Lluı́s Gil scite author profile

Temnospondyls were a successful group of early tetrapods that lived during the Palaeozoic and Mesozoic periods. Different ecomorphotypes were present (terrestrial, amphibious and fully aquatic) with a wide range of lifestyles. Herein, we analysed several clades of temnospondyls using geometric morphometrics, Finite Element Analysis, and comparative phylogenetic analysis. Some temnospondyli clades were ‘crocodilomorph’ feeding analogues. The skull analysis reveals a concordance between form and feeding function, in amphibious and fully aquatic feeders. The form of terrestrial feeders could be consequences of adaptative or phylogenetical constraints. Basal temnospondyls, as edopoids, were able to leave the water and feed on land. Eryopids continued as terrestrial feeders, although some members showed a shift to increased aquatic feeding. The aquatic environment was especially occupied by archegosaurs during the Permian. After the Permo‐Triassic extinction, trematosaurs and capitosaurs returned to the aquatic environment and their members were amphibious and fully aquatic feeders until their disappearance.

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3D Bite Modeling and Feeding Mechanics of the Largest Living Amphibian, the Chinese Giant Salamander Andrias davidianus (Amphibia:Urodela)

Fortuny

Marcé‐Nogué

Heiss

et al. 2015

PLoS ONE

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Biting is an integral feature of the feeding mechanism for aquatic and terrestrial salamanders to capture, fix or immobilize elusive or struggling prey. However, little information is available on how it works and the functional implications of this biting system in amphibians although such approaches might be essential to understand feeding systems performed by early tetrapods. Herein, the skull biomechanics of the Chinese giant salamander, Andrias davidianus is investigated using 3D finite element analysis. The results reveal that the prey contact position is crucial for the structural performance of the skull, which is probably related to the lack of a bony bridge between the posterior end of the maxilla and the anterior quadrato-squamosal region. Giant salamanders perform asymmetrical strikes. These strikes are unusual and specialized behavior but might indeed be beneficial in such sit-and-wait or ambush-predators to capture laterally approaching prey. However, once captured by an asymmetrical strike, large, elusive and struggling prey have to be brought to the anterior jaw region to be subdued by a strong bite. Given their basal position within extant salamanders and their “conservative” morphology, cryptobranchids may be useful models to reconstruct the feeding ecology and biomechanics of different members of early tetrapods and amphibians, with similar osteological and myological constraints.

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Accounting for differences in element size and homogeneity when comparing Finite Element models: Armadillos as a case study

Marcé‐Nogué

Esteban-Trivigno²,

Pérez

et al. 2016

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Computing the average Von Mises stress of Finite Element Models to obtain a single measurement that represents the relative strength of vertebrate structures has been used recently in different works in palaeobiology. However, due to the nature of the Finite Element Analysis (FEA) data, which depends on the size of the elements of the mesh, this approach needs to be fully developed taking into account this influence of the size elements in the results. In this work, we proposed a Mesh-Weighted Arithmetic Mean as the adequate central tendency statistic for non-uniform meshes. On the other hand, when other statistical tools are used, we propose a Quasi-Ideal Mesh that takes into account the differences in size of the elements. Firstly, in order to analyse our proposed approach, one Cingulata mandible has been used generating different meshes. Afterwards, FEA has been applied in a case study in 20 different mandibles belonging to 14 species of Cingulata. Our results suggest that the proposed methodologies are suitable to compare different patterns of stress distribution. In particular, the methods proposed have been shown to be extremely useful when analysing the biomechanics of vertebrate bone structures that can be modelled as planar models in an interspecific comparative framework.

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Experimental and analytical study of TRM strengthened brickwork walls under eccentric compressive loading

Bernat

Gil

Roca

et al. 2013

Construction and Building Materials

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Comparative 3D analyses and palaeoecology of giant early amphibians (Temnospondyli: Stereospondyli)

Fortuny

Marcé‐Nogué

Steyer

et al. 2016

Sci Rep

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Macroevolutionary, palaeoecological and biomechanical analyses in deep time offer the possibility to decipher the structural constraints, ecomorphological patterns and evolutionary history of extinct groups. Here, 3D comparative biomechanical analyses of the extinct giant early amphibian group of stereospondyls together with living lissamphibians and crocodiles, shows that: i) stereospondyls had peculiar palaeoecological niches with proper bites and stress patterns very different than those of giant salamanders and crocodiles; ii) their extinction may be correlated with the appearance of neosuchians, which display morphofunctional innovations. Stereospondyls weathered the end-Permian mass extinction, re-radiated, acquired gigantic sizes and dominated (semi) aquatic ecosystems during the Triassic. Because these ecosystems are today occupied by crocodilians, and stereospondyls are extinct amphibians, their palaeobiology is a matter of an intensive debate: stereospondyls were a priori compared with putative living analogous such as giant salamanders and/or crocodilians and our new results try to close this debate.

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Mechanical performance of vegetal fabric reinforced cementitious matrix (FRCM) composites

Mercedes

Gil²,

Bernat-Masó³

2018

Construction and Building Materials

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In order to pursue sustainable objectives in the construction industry, a new composite material using vegetal fibre mesh coated with resin and embedded in mortar is developed and characterized. In this study, meshes of different types of vegetal fibres (flax, hemp, sisal, and cotton) coated with epoxy and polyester resins were manufactured. A mixture of meshes and mortar cast different fabric-reinforced cementitious matrix (FRCM) specimens, which were later subjected to direct tensile tests. The results showed an excellent interaction between the vegetal fibres and the mortar matrix. The coating with epoxy and polyester improved the mechanical properties of the yarns and apparently avoided the typical slipping failures in FRCM composites. Hemp and flax FRCM are the composites that reached the highest mechanical strength, whereas cotton FRCM had the greatest elongation capacity and multicracking response. In addition, an analytical model was proposed and validated by a comparison with the experimental results.

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Impact damage identification in composite laminates using vibration testing

Pérez

Gil

Oller

2014

Composite Structures

106

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Experimental and analytical study of reinforced concrete beams shear strengthened with different types of textile-reinforced mortar

Escrig

Gil

Puigvert³

2015

Construction and Building Materials

124

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7Textile-reinforced mortar (TRM) is a composite material that overcomes some drawbacks of other RC 8 (reinforced concrete) shear strengthening solutions. In this work, four different types of TRM are used as a 9 shear strengthening system on RC beams tested until failure. A comparative study of their mechanical 10 performance shows that the different TRM combinations used were able to increase the load bearing 11 capacity and change their failure mode. Moreover, new methodologies that permit evaluating the bonding 12 behaviour of TRM and the increment in flexural toughness are presented. The experimental results are 13 compared with previous FRP and TRM analytical formulations. Finally, new formulae for calculating the 14 shear contribution of TRM based on experimental results are proposed. 15

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Lluı́s Gil

Temnospondyli bite club: ecomorphological patterns of the most diverse group of early tetrapods

3D Bite Modeling and Feeding Mechanics of the Largest Living Amphibian, the Chinese Giant Salamander Andrias davidianus (Amphibia:Urodela)

Accounting for differences in element size and homogeneity when comparing Finite Element models: Armadillos as a case study

Experimental and analytical study of TRM strengthened brickwork walls under eccentric compressive loading

Comparative 3D analyses and palaeoecology of giant early amphibians (Temnospondyli: Stereospondyli)

Mechanical performance of vegetal fabric reinforced cementitious matrix (FRCM) composites

Impact damage identification in composite laminates using vibration testing

Experimental and analytical study of reinforced concrete beams shear strengthened with different types of textile-reinforced mortar

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