subsequently, canonical ordination techniques (redundancy analysis) were used to control for the effects of 'environmental' variation (female body mass, density, climate) and, with the residual variation, the correlation between skull morphology and female fecundity was investigated. This correlation is significant for both the extracted axes ( R >0·7), indicating that there are heritable differences between populations affecting female fecundity.
4. The analysis suggests that Roe Deer native to Britain are of a genetically less fecund type relative to populations established by introductions from the continent. 相似文献
2. First, principal components analysis of cranial data was used to infer genetic relationships among populations. Three distinct morphological types were identified, all significantly differentiated from the others in terms of both size and shape. The results are compared with earlier analyses of biochemical variation among the same sites; a possible native morph is identified.
3. Subsequently, canonical ordination techniques (redundancy analysis) were used to control for the effects of 'environmental' variation (female body mass, density, climate) and, with the residual variation, the correlation between skull morphology and female fecundity was investigated. This correlation is significant for both the extracted axes ( R >0·7), indicating that there are heritable differences between populations affecting female fecundity.
4. The analysis suggests that Roe Deer native to Britain are of a genetically less fecund type relative to populations established by introductions from the continent. 相似文献
53.
Abstract: This paper describes a new genus and species of dyrosaurid, Chenanisuchus lateroculi gen. et sp. nov. (Crocodyliformes, Mesoeucrocodylia) from the Thanetien (Late Palaeocene) of the Oulad Abdoun Basin, Morocco. This new taxon has a particularly short snout, as well as widely separated and laterally facing orbits. In the holotype, the mandible exhibits a retroarticular process that is strongly depressed posterior to the glenoid fossa, bringing the ventral margin of the medial wing of the articular to the same level as the ventral margin of the retroarticular process. This feature is shared with Congosaurus bequaerti , Dyrosaurus and isolated dyrosaurid material from Mali and Niger, but is absent in the putative closely related crocodyliforms, such as pholidosaurids and Terminonaris , and could be a dyrosaurid character. 相似文献
54.
Phylogenetic and size constrains on cranial ontogenetic allometry of spiny rats (Echimyidae,Rodentia) 下载免费PDF全文
Analysis of ontogenetic development is crucial for understanding the emergence of phenotypic discrepancies between animal taxa. The study of allometric trajectories within a phylogenetic context is a feasible approach to assess the morphological change across different evolutionary lineages. Here, we report the disparity of multivariate ontogenetic allometry in the Echimyidae, a taxonomically diverse rodent family, as well as the effects of size on the evolution of skull ontogeny. The ontogenetic trajectories of 15 echimyid operational taxonomic unities (12 genera plus one genus with three species) belonging to all subfamilies and major clades, when plotted in allometric space, revealed strong and significant phylogenetic signals. Allometric trajectories were found to be constrained by phylogenetic ancestry, with changes approximately adjusting to a Brownian motion model of evolution. Moreover, the occupation of allometric space by echimyid taxa was significantly correlated with adult size rather than with shape, suggesting that the variation in adult size might result in critically intrinsic and structural constraints on allometric coefficients. These findings disagreed with the hypothesis that allometric disparities might be mainly adaptive with undetectable phylogenetic signals. 相似文献
55.
Photogrammetry: a useful tool for three‐dimensional morphometric analysis of small mammals 下载免费PDF全文
Francesc Muñoz‐Muñoz Mirsha Quinto‐Sánchez Rolando González‐José 《Journal of Zoological Systematics and Evolutionary Research》2016,54(4):318-325
Recently, the improvement of methods for shape analysis has revolutionized the field of morphometrics. While three‐dimensional (3D) imaging technology is increasingly available, many studies of 3D structures still use two‐dimensional (2D) data, even when this may result in the loss of important information. This is particularly conspicuous in the study of small mammals, as devices precise enough for 3D digitization of small objects are the most expensive. Thus, the development of low‐cost methods aimed to recover 3D shape from small mammals would be of wide interest. Photogrammetry allows for obtaining 3D data with a lower cost than other 3D techniques, but it has not been previously applied to the study of small mammals. Accordingly, here we test the suitability of photogrammetric techniques to obtain 3D landmarks on mouse skulls as a model for small mammals. Shape and size of 3D models obtained with photogrammetric techniques were consistent among replicates, even when different sets of photographs were used. The linear measurements obtained from 3D models produced here were highly correlated with measurements obtained with callipers on actual crania, and differences among both sets of measures were smaller than those among individuals in most of the tested measures. These results show for the first time that photogrammetry is a precise technique for 3D shape analysis of small mammals. Photogrammetry also proved to be accurate for obtaining linear measurements between 3D landmarks; however, further studies are needed to demonstrate that this technique is also accurate to recreate 3D shapes. 相似文献
56.
The skull of Morganucodon 总被引:3,自引:0,他引:3
K. A. KERMACK F.L.S. FRANCES MUSSETT H. W. RIGNEY S.V.D. F.L.S. 《Zoological Journal of the Linnean Society》1981,71(1):1-158
Morganucodon is a triconodont (atherian) mammal from the Lower Jurassic. Two species are described: M. oehleri from China and M. watsoni from Wales. The skull in M. walsoni is 26 mm long; M. oehleri is slightly larger. The dentition is differentiated functionally into incisors, canines, premolars and molars. The pineal foramen is closed. The prefrontals, postfrontals and postorbitals are lost. Septomaxilla, quadratojugal, tabular and pterygoid flanges are retained. The bony external nares are unpaired. The nasal cavity had the mammalian complement of turbinals. The posterior palate has ridges and troughs similar to those in tritylodonts, triconodonts and multituberculates. The alisphenoid ascending process is narrow and is not in contact with the anterior lamina of the petrosal, lying lateral to it. There is a cavum epiptericum, as in late therapsids. The anterior lamina forms the lateral braincase wall, perforated by the foramina pseudovale and pseudorotundum. There is a squamosal-dentary articulation, but the reptilian jaw joint is retained. The ear resembles that in later therapsids, with the tympanum in the lower jaw. The small quadrate was moveable, buttressed medially be a large stapes. Sound conduction from the tympanum was via articular, quadrate and stapes. The systematic position of Morganucodon is discussed. 相似文献
57.
B. FIGUEIRIDO F. J. SERRANO‐ALARC
N G. J. SLATER P. PALMQVIST 《Journal of evolutionary biology》2010,23(12):2579-2594
Patterns of skull shape in Carnivora provide examples of parallel and convergent evolution for similar ecomorphological adaptations. However, although most researchers report on skull homoplasies among hypercarnivorous taxa, evolutionary trends towards herbivory remain largely unexplored. In this study, we analyse the skull of the living herbivorous carnivorans to evaluate the importance of natural selection and phylogenetic legacy in shaping the skulls of these peculiar species. We quantitatively estimated shape variability using geometric morphometrics. A principal components analysis of skull shape incorporating all families of arctoid carnivorans recognized several common adaptations towards herbivory. Ancestral state reconstructions of skull shape and the reconstructed phylogenetic history of morphospace occupation more explicitly reveal the true patterns of homoplasy among the herbivorous carnivorans. Our results indicate that both historical constraints and adaptation have interplayed in the evolution towards herbivory of the carnivoran skull, which has resulted in repeated patterns of biomechanical homoplasy. 相似文献
58.
Reports of the Dwarf Sperm whale (Kogia sima) in Chinese waters exist only for four specimens, which stranded along the coast of the East China Sea. Records of this species in the South China Sea consist of one skull noted as present in a Vietnamese ‘whale temple’. Recently recognized material in the biological sciences building of the University of Hong Kong, confirms the presence of both the Dwarf (K. sima) and the Pygmy (K. breviceps) Sperm whales in Hong Kong. In addition, close examination of Hong Kong stranding records reveals that of the four specimens identified as K. breviceps one is, in fact, K. sima. A comparison of the Hong Kong material, the holotype of K. sima and other Asian specimens of Kogia spp. affirms that most of the features already used elsewhere to distinguish the two species are reliable. 相似文献
59.
Wei K Chen J Akrami K Galbraith GC Lopez IA Chen F 《Genesis (New York, N.Y. : 2000)》2007,45(6):382-390
The proto-oncogene c-myc has a central role in multiple processes important for embryonic development, including cell proliferation, growth, apoptosis, and differentiation. We have investigated the role of c-myc in neural crest by using Wnt1-Cre-mediated deletion of a conditional mutation of the c-myc gene. c-myc deficiency in neural crest resulted in viable adult mice that have defects in coat color, skull frontal bone, and middle ear ossicle development. Physiological hearing studies demonstrated a significant hearing deficit in the mutant mice. In this report, we focus on the craniofacial and hearing defects. To further examine neural crest cells affected by c-myc deficiency, we fate mapped Wnt1-Cre expressing neural crest cells using the ROSA26 Cre reporter transgene. The phenotype obtained demonstrates the critical role that c-myc has in neural crest during craniofacial development as well as in providing a model for examining human congenital skull defects and deafness. 相似文献
60.
Sanger TJ Mahler DL Abzhanov A Losos JB 《Evolution; international journal of organic evolution》2012,66(5):1525-1542
Complex organismal structures are organized into modules, suites of traits that develop, function, and vary in a coordinated fashion. By limiting or directing covariation among component traits, modules are expected to represent evolutionary building blocks and to play an important role in morphological diversification. But how stable are patterns of modularity over macroevolutionary timescales? Comparative analyses are needed to address the macroevolutionary effect of modularity, but to date few have been conducted. We describe patterns of skull diversity and modularity in Caribbean Anolis lizards. We first diagnose the primary axes of variation in skull shape and then examine whether diversification of skull shape is concentrated to changes within modules or whether changes arose across the structure as a whole. We find no support for the hypothesis that cranial modules are conserved as species diversify in overall skull shape. Instead we find that anole skull shape and modularity patterns independently converge. In anoles, skull modularity is evolutionarily labile and may reflect the functional demands of unique skull shapes. Our results suggest that constraints have played little role in limiting or directing the diversification of head shape in Anolis lizards. 相似文献