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Results found: 10
MicroCT scan of a Southern three-banded armadillo (Tolypeutes matacus)
MicroCT (x-ray microcomputed tomography, YXLON FF35 CT) dataset of a southern three-banded armadillo or Azara's domed armadillo (Tolypeutes matacus) rolled fully up into a ball. The specimen is part of the mammal collection of the ...
Dataset to: "Bader et al. (2024) Diversity of limb long bone morphology among proboscideans: how to be the biggest one in the family"
3D models used in the publication by Bader et al.(2024). The dataset consists of 21 3D models of humerus, radius, ulna, femur, tibia and fibula bones from different species of the Elephantidae family.
MicroCT scan of the skull of a Dugong (Dugong dugon). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a dugong (Dugong dugon). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of an Asian elephant (Elephas maximus). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of an Asian elephant (Elephas maximus). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of a walrus (Odobenus rosmarus). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a walrus (Odobenus rosmarus). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of a platypus (Ornithorhynchus anatinus). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a platypus (Ornithorhynchus anatinus). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of a tucuxi (Sotalia fluviatilis). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a tucuxi (Sotalia fluviatilis). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of a Java mouse-deer (Tragulus javanicus). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a Java mouse-deer (Tragulus javanicus). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of a manatee (Trichechus sp). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a manatee (Trichechus sp). This dataset was part of a study on the evolution of the inner ear.
MicroCT scan of the skull of a Northern tamandua (Tamandua mexicana). Dataset to Grunstra et al. (2024) "Convergent evolution in Afrotheria and non-afrotherians demonstrates high evolvability of the mammalian inner ear"
MicroCT scan of the skull of a Northern tamandua (Tamandua mexicana). This dataset was part of a study on the evolution of the inner ear.