Scan of specimen ummz:mammals:120316 (Atlantoxerus getulus) - Skull. Raw Dataset includes 1601 TIF images (each 1844 x 1163 x 1 voxel at 0.02780031 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:120316 (Atlantoxerus getulus) - Skull. Reconstructed Dataset includes 1096 TIF images (each 1844 x 1163 x 1 voxel at 0.027800 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:115521 (Galictis vittata) - Skull. Raw Dataset includes 1601 TIF images (each 1092 x 1822 x 1 voxel at 0.05050975 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:115521 (Galictis vittata) - Skull. Reconstructed Dataset includes 854 TIF images (each 1092 x 1822 x 1 voxel at 0.050510 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:109943 (Dymecodon pilirostris) - Skull. Raw Dataset includes 1601 TIF images (each 870 x 1562 x 1 voxel at 0.01504148 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:109943 (Dymecodon pilirostris) - Skull. Reconstructed Dataset includes 879 TIF images (each 870 x 1562 x 1 voxel at 0.015041 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:104280 (Heterohyrax brucei rudolfi) - Skull. Raw Dataset includes 1601 TIF images (each 1864 x 1156 x 1 voxel at 0.03283441 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:104280 (Heterohyrax brucei rudolfi) - Skull. Reconstructed Dataset includes 1383 TIF images (each 1864 x 1156 x 1 voxel at 0.032834 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
Scan of specimen ummz:mammals:102504 (Glirulus JAPONICUS) - Skull. Raw Dataset includes 1601 TIF images (each 1753 x 1433 x 1 voxel at 0.0207215 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:102504 (Glirulus JAPONICUS) - Skull. Reconstructed Dataset includes 718 TIF images (each 1753 x 1433 x 1 voxel at 0.020722 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
The dataset contains the numerical data used to produce figures 2-14 and S1-S8 (Figure 1 is purely schematic and is uploaded as a tif file for completeness - it does not contain any new data). These files contain the transient UV-visible, X-ray absorption, and X-ray emission data that were used to characterize the dynamics of methyl cobalamin at neutral pH and to compare this to adenosyl cobalamin. Details of data collection and reduction are provided in the associated manuscript. Data files are all text files which contain tab-delimited columns of data corresponding to each figure in the manuscript.
Scan of specimen ummz:mammals:156532 (Chibchanomys TRICHOTIS) - Skull. Raw Dataset includes 1601 TIF images (each 604 x 629 x 1 voxel at 0.02709389 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction. and Scan of specimen ummz:mammals:156532 (Chibchanomys TRICHOTIS) - Skull. Reconstructed Dataset includes 1578 TIF images (each 604 x 629 x 1 voxel at 0.027094 mm resolution, derived from 1601 scan projections), xtek and vgi files for volume reconstruction.
The scanned humerus is an isolated element that is referred to the pterosaur Arambourgiania philadelphiae. The element is accessioned to Yarmouk University (YUPC-RUSEIFA-1) in the Hashemite Kingdom of Jordan. The specimen was collected from Late Cretaceous-aged sediments at the Ruseifa Quarry in central Jordan. For inquiries about access to the specimen, please contact Jeff Wilson Mantilla ( wilsonja@umich.edu) or Iyad Zalmout ( izalmout@ksu.edu.sa). Casts of this element of Arambourgiania are available at the University of Michigan Museum of Paleontology.
Rosenbach, K. L., D. M. Goodvin, M. G. Albshysh, H. A. Azzam, A. A. Smadi, H. A. Mustafa, I. S. A. Zalmout, and J. A. Wilson Mantilla. [in press] New pterosaur remains from the Late Cretaceous of Afro-Arabia provide insight into flight capacity of large pterosaurs. Journal of Vertebrate Paleontology.
The scanned proximal left humerus is part of an associated skeleton of the pterosaur Inabtanin alarabia, accessioned to Yarmouk University (YUPC-INAB-6-001–010) in the Hashemite Kingdom of Jordan. The specimen was collected from Late Cretaceous-aged sediments near Tal Inab in south-central Jordan, which is 34 km north of the current border with Saudi Arabia. For inquiries about access, please contact Jeff Wilson Mantilla ( wilsonja@umich.edu) or Iyad Zalmout ( izalmout@ksu.edu.sa). Casts of this and other elements of Inabtanin are available at the University of Michigan Museum of Paleontology.
Rosenbach, K. L., D. M. Goodvin, M. G. Albshysh, H. A. Azzam, A. A. Smadi, H. A. Mustafa, I. S. A. Zalmout, and J. A. Wilson Mantilla. [in press] New pterosaur remains from the Late Cretaceous of Afro-Arabia provide insight into flight capacity of large pterosaurs. Journal of Vertebrate Paleontology.
The scanned distal right humerus is part of an associated skeleton of the pterosaur Inabtanin alarabia, accessioned to Yarmouk University (YUPC-INAB-6-001–010) in the Hashemite Kingdom of Jordan. The specimen was collected from Late Cretaceous-aged sediments near Tal Inab in south-central Jordan, which is 34 km north of the current border with Saudi Arabia. For inquiries about access, please contact Jeff Wilson Mantilla ( wilsonja@umich.edu) or Iyad Zalmout ( izalmout@ksu.edu.sa). Casts of this and other elements of Inabtanin alarabia are available at the University of Michigan Museum of Paleontology.
Rosenbach, K. L., D. M. Goodvin, M. G. Albshysh, H. A. Azzam, A. A. Smadi, H. A. Mustafa, I. S. A. Zalmout, and J. A. Wilson Mantilla. [in press] New pterosaur remains from the Late Cretaceous of Afro-Arabia provide insight into flight capacity of large pterosaurs. Journal of Vertebrate Paleontology.