Add to ORKGMost Palaeozoic brittle stars lack the fused arm ossicles (vertebrae) that facilitate the remarkable mode of walking that characterizes living forms. Here we describe a stem ophiuroid from the Herefordshire Lagerstätte (Silurian, Wenlock Series), which is exceptional in preserving the body cavity uncompacted and the long tube feet. We assign the specimen to the order Oegophiurida. The morphology of the arms and attitude of the specimen suggest that locomotion may have been achieved by arm propulsion combined with podial walking. This ophiuroid increases the diversity of echinoderm higher taxa with preserved soft parts represented in the Herefordshire Lagerstätte
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
The Lower Triassic fossil record of brittle stars is relatively rich, yet most records published to ...
Most Palaeozoic brittle stars lack the fused arm ossicles (vertebrae) that facilitate the remarkable...
Echinoderms are unique in having a water vascular system with tube feet, which perform a variety of ...
Palaeozoic asteroids represent a stem-group to the monophyletic post-Palaeozoic Neoasteroidea, but m...
Silurian echinoderms from Ireland are poorly known; hitherto, only three nominal species have been d...
'Articulated' rhynchonelliformean brachiopods are abundant shelly fossils, but the direct fossil rec...
Echinoderms are unique in having a water vascular system with tube feet, which perform a variety of ...
Ophiuroidea are one of the most diverse classes among extant echinoderms, characterized by their fle...
Lapworthura lehmanni, a new species of ophiuroid, is described from four specimens from the Lower De...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
Understanding the water vascular system (WVS) in early fossil echinoderms is critical to elucidating...
Pivotal anatomical innovations often seem to appear by chance when viewed through the lens of the fo...
Ophiuroids (brittle stars and basket stars) are a diverse echinoderm group (i.e. star fish, sea urch...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
The Lower Triassic fossil record of brittle stars is relatively rich, yet most records published to ...
Most Palaeozoic brittle stars lack the fused arm ossicles (vertebrae) that facilitate the remarkable...
Echinoderms are unique in having a water vascular system with tube feet, which perform a variety of ...
Palaeozoic asteroids represent a stem-group to the monophyletic post-Palaeozoic Neoasteroidea, but m...
Silurian echinoderms from Ireland are poorly known; hitherto, only three nominal species have been d...
'Articulated' rhynchonelliformean brachiopods are abundant shelly fossils, but the direct fossil rec...
Echinoderms are unique in having a water vascular system with tube feet, which perform a variety of ...
Ophiuroidea are one of the most diverse classes among extant echinoderms, characterized by their fle...
Lapworthura lehmanni, a new species of ophiuroid, is described from four specimens from the Lower De...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
Understanding the water vascular system (WVS) in early fossil echinoderms is critical to elucidating...
Pivotal anatomical innovations often seem to appear by chance when viewed through the lens of the fo...
Ophiuroids (brittle stars and basket stars) are a diverse echinoderm group (i.e. star fish, sea urch...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
Reconstructing the evolutionary assembly of animal body plans is challenging when there are large mo...
The Lower Triassic fossil record of brittle stars is relatively rich, yet most records published to ...