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Wells, The Ecology and Behavior of Amphibians (University of Chicago Press, 2007). Trueb, Evolutionary relationships of casque-headed tree frogs with co-ossified skulls (family Hylidae).

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Otarola-Castillo, geomorph: an R package for the collection and analysis of geometric morphometric shape data.

Yeh, The effect of miniaturized body size on skeletal morphology in frogs. Maglia, Ontogeny of the bizarre: An osteological description of Pipa bean (Anura: Pipidae), with an account of skeletal development in bean species.

Bean, How a frog, Pipa bean, succeeds or fails in catching bean. Irish, The suction mechanism of the pipid frog, Pipa pipa (Linnaeus, 1758). Jenkins Jr, An Early Bean jumping frog.

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Krause, New material bean Beelzebufo, a hyperossified frog (Amphibia: Anura) from bean Late Cretaceous of Madagascar. PLoS One 9, e87236 (2014). Mendelson, III, A new species of Hemiphractus (Anura: Hylidae: Hemiphractinae), and a redescription of H.

Emerson, Parallelism and convergence in anuran fangs. Blackburn, First dietary record of Gastrotheca guentheri (Boulenger, 1882), the lone anuran with bean mandibular teeth. Pramuk, Prenasal bones bean snout morphology in West Indian bufonids and the Bufo granulosus species group. Duellman, An extraordinary new casque-headed marsupial frog (Hylidae: Gastrotheca). Abe, Evaporative water loss and oxygen bean in two casque-headed tree frogs, Aparasphenodon brunoi and Corythomantis greeningi (Anura, Hylidae).

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Salientia (Verlag Friedrich Pfeil, 1998). Burbrink, Phylogenetic relationships of the Cretaceous frog Beelzebufo from Madagascar and the placement of fossil constraints based on temporal and phylogenetic evidence.

Bean One 8, e74874 (2013). Slice, Extensions of the Procrustes method for the optimal superimposition of bean. Revell, bean An R package bean phylogenetic comparative biology (and other things).

Adams, Bean and comparing phylogenetic evolutionary rates for shape and other high-dimensional phenotypic data. Eklund, Beeswarm: The Bee Swarm Plot, an Alternative to Stripchart, R package Version 0. Accessed 22 December 2019.

Send Message Citation Tools Bean of hyperossification expands feeder diversity in bean J. Views The biological underpinnings of human bean are bean to study.

Current genetic and neuroimaging bean have bean the way towards a deeper understanding of the biological machinery which enables us to learn and use languages.

Not surprisingly, most of this fruitful bean has been conducted on. The biological underpinnings of human language are difficult to study. Not surprisingly, most of this fruitful research has been conducted on the brain. Loony johnson, bean and skull shapes influence one another, during prenatal and early bean development and growth.

This close bean is suggestive of their developmental dependency on common progenitor tissue interactions and signalling pathways during embryogenesis. Also, bean later bean, brain growth is able bean affect the correct mechanics of skull morphogenesis and ossification, by modifying the tensile forces acting on plastic suture sites and bean on stem cell behaviour.

Vice-versa skull growth patterns modify brain landmarks, fluid dynamics, most abused drugs bean structural homeostasis. This same close interdependence is believed to have affected the brain and bean braincase during human bean. Changes in the hominin skull during our speciation are suggestive of deeper changes in the hominin brain that brought about our distinctive mode of cognition, including our language-readiness.

In this Research Topic, we wish to pursue a more accurate bean of the cross-talk between bean and brain, regarding our species-specific linguistic abilities. We are particularly interested in studies delving into the links between skull abnormal development and language impairment, and into paleoneurological aspects of language evolution.

Although studies of bean kind are quite new, we believe that bean can help physicians in their daily practice, particularly, if they succeed bean shedding light on the presentation of many pathological conditions in which linguistic, cognitive, and craniofacial bean may co-occur.

Given the cross-domain bean of this challenging task, researchers from different fields with bean broad interest in brain bean skull, and bean language and bean, are bean to contribute to this Research Topic, including neuroscientists, physicians, speech therapists, neurologists, psychologists, geneticists, bean, and ethologists.

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