Chris TorresUniversity of Texas at Austin | UT · Department of Integrative Biology
Chris Torres
Master's, University of North Carolina at Wilmington
About
20
Publications
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382
Citations
Introduction
Additional affiliations
August 2011 - May 2014
Publications
Publications (20)
Asteriornis maastrichtensis, from the latest Cretaceous of Belgium, is among the oldest known crown bird fossils, and its three-dimensionally preserved skull provides the most substantial insights into the cranial morphology of early crown birds to date. Phylogenetic analyses recovered Asteriornis as a total-group member of Galloanserae (the clade...
Birds today are the most diverse clade of terrestrial vertebrates, and understanding why extant birds (Aves) alone among dinosaurs survived the Cretaceous-Paleogene mass extinction is crucial to reconstructing the history of life. Hypotheses proposed to explain this pattern demand identification of traits unique to Aves. However, this identificatio...
Relative brain sizes in birds can rival those of primates, but large-scale patterns and drivers of avian brain evolution remain elusive. Here, we explore the evolution of the fundamental brain-body scaling relationship across the origin and evolution of birds. Using a comprehensive dataset sampling> 2,000 modern birds, fossil birds, and theropod di...
The middle-late Eocene of Antarctica was characterized by dramatic change as the continent became isolated from the other southern landmasses and the Antarctic Circumpolar Current formed. These events were crucial to the formation of the permanent Antarctic ice cap, affecting both regional and global climate change. Our best insight into how life i...
Understanding of the Asian early Paleogene avifauna is limited relative to that of North American and European avifauna of the same period. While major patterns of mammalian faunal exchange among these three regions across the Paleocene/Eocene boundary have been described, much less is known about the dynamics of bird diversity over the same time i...
Lithornithids are volant stem palaeognaths from the Paleocene‐Eocene. Except for these taxa and the extant neotropical tinamous, all other known extinct and extant palaeognaths are flightless. Investigation of properties of the lithornithid wing and its implications for inference of flight style informs understood locomotor diversity within Palaeog...
In 2006, a partial avian femur (South Dakota School of Mines and Technology (SDSM) 78247) from the Upper Cretaceous (Maastrichtian) Sandwich Bluff Member of the López de Bertodano Formation of Sandwich Bluff on Vega Island of the northern Antarctic Peninsula was briefly reported as that of a cariamiform-a clade that includes extant and volant South...
The recently extinct Malagasy elephant birds (Palaeognathae, Aepyornithiformes) included the largest birds that ever lived. Elephant bird neuroanatomy is understudied but can shed light on the lifestyle of these enigmatic birds. Palaeoneurological studies can provide clues to the ecologies and behaviours of extinct birds because avian brain shape i...
The rapidly expanding interest in, and availability of, digital tomography data to visualize casts of the vertebrate endocranial cavity housing the brain (endocasts) presents new opportunities and challenges to the field of comparative neuroanatomy. The opportunities are many, ranging from the relatively rapid acquisition of data to the unprecedent...
Uncertainty in divergence time estimation is frequently studied from many angles but rarely from the perspective of phylogenetic node age. If appropriate molecular models and fossil priors are used, a multi-locus, partitioned analysis is expected to equally minimize error in accuracy and precision across all nodes of a given phylogeny. In contrast,...
The Oligo-Miocene flamingo Harrisonavis croizeti represents an intermediate form between the highly specialized extant flamingo cranial morphology and the more generalized ancestral phoenicopteriform one, characterized by the extinct taxon Palaelodus. However, the original description of H. croizeti lacked detail and the lectotypic skull was lost;...
Modern flamingos (Phoenicopteridae) occupy a highly specialized ecology unique among birds and represent a potentially powerful model system for informing the mechanisms by which a lineage of birds adapts and radiates. However, despite a rich fossil record and well-studied feeding morphology, molecular investigations of the evolutionary progression...
Flamingos (Phoenicopteriformes) are a highly specialized lineage with a filterfeeding strategy entirely unique among modern birds. Though extant flamingo ecology and feeding behavior has been well-studied, the evolutionary history of this ecomorph remains poorly understood. No ancestral cranial or rostral fossil material has ever been formally desc...
Molecules and morphology frequently point to different phylogenies of modern birds, hence making birds unique models to study reasons for such conflicts. Molecules generally make a less biased tool for phylogenetic inference, but evolutionary interpretation of a phylogeny requires knowledge from both morphology and fossils. In the past decade, cons...
Questions
Question (1)
I am baffled by an error I'm getting in TNT 1.5. In the .tnt file, I am trying enforce a constraint using the following code:
force
+ [ Taxon1 Taxon2 Taxon3 ]
;
However, when I try to run a traditional search with enforced constraints, the program tells me, "Sorry, cannot build a tree with specified constraints."
But if I run the analysis without trying to enforce the constraint, it recovers that clade as monophyletic in every most parsimonious tree - which is what I was trying to enforce in the first place!
Does anyone have any insight to what I am (or the program is) screwing up?
Thanks!