Add to ORKG© 2018, Paläontologische Gesellschaft. A new fossil amniote from the Fossil Forest of Chemnitz (Sakmarian-Artinskian transition, Germany) is described as Ascendonanus nestleri gen. et sp. nov., based on five articulated skeletons with integumentary preservation. The slender animals exhibit a generalistic, lizard-like morphology. However, their synapsid temporal fenestration, ventrally ridged centra and enlarged iliac blades indicate a pelycosaur-grade affiliation. Using a renewed data set for certain early amniotes with a similar typology found Ascendonanus to be a basal varanopid synapsid. This is the first evidence of a varanopid from Saxony and the third from Central Europe, as well as the smallest varanopid at all. Its greatly elongated...
The Torre del Porticciolo fossil locality is notable for producing the first osteological material o...
Amniotes comprise all mammals and reptiles, accounting for almost four fifths of all land vertebrate...
Sauria is the crown-group of Diapsida and is subdivided into Lepidosauromorpha and Archosauromorpha,...
© 2018, Paläontologische Gesellschaft. A new fossil amniote from the Fossil Forest of Chemnitz (Sakm...
Basal synapsids ('pelycosaurs') form the basalmost portion of the mammalian stem lineage and documen...
Terrestrial ecosystems during the Pennsylvanian (late Carboniferous) and Cisuralian (early Permian) ...
Basal synapsids (‘pelycosaurs’) form the basalmost portion of the mammalian stem lineage and documen...
© 2019, Paläontologische Gesellschaft. Based on an exceptionally well-preserved articulated postcran...
Amniotes include mammals, reptiles and birds, representing 75% of extant vertebrate species on land....
‘Mycterosaurus’ smithae, from the Cisuralian (early Permian) of Colorado, was first described in 196...
The earliest known neodiapsid Orovenator mayorum from the early Permian of Oklahoma is redescribed u...
<div><p><i>‘Mycterosaurus’ smithae</i>, from the Cisuralian (early Permian) of Colorado, was first d...
The origin of amniotes 320 million years ago signaled independence from water in vertebrates and was...
Pelycosaur-grade synapsids represent the first amniotes to successfully adapt to a wide range of fee...
The earliest known neodiapsid Orovenator mayorum from the lower Permian of Oklahoma is redescribed u...
The Torre del Porticciolo fossil locality is notable for producing the first osteological material o...
Amniotes comprise all mammals and reptiles, accounting for almost four fifths of all land vertebrate...
Sauria is the crown-group of Diapsida and is subdivided into Lepidosauromorpha and Archosauromorpha,...
© 2018, Paläontologische Gesellschaft. A new fossil amniote from the Fossil Forest of Chemnitz (Sakm...
Basal synapsids ('pelycosaurs') form the basalmost portion of the mammalian stem lineage and documen...
Terrestrial ecosystems during the Pennsylvanian (late Carboniferous) and Cisuralian (early Permian) ...
Basal synapsids (‘pelycosaurs’) form the basalmost portion of the mammalian stem lineage and documen...
© 2019, Paläontologische Gesellschaft. Based on an exceptionally well-preserved articulated postcran...
Amniotes include mammals, reptiles and birds, representing 75% of extant vertebrate species on land....
‘Mycterosaurus’ smithae, from the Cisuralian (early Permian) of Colorado, was first described in 196...
The earliest known neodiapsid Orovenator mayorum from the early Permian of Oklahoma is redescribed u...
<div><p><i>‘Mycterosaurus’ smithae</i>, from the Cisuralian (early Permian) of Colorado, was first d...
The origin of amniotes 320 million years ago signaled independence from water in vertebrates and was...
Pelycosaur-grade synapsids represent the first amniotes to successfully adapt to a wide range of fee...
The earliest known neodiapsid Orovenator mayorum from the lower Permian of Oklahoma is redescribed u...
The Torre del Porticciolo fossil locality is notable for producing the first osteological material o...
Amniotes comprise all mammals and reptiles, accounting for almost four fifths of all land vertebrate...
Sauria is the crown-group of Diapsida and is subdivided into Lepidosauromorpha and Archosauromorpha,...