Papers by Richi De Mendoza
A new Anseriformes, Conflicto antarcticus gen. et sp. nov., represented by associated bones of a ... more A new Anseriformes, Conflicto antarcticus gen. et sp. nov., represented by associated bones of a single individual,
from the early Palaeocene of Antarctica is described. The new taxon is unlike any other known member of the order.
Conflicto antarcticus is a medium-sized (2 kg) stem anseriform. The forelimb and pectoral girdle bones suggest that
it was a flying bird, and the bones of the hindlimb show that it had elongated legs. The os quadratum represents a
unique combination of features; some are similar to the features of the ancestral quadrate for galloanserines and some
are similar to Anseriformes, but features such as the presence of three foramina are exclusive among Neornithes.
The incisura or foramen nervi suracoracoidei is absent in C. antarcticus, as in most anatids and all Galliformes.
Phylogenetic analysis shows that C. antarcticus + Anatalavis oxfordi is the most basal stem Anseriformes clade. This
implies that the duck-type beak must have developed at an early stage of anseriform evolution. Conflicto antarcticus
represents one (and possibly the most) substantial record of a non-marine Palaeocene bird from the Southern
Hemisphere and supports the hypothesis that Neognathae had already diversified in the earliest Palaeocene.
PloS one, 2012
Andalgalornis steulleti from the upper Miocene-lower Pliocene (≈6 million years ago) of Argentina... more Andalgalornis steulleti from the upper Miocene-lower Pliocene (≈6 million years ago) of Argentina is a medium-sized patagornithine phorusrhacid. It was a member of the predominantly South American radiation of 'terror birds' (Phorusrhacidae) that were apex predators throughout much of the Cenozoic. A previous biomechanical study suggests that the skull would be prepared to make sudden movements in the sagittal plane to subdue prey. We analyze the flexion patterns of the neck of Andalgalornis based on the neck vertebrae morphology and biometrics. The transitional cervical vertebrae 5th and 9th clearly separate regions 1-2 and 2-3 respectively. Bifurcate neural spines are developed in the cervical vertebrae 7th to 12th suggesting the presence of a very intricate ligamentary system and of a very well developed epaxial musculature. The presence of the lig. elasticum interespinale is inferred. High neural spines of R3 suggest that this region concentrates the major stresses durin...
Many studies on avian microanatomy have established a relationship between high bone compactness ... more Many studies on avian microanatomy have established a relationship between high bone compactness (i.e., considerable degree of osteosclerosis) and diving behavior. Greatest degrees of compactness have been observed in the femora and humeri of fossil and extant penguins, femora of Hesperornis Marsh, and Polarornis gregorii Chatterjee, and to a somewhat lesser degree, in the humeri of flightless Pan-Alcidae. Within Anatidae, humeral and femoral compactness among diving species is greater than among non-diving ones, whereas flightless diving species have a greater degree of compactness than their volant close relatives. In Cayaoa bruneti Tonni, an extinct flightless footpropelled, diving anatid with extreme forelimb reduction, femoral osteosclerosis is as great as that of penguins. Osteosclerosis in the femur of both foot- and wing-propelled divers could be part of the consequences of flightlessness and a result of selection to counter buoyancy.
PloS one, 2012
Background: Andalgalornis steulleti from the upper Miocene-lower Pliocene (<6 million years ago) ... more Background: Andalgalornis steulleti from the upper Miocene-lower Pliocene (<6 million years ago) of Argentina is a medium-sized patagornithine phorusrhacid. It was a member of the predominantly South American radiation of 'terror birds' (Phorusrhacidae) that were apex predators throughout much of the Cenozoic. A previous biomechanical study suggests that the skull would be prepared to make sudden movements in the sagittal plane to subdue prey.
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Papers by Richi De Mendoza
from the early Palaeocene of Antarctica is described. The new taxon is unlike any other known member of the order.
Conflicto antarcticus is a medium-sized (2 kg) stem anseriform. The forelimb and pectoral girdle bones suggest that
it was a flying bird, and the bones of the hindlimb show that it had elongated legs. The os quadratum represents a
unique combination of features; some are similar to the features of the ancestral quadrate for galloanserines and some
are similar to Anseriformes, but features such as the presence of three foramina are exclusive among Neornithes.
The incisura or foramen nervi suracoracoidei is absent in C. antarcticus, as in most anatids and all Galliformes.
Phylogenetic analysis shows that C. antarcticus + Anatalavis oxfordi is the most basal stem Anseriformes clade. This
implies that the duck-type beak must have developed at an early stage of anseriform evolution. Conflicto antarcticus
represents one (and possibly the most) substantial record of a non-marine Palaeocene bird from the Southern
Hemisphere and supports the hypothesis that Neognathae had already diversified in the earliest Palaeocene.
from the early Palaeocene of Antarctica is described. The new taxon is unlike any other known member of the order.
Conflicto antarcticus is a medium-sized (2 kg) stem anseriform. The forelimb and pectoral girdle bones suggest that
it was a flying bird, and the bones of the hindlimb show that it had elongated legs. The os quadratum represents a
unique combination of features; some are similar to the features of the ancestral quadrate for galloanserines and some
are similar to Anseriformes, but features such as the presence of three foramina are exclusive among Neornithes.
The incisura or foramen nervi suracoracoidei is absent in C. antarcticus, as in most anatids and all Galliformes.
Phylogenetic analysis shows that C. antarcticus + Anatalavis oxfordi is the most basal stem Anseriformes clade. This
implies that the duck-type beak must have developed at an early stage of anseriform evolution. Conflicto antarcticus
represents one (and possibly the most) substantial record of a non-marine Palaeocene bird from the Southern
Hemisphere and supports the hypothesis that Neognathae had already diversified in the earliest Palaeocene.