Search results for "Vertebrate paleontology"

showing 9 items of 9 documents

Comment on the letter of the Society of Vertebrate Paleontology (SVP) dated April 21, 2020 regarding “Fossils from conflict zones and reproducibility…

2020

Motivation for this comment Recently, the Society of Vertebrate Paleontology (SVP) has sent around a letter, dated 21st April, 2020 to more than 300 palaeontological journals, signed by the President, Vice President and a former President of the society (Rayfield et al. 2020). The signatories of this letter request significant changes to the common practices in palaeontology. With our present, multi-authored comment, we aim to argue why these suggestions will not lead to improvement of both practice and ethics of palaeontological research but, conversely, hamper its further development. Although we disagree with most contents of the SVP letter, we appreciate this initiative to discuss scien…

010506 paleontologyCretaciHistoryamberGeological heritageMyanmarminingPatrimoni geològic01 natural sciencesPaleontología03 medical and health sciencesAmbreCitizen scienceVertebrate paleontology10. No inequalityVice presidentComputingMilieux_MISCELLANEOUS030304 developmental biology0105 earth and related environmental sciences0303 health sciencesCretaceous PeriodPaleontologyAmberEvoluciónLaw[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/PaleontologyAmateuramber Myanmar mining
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Comment on the letter of the Society of Vertebrate Paleontology (SVP) dated April 21, 2020 regarding “Fossils from conflict zones and reproducibility…

2020

International audience

0106 biological sciences010506 paleontologyNETHERLANDSARTHROPITYS-BISTRIATAAREACENTRAL-EUROPEPaleontologyPERMIAN PETRIFIED FORESTSAAR-NAHE BASIN010603 evolutionary biology01 natural sciencesArchaeologyPaleontologíaBALTIC AMBEREvoluciónGeographyPARNAIBA BASINSaar–Nahe BasinTHEROPOD DINOSAURBaltic amberDECAPODAVertebrate paleontology[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/PaleontologyComputingMilieux_MISCELLANEOUS0105 earth and related environmental sciences
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Response to formal comment on Myhrvold (2016) submitted by Griebeler and Werner (2017)

2018

In his 2016 paper, Myhrvold criticized ours from 2014 on maximum growth rates (Gmax, maximum gain in body mass observed within a time unit throughout an individual’s ontogeny) and thermoregulation strategies (ectothermy, endothermy) of 17 dinosaurs. In our paper, we showed that Gmax values of similar-sized extant ectothermic and endothermic vertebrates overlap. This strongly questions a correct assignment of a thermoregulation strategy to a dinosaur only based on its Gmax and (adult) body mass (M). Contrary, Gmax separated similar-sized extant reptiles and birds (Sauropsida) and Gmax values of our studied dinosaurs were similar to those seen in extant similar-sized (if necessary scaled-up) …

0106 biological sciences0301 basic medicineMetabolic AnalysisPhysiologylcsh:MedicineAnimal Phylogenetics01 natural sciencesDinosaursBody TemperatureExtant taxonOrnithologyMaximum gainMedicine and Health SciencesGrowth rateSauropsidalcsh:ScienceArchosauriaData ManagementMammalsMultidisciplinarybiologyVertebrateEukaryotaPrehistoric AnimalsThermoregulationPhylogeneticsBioassays and Physiological AnalysisPhysiological ParametersEctothermVertebratesRegression AnalysisComputer and Information SciencesVertebrate PaleontologyZoologyResearch and Analysis Methods010603 evolutionary biologyFormal CommentBirds03 medical and health sciencesbiology.animalBasal Metabolic Rate MeasurementAnimalsAnimal PhysiologyEvolutionary SystematicsPaleozoologyTaxonomyEvolutionary Biologylcsh:ROrganismsBiology and Life SciencesPaleontologyReptilesbiology.organism_classificationBird Physiology030104 developmental biologyAmniotesEarth Scienceslcsh:QAllometryPaleobiologyZoologyPLoS ONE
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Dinosaur Metabolism and the Allometry of Maximum Growth Rate

2016

In his 2016 paper, Myhrvold criticized ours from 2014 on maximum growth rates (Gmax, maximum gain in body mass observed within a time unit throughout an individual’s ontogeny) and thermoregulation strategies (ectothermy, endothermy) of 17 dinosaurs. In our paper, we showed that Gmax values of similar-sized extant ectothermic and endothermic vertebrates overlap. This strongly questions a correct assignment of a thermoregulation strategy to a dinosaur only based on its Gmax and (adult) body mass (M). Contrary, Gmax separated similar-sized extant reptiles and birds (Sauropsida) and Gmax values of our studied dinosaurs were similar to those seen in extant similar-sized (if necessary scaled-up) …

0106 biological sciences0301 basic medicineMetabolic stateMetabolic AnalysisPhysiologylcsh:MedicineAnimal Phylogenetics01 natural sciencesBody TemperatureDinosaursMathematical and Statistical TechniquesExtant taxonMedicine and Health SciencesBody SizeGrowth ratelcsh:Sciencemedia_commonArchosauriaData ManagementMammalsMultidisciplinaryEcologyFossilsEukaryotaRegression analysisPrehistoric AnimalshumanitiesCurve FittingPhylogeneticsBioassays and Physiological AnalysisPhysiological ParametersEctothermPhysical SciencesVertebratesRegression AnalysisStatistics (Mathematics)Research ArticleComputer and Information Sciencesmedia_common.quotation_subjectVertebrate PaleontologyBiologyResearch and Analysis Methods010603 evolutionary biologyMarsupialsFormal CommentBirds03 medical and health sciencesBasal Metabolic Rate MeasurementAnimalsEvolutionary SystematicsStatistical MethodsPaleozoologyTaxonomyEvolutionary BiologyVariableslcsh:ROrganismsReptilesBiology and Life SciencesPaleontology030104 developmental biologyEvolutionary biologyBasal metabolic rateAmniotesEarth Scienceslcsh:QAllometryPaleobiologyEnergy MetabolismZoologyMathematical FunctionsMathematicsPLoS ONE
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Allometries of maximum growth rate versus body mass at maximum growth indicate that non-avian dinosaurs had growth rates typical of fast growing ecto…

2014

We tested if growth rates of recent taxa are unequivocally separated between endotherms and ectotherms, and compared these to dinosaurian growth rates. We therefore performed linear regression analyses on the log-transformed maximum growth rate against log-transformed body mass at maximum growth for extant altricial birds, precocial birds, eutherians, marsupials, reptiles, fishes and dinosaurs. Regression models of precocial birds (and fishes) strongly differed from Case's study (1978), which is often used to compare dinosaurian growth rates to those of extant vertebrates. For all taxonomic groups, the slope of 0.75 expected from the Metabolic Theory of Ecology was statistically supported. …

Anatomy and PhysiologyMetabolic theory of ecologyVertebrate Paleontologylcsh:MedicineBiostatisticsBody Mass IndexDinosaursBirdsbiology.animalAnimalsGrowth rateStatistical Methodslcsh:ScienceBiologyEvolutionary BiologyMultidisciplinarybiologyEcologyEcologyFossilsApplied Mathematicslcsh:RStatisticsFishesVertebrateReptilesPaleontologyThermoregulationBiological EvolutionAltricialTaxonMarsupialiaEctothermEarth Scienceslcsh:QPrecocialPaleobiologyPhysiological ProcessesEnergy MetabolismMathematicsResearch ArticleDevelopmental BiologyPloS one
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A new styracosternan hadrosauroid (Dinosauria: Ornithischia) from the Early Cretaceous of Portell, Spain

2021

A new styracosternan ornithopod genus and species is described based on the right dentary of a single specimen from the Mirambell Formation (Early Cretaceous, early Barremian) at the locality of Portell, (Castellón, Spain).Portellsaurus sosbaynatigen. et sp. nov. is diagnosed by two autapomorphic features as well as a unique combination of characters. The autapomorphies include: the absence of a bulge along the ventral margin directly ventral to the base of the coronoid process and the presence of a deep oval cavity on the medial surface of the mandibular adductor fossa below the eleventh-twelfth tooth position. Phylogenetic analyses reveal that the new Iberian form is more closely related …

Bacterial DiseasesAutapomorphyTeethPhysiologyDigestive PhysiologyMandible010502 geochemistry & geophysics01 natural sciencesDinosaursMedical ConditionsornithischiaCariesMedicine and Health SciencesMusculoskeletal SystemdinosaursPhylogenyData ManagementArchosauriaCretaceous PeriodMultidisciplinarybiologyFossilsQREukaryotaPhylogenetic AnalysisGeologyPrehistoric AnimalsBiodiversityBiological EvolutionCretaceousPhylogeneticsInfectious DiseasesOuranosaurusMesozoic EraMedicineAnatomyOrnithischiaCretaceous periodOrnithischiaResearch ArticleComputer and Information Sciences010506 paleontologyScienceVertebrate PaleontologyMantellisaurusdentitionPaleontologySymphysesAnimalsDentitionEvolutionary SystematicsPaleozoologyTaxonomy0105 earth and related environmental sciencesteethEvolutionary Biologyphylogenetic analysisOrganismsBiology and Life SciencesPaleontologyGeologic TimeBariliumsymphysesbiology.organism_classificationJawSpainEarth SciencesIguanodonPaleobiologyDigestive SystemHeadZoologyOrnithopod
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Kretzoiarctos gen. nov., the oldest member of the giant panda clade

2012

The phylogenetic position of the giant panda, Ailuropoda melanoleuca (Carnivora: Ursidae: Ailuropodinae), has been one of the most hotly debated topics by mammalian biologists and paleontologists during the last century. Based on molecular data, it is currently recognized as a true ursid, sister-taxon of the remaining extant bears, from which it would have diverged by the Early Miocene. However, from a paleobiogeographic and chronological perspective, the origin of the giant panda lineage has remained elusive due to the scarcity of the available Miocene fossil record. Until recently, the genus Ailurarctos from the Late Miocene of China (ca. 8–7 mya) was recognized as the oldest undoubted me…

EvolutionLineage (evolution)ScienceCarnivoraVertebrate PaleontologyZoologyLate MioceneAnimal PhylogeneticsAilurarctosAiluropodinaebiology.animalAnimalsEvolutionary SystematicsCladeBiologyPhylogenyAiluropoda melanoleucaTaxonomyEvolutionary BiologyMultidisciplinaryRadiationbiologyFossilsSkullQRPaleontologybiology.organism_classificationBiological EvolutionCladisticsPhylogeneticsUrsavusBiogeographySpainAnimal TaxonomyMammaliaMedicineZoologyUrsidaeResearch Article
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Reproductive Biology and Its Impact on Body Size: Comparative Analysis of Mammalian, Avian and Dinosaurian Reproduction

2011

Janis and Carrano (1992) suggested that large dinosaurs might have faced a lower risk of extinction under ecological changes than similar-sized mammals because large dinosaurs had a higher potential reproductive output than similar-sized mammals (JC hypothesis). First, we tested the assumption underlying the JC hypothesis. We therefore analysed the potential reproductive output (reflected in clutch/litter size and annual offspring number) of extant terrestrial mammals and birds (as "dinosaur analogs") and of extinct dinosaurs. With the exception of rodents, the differences in the reproductive output of similar-sized birds and mammals proposed by Janis and Carrano (1992) existed even at the …

Litter (animal)Sexual ReproductionModels AnatomicAnatomy and PhysiologyLitter SizeStatistics as Topiclcsh:MedicineDinosaursReproductive PhysiologyBody Sizelcsh:Sciencereproductive and urinary physiologymedia_commonMammalseducation.field_of_studyMultidisciplinaryEcologyPopulation sizeReproductionhumanitiesReproductionResearch ArticleEvolutionary Processesmedia_common.quotation_subjectPopulationVertebrate PaleontologyZoologyBiologyBirdsstomatognathic systemReproductive biologyJuvenileAnimalseducationBiologySpecies ExtinctionSauropodaEvolutionary BiologyExtinctionlcsh:RBody WeightReproductive SystemPaleontologysocial sciencesbiology.organism_classificationClutch SizeSurvival AnalysisEarth Scienceslcsh:QPaleoecologyPaleobiologyPLoS ONE
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The oldest fossil evidence of a dental lamina in sharks

2006

(2006). The oldest fossil evidence of a dental lamina in sharks. Journal of Vertebrate Paleontology: Vol. 26, No. 4, pp. 1002-1003.

PaleontologyZoologyAnatomyVertebrate paleontologyFossil evidenceDental laminaGeologyJournal of Vertebrate Paleontology
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