3 results on '"Maiorino, Leonardo"'
Search Results
2. The role of post-natal ontogeny in the evolution of phenotypic diversity in Podarcis lizards
- Author
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PIRAS P, SALVI D, FERRARA G, DELFINO M, PEDDE L, MAIORINO, LEONARDO, KOTSAKIS, Anastassios, Piras, P, Salvi, D, Ferrara, G, Maiorino, Leonardo, Delfino, M, Pedde, L, and Kotsakis, Anastassios
- Subjects
Allometry ,Geometric morphometrics ,Heterochrony ,Cephalic scales ,Hypermorphosis ,Sexual dimorphism ,Ecology, Evolution, Behavior and Systematics ,Ecology ,Evolution ,geometric morphometric ,hypermorphosi ,cephalic scale ,Behavior and Systematics ,sexual dimorphism ,heterochrony ,allometry ,cephalic scales ,geometric morphometrics ,hypermorphosis - Abstract
""Understanding the role of the developmental pathways in shaping phenotypic diversity allows appreciating in full the processes influencing and constraining morphological change. Podarcis lizards demonstrate extraordinary morphological variability that likely originated in short evolutionary time. Using geometric morphometrics and a broad suite of statistical tests, we explored the role of developmental mechanisms such as growth rate change, ontogenetic divergence ⁄ convergence ⁄ parallelism as well as morphological expression of heterochronic processes in mediating the formation of their phenotypic diversity during the post-natal ontogeny. We identified hypermorphosis – the prolongation of growth along the same trajectory – as the process responsible for both intersexual and interspecific morphological differentiation. Albeit the common allometric pattern observed in both sexes of any species constrains and canalizes their cephalic scales variation in a fixed portion of the phenotypic space, the extended growth experienced by males and some species allows them to achieve peramorphic morphologies. Conversely, the intrasexual phenotypic diversity is accounted for by nonallometric processes that drive the extensive morphological dispersion throughout their ontogenetic trajectories. This study suggests a model of how simple heterochronic perturbations can produce phenotypic variation, and thus potential for further evolutionary change, even within a strictly constrained developmental pathway.""
- Published
- 2011
3. Cope’s Rule and the Universal Scaling Law of Ornament Complexity
- Author
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Maria Novosolov, R. Martínez, Pasquale Raia, Luciano Teresi, Shai Meiri, Francesco Carotenuto, Paolo Piras, Federico Passaro, Mattia Antonio Baiano, Leonardo Maiorino, Yuval Itescu, Mikael Fortelius, Raia, Pasquale, Passaro, Federico, Carotenuto, Francesco, Maiorino, Leonardo, Piras, Paolo, Teresi, Luciano, Meiri, Shai, Itescu, Yuval, Novosolov, Maria, Baiano, Mattia Antonio, Martínez, Ricard, Fortelius, Mikael, Maiorino, L., Piras, P., Teresi, L., Meiri, S., Itescu, Y., Novosolov, M., Baiano, M. A., Martínez, R., and Fortelius, M.
- Subjects
ORNAMENTAL STRUCTURES ,Scaling law ,Ecology ,Hetero-Chrony ,Ornaments ,Biology ,Body size ,SEXUAL SELECTION ,Ciencias de la Tierra y relacionadas con el Medio Ambiente ,purl.org/becyt/ford/1 [https] ,purl.org/becyt/ford/1.5 [https] ,Evolutionary biology ,Sexual selection ,biological scaling, allometry, sexual selection, hetero- chrony, ornamental structures ,BIOLOGICAL SCALING ,Ciencias Ambientales y de la Tierra ,HETEROCHRONY ,Allometry ,Meteorología y Ciencias Atmosféricas ,Heterochrony ,Ecology, Evolution, Behavior and Systematics ,Selection (genetic algorithm) ,Cope's rule ,CIENCIAS NATURALES Y EXACTAS ,ALLOMETRY - Abstract
Fil: Raia, Pasquale. Università degli Studi di Napoli Federico II; Italia Fil: Passaro, Federico. Università degli Studi di Napoli Federico II; Italia Fil: Carotenuto, Francesco. Università degli Studi di Napoli Federico II; Italia Fil: Maiorino, Leonardo. Università degli Studi Roma Tre; Italia Fil: Piras, Paolo. Università degli Studi Roma Tre; Italia Fil: Teresi, Luciano. Università degli Studi Roma Tre; Italia Fil: Meiri, Shai. Tel Aviv University; Israel Fil: Itescu, Yuval. Tel Aviv University; Israel Fil: Novosolov, Maria. Tel Aviv University; Israel Fil: Baiano, Mattia A. Consejo Nacional de Investigaciones Científicas y Técnicas; Argentina. Fil: Baiano, Mattia A. Instituto Catalán de Paleontología Miquel Crusafont; España Fil: Baiano, Mattia A. Universidad Nacional de Río Negro; Argentina Fil: Martínez, Ricard. Universitat Autònoma de Barcelona; España Fil: Fortelius, Mikael. University Of Helsinski; Finlandia Luxuriant, bushy antlers, bizarre crests, and huge, twisting horns and tusks are conventionally understood as products of sexual selection. This view stems from both direct observation and from the empirical finding that the size of these structures grows faster than body size (i.e., ornament size shows positive allometry).We contend that the familiar evolutionary increase in the complexity of ornaments over time in many animal clades is decoupled from ornament size evolution. Increased body size comes with extended growth. Since growth scales to the quarter power of body size, we predicted that ornament complexity should scale according to the quarter power law as well, irrespective of the role of sexual selection in the evolution and function of the ornament. To test this hypothesis, we selected three clades (ammonites, deer, and ceratopsian dinosaurs) whose species bore ornaments that differ in terms of the importance of sexual selection to their evolution.We found that the exponent of the regression of ornament complexity to body size is the same for the three groups and is statistically indistinguishable from0.25.We suggest that the evolution of ornament complexity is a by-product of Cope’s rule. We argue that although sexual selection may control size in most ornaments, it does not influence their shape.
- Published
- 2015
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