0000000000466003

AUTHOR

Daniel Pincheira-donoso

0000-0002-0050-6410

showing 5 related works from this author

Scientific Reports

2019

Anthropogenic climate change ranks among the major global-scale threats to modern biodiversity. Extinction risks are known to increase via the interactions between rapid climatic alterations and environmentally-sensitive species traits that fail to adapt to those changes. Accumulating evidence reveals the influence of ecophysiological, ecological and phenological factors as drivers underlying demographic collapses that lead to population extinctions. However, the extent to which life-history traits influence population responses to climate change remains largely unexplored. The emerging 'cul-de-sac hypothesis' predicts that reptilian viviparity ('live-bearing' reproduction), a 'key innovati…

0301 basic medicineClimate ChangePopulationBiodiversitylcsh:MedicineClimate changeBiologyArticlerange shiftsBody Temperatureiguania03 medical and health sciences0302 clinical medicinenichesevolutionAnimalslcsh:ScienceeducationriskKey innovationEcological nicheeducation.field_of_studyMultidisciplinaryExtinctionbiologyEcologylcsh:RGlobal warmingLizardsBiodiversityCold ClimateAdaptation Physiologicalreptilian viviparityspecies distributionsgenus liolaemus030104 developmental biologylcsh:QAdaptation6th mass extinction030217 neurology & neurosurgeryScientific Reports
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The macroecology of chemical communication in lizards: do climatic factors drive the evolution of signalling glands?

2018

Chemical communication plays a pivotal role in shaping sexual and ecological interactions among animals. In lizards, fundamental mechanisms of sexual selection such as female mate choice have rarely been shown to be influenced by quantitative phenotypic traits (e.g., ornaments), while chemical signals have been found to potentially influence multiple forms of sexual and social interactions, including mate choice and territoriality. Chemical signals in lizards are secreted by glands primarily located on the edge of the cloacae (precloacal glands, PG) and thighs (femoral glands), and whose interspecific and interclade number ranges from 0 to > 100. However, elucidating the factors underlying …

0106 biological sciences0301 basic medicineLiolaemusPrecloacal glands010603 evolutionary biology01 natural sciencesChemical communication03 medical and health sciencesbiology.animalMacroecologySignalling glandsEcology Evolution Behavior and SystematicsMacroecologyC181 BiodiversityPhylogenetic inertiaNatural selectionbiologyLizardLizardsLiolaemusbiology.organism_classification030104 developmental biologyMate choiceSexual selectionEvolutionary biologySexual selectionAdaptationResearch Article
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Re-thinking the effects of body size on the study of brain size evolution

2018

Body size correlates with most structural and functional components of an organism’s phenotype – brain size being a prime example of allometric scaling with animal size. Therefore, comparative studies of brain evolution in vertebrates rely on controlling for the scaling effects of body size variation on brain size variation by calculating brain weight/body weight ratios. Differences in the brain size-body size relationship between taxa are usually interpreted as differences in selection acting on the brain or its components, while selection pressures acting on body size, which are among the most prevalent in nature, are rarely acknowledged, leading to conflicting and confusing conclusions. …

0303 health sciencesBrainReptilesOrgan SizeBody sizeBiologyBody weightBiological EvolutionBirds03 medical and health sciencesBehavioral Neuroscience0302 clinical medicineDevelopmental NeuroscienceEvolutionary biologyBrain sizeAnimalsBody SizeComparative cognitionAllometryBrain weightSpecific Gravity030217 neurology & neurosurgery030304 developmental biology
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Hypoxia and hypothermia as rival agents of selection driving the evolution of viviparity in lizards

2017

[Aim]: The evolution of key innovations promotes adaptive radiations by opening access to new ecological opportunity. The acquisition of viviparity (live-bearing reproduction) has emerged as one such innovation explaining reptile proliferations into extreme climates. By evolving viviparity, females provide embryos with internally stable environments to complete development. The classical hypothesis suggests that natural selection for viviparity arises from low temperatures in cold climates, which promote prolonged egg retention in the mother's body. An alternative hypothesis proposes that declines in atmospheric oxygen at high elevations create natural selection for embryo retention to prov…

Life‐history evolution0106 biological sciences0301 basic medicineLiolaemusMultivariate statisticsAlternative hypothesis010603 evolutionary biology01 natural sciences03 medical and health sciencesbiology.animalHomeostasisHypoxiaMacroecologyEcology Evolution Behavior and SystematicsMacroecologyC150 Environmental BiologyViviparityGlobal and Planetary ChangeNatural selectionEcologybiologyEcologyViviparyLizardC182 EvolutionHypoxia (environmental)Liolaemusbiology.organism_classificationSquamates030104 developmental biologyReproductive modesGlobal Ecology and Biogeography
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Data from: Rethinking the effects of body size on the study of brain size evolution

2020

Body size correlates with most structural and functional components of an organism’s phenotype – brain size being a prime example of allometric scaling with animal size. Therefore, comparative studies of brain evolution in vertebrates rely on controlling for the scaling effects of body size variation on brain size variation by calculating brain weight/body weight ratios. Differences in the brain size-body size relationship between taxa are usually interpreted as differences in selection acting on the brain or its components, while selection pressures acting on body size, which are among the most prevalent in nature, are rarely acknowledged, leading to conflicting and confusing conclusions. …

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