0000000000046992

AUTHOR

Jean Guex

showing 4 related works from this author

Challenging Darwin: Evolution of Triassic Conodonts and Their Struggle for Life in a Changing World

2017

Abstract The phylogeny and distribution of Triassic conodonts reveal many aspects of their natural history. Conodonts incorporate the morphologic response to temperature as well as to eustatic cycles. Speciation, radiation, and extinction are not fortuitous and evolution uses heterochrony (progenesis and neoteny) in response to stress-generating events. Proteromorphosis (reappearance of ancestral morphs) and paedomorphosis (retention of juvenile traits) is a reaction to sublethal environmental stress. This often follows radiation of fully developed forms in the recovery stage after extinction that timely matches transgressions. Evolutionary retrogradation (neoteny) during eustatic high stan…

Extinction010504 meteorology & atmospheric sciencesPermianbiologyLadinian010502 geochemistry & geophysicsbiology.organism_classification01 natural sciencesPaleontologyPluvialPeriod (geology)ConodontNeotenyGeologyPermian–Triassic extinction event0105 earth and related environmental sciences
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Conodonts versus Triassic Climatic and Eustatic Changes

2015

Kılıç, Ali Murat (Balikesir Author)

Extinction eventExtinctionproteromorphosis.PermianSiberian TrapsProgenesisTriassic ConodontsEarth and Planetary Sciences(all)General MedicineProteromorphosisSingle massShort lifePaleontologyPeriod (geology)PhylogenyGeologyRetrogradationProcedia Earth and Planetary Science
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Évolution rétrograde de Neospathodus au cours de la crise Permo - Triasique

2016

The Permian - Triassic evolution of platform conodonts (Gondolellidae) consists mainly in developing the carina and the platform. During the sublethal environmental stress conditions subsequent to the Permian - Triassic extinction, the Wuchiapingian - Griesbachian Clarkina lineage is replaced by the primitive looking platform-lacking Dienerian - Aegean Neospathodus kummeli - Kashmirella timorensis lineage. Moreover, above Jinogondolella denticulata, end of the Capitanian Jinogondolella lineage, “Neospathodus” arcucristatus, an atavistic blade-like homeomorph that lacks a platform, underlies Protoclarkina crofti, of the base of the anagenetic Clarkina lineage. These primitive-looking forms a…

010506 paleontologyLineage (genetic)ExtinctionPermianbiologyEvolutionTriasConodontsPaleontologyÉvolutionProteromorphosis010502 geochemistry & geophysicsbiology.organism_classificationTriassic01 natural sciencesEnvironmental stressPaleontologyPhylogenèseTriasAtavismPeriod (geology)ConodontesProtéromorphosePhylogeny0105 earth and related environmental sciencesRevue de Micropaléontologie
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Mode and Rate of Growth in Ammonoids

1996

In this chapter we discuss the mode and rate of growth in ammonoids, focusing primarily on postembryonic growth. We first discuss the general mode of growth and then describe the ontogenetic sequence of growth stages. These stages are recognized on the basis of changes in morphology. For example, a graph of the increase in size of whorl width versus shell diameter in an individual reveals changes through ontogeny that pinpoint the end of one growth stage and the beginning of another. We next discuss the overall rate of growth through ontogeny and establish a generalized growth curve. In this discussion, we refer to other cephalopods whose rate of growth is known. Fluctuations in the rate of…

Whorl (mollusc)Evolutionary biologyOntogenyMode (statistics)Generalized GrowthSoft bodyGrowth curve (biology)BiologyRate of growth
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