Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/121797
Título: Diversification of cephalic shield shape and antenna in phyllosoma I of slipper and spiny lobsters (Decapoda: Achelata)
Autores/as: Landeira Sánchez, José María 
Deville, Diego
Fatira, Effrosyni
Zhang, Zhixin
Thatje, Sven
Lin, Qiang
Hernández León, Santiago Manuel 
Wakabayashi, Kaori
Clasificación UNESCO: 251002 Oceanografía química
251001 Oceanografía biológica
251007 Oceanografía física
Palabras clave: Plankton
Diversification
Phyllosoma
Shape variation
Nonadaptive radiation, et al.
Fecha de publicación: 2023
Proyectos: Tropical and South Atlantic - climate-based marine ecosystem prediction for sustainable management 
Desenmarañando la Estacionalidad Del Flujo Activo de Carbono en El Océano 
Publicación seriada: Frontiers in Marine Science 
Resumen: Slipper (Scyllaridae) and spiny (Palinuridae) lobsters show a complex life cycle with a planktonic larval phase, named phyllosoma. This unique larval form within Achelata (Decapoda) is characterized by a transparent dorsoventrally compressed body and a pair of antennae. This conspicuous morphology has been attributed to adaptive specialization of planktonic life. Early studies suggest that phyllosoma morphology has remained constant over the evolutionary history of Achelata, while recent evidence points out large morphological changes and that diversification of phyllosoma larvae is a consequence of radiation and specialization processes to exploit different habitats. Given the ecological and evolutive significance of phyllosoma, we used shape variation of the first phyllosoma stage (phyllosoma I) and a time-calibrated phylogeny of extant Achelata to study how diversification of phyllosoma I shape occurred along with the evolutionary history of Achelata. Our results show a conserved phyllosoma I with a pear-shaped cephalic shield and large antennae in spiny lobsters and older groups of slipper lobsters, yet highly specialized phyllosoma I with wide rounded cephalic shield and short antennae in younger groups of slipper lobsters. Analyses revealed two bursts of lineage diversification in mid and late history without a slowdown in recent times. Both bursts preceded large bursts of morphological disparity. These results joined with the allopatric distribution of species and convergence of phyllosoma I shapes between largely divergent groups suggest that diversification involves nonadaptive radiation processes. However, the correlation of a major direction of shape with the maximum distribution depth of adults and the occurrence of the second burst of diversification post-extinction of competitors within Achelata presuppose some ecological opportunities that might have promoted lineage and morphological diversification, fitting to the characteristic components of adaptive radiations. Therefore, we conclude that diversification of Achelata presents a main signature of nonadaptive radiation with some components of adaptive radiation
URI: http://hdl.handle.net/10553/121797
ISSN: 2296-7745
DOI: 10.3389/fmars.2023.1070296
Fuente: Frontiers in Marine Science [EISSN 2296-7745],v. 10, (Marzo 2023)
Colección:Artículos
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