Media 000126020: Sternum
Open Download
Type Mesh
Modality X-Ray Computed Tomography (CT/microCT)
Media represents biological specimen
Managed by

Media Display

TAGS

No tags found.

GENERAL DETAILS Field Definitions

Media ID
000126020
Media type
Mesh
Object element or part
sternum
Object represented
Object taxonomy
Anas chlorotis
Side
--
Orientation
--
Short description
--
Full description
Migrated MorphoSource 1 Media Group Title: Micro-CT volume and derivative mesh files
Creator
--
Date created
--
Date uploaded
July 14, 2020

FILE OBJECT DETAILS Field Definitions

File name
Anas_aucklandica_NHMUK_S_2006.39.1_Sternum.ply
File format(s)
PLY
File size
116 MB
Points
1549926
Polygons
3093762
Map type
--
UV coordinates
False
Vertex color
False
Bounding box dimensions
40.717, 33.501, 66.702
Centroid coordinates
22.717, 43.322, 73.644
Units of point coordinates
Mm

IMAGE ACQUISITION AND PROCESSING AT A GLANCE Field Definitions

Number of parent media
1
Number of processing events
2 (0 steps)
Modality
X-Ray Computed Tomography (CT/microCT)
Device
Nikon Metrology XT H 225 ST, School of Earth Sciences Xray Tomography (XTM) Facility (University of Bristol)

OWNERSHIP AND PERMISSIONS Field Definitions

Data managed by
Data uploaded by
Publication status
Open Download
Download reviewer
--
IP holder
Natural History Museum, London
Copyright statement
Morphosource use agreement type
Standard
Permits commercial use
Commercial Use Not Permitted
Permits 3D use
3D Printing Limited
Required archival of published derivatives
On Any Repository
Funding attribution
the European Research Council (ERC) starting grant TEMPO (ERC-2015-STG-677774) to Roger Benson
Publisher
--
Cite as
Roger Benson provided access to these dataoriginally appearing in Lowi-Merri et al. 2021. The relationship between sternum variation and mode of locomotion in birds. BMC Biology 19, 165 [https://doi.org/10.1186/s12915-021-01105-1], the collection of which was funded by the European Research Council (ERC) starting grant TEMPO (ERC-2015-STG-677774) to Roger Benson. The files were downloaded from www.MorphoSource.org, Duke University.
Media preview mode
Interactive/Embeddable
Additional usage agreement
None

IDENTIFIERS AND EXTERNAL LINKS Field Definitions

MorphoSource ARK
MorphoSource DOI
Not assigned
External identifier
--
External media URL
--

IMAGE ACQUISITION AND PROCESSING IN DETAIL

STEP 1: IMAGE ACQUISITION

Physical object NHMUK:ZOO:S/2006.39.1 was imaged to create undeposited raw media.

IMAGING DETAILS Field Definitions

Modality
X-Ray Computed Tomography (CT/microCT)
Device
Nikon Metrology XT H 225 ST
Device facility
School of Earth Sciences Xray Tomography (XTM) Facility (University of Bristol)
Creator
Roger Benson, Tom Davies
Event date
May 11, 2021
Software
--
Description
--
Description attachment
None
Reference attachment
None
Exposure time
0.5
Flux normalization
No
Pixel spacing calibration
--
Shading correction
Yes
Frame averaging
1
Projections
1441
Voltage
125
Power
--
Amperage
176
Surrounding material
--
X-ray tube type
--
Target type
--
Detector type
--
Detector pixels X
--
Detector pixels size X
--
Detector pixels Y
--
Detector pixels size Y
--
Detector configuration
--
Source object distance
--
Source detector distance
--
Target material
--
Rotation number
--
Phase contrast
--
Optical magnification
--
Acquisition type
--

STEP 2: IMAGE PROCESSING

Raw media (undeposited) was processed to create derived Media 000126015: Element Unspecified [CTImageSeries] [CT].

Processing Details Field Definitions

Creator
Roger Benson, Tom Davies
Event date
May 11, 2021
Software
--
Description
--
Description attachment
None

Media produced by this event on MorphoSource

STEP 3: IMAGE PROCESSING

Derived Media 000126015: Element Unspecified [CTImageSeries] [CT] was processed to create derived Media 000126020: Sternum [Mesh] [CT] (this media).

Processing Details Field Definitions

Creator
Roger Benson, Tom Davies
Event date
--
Software
--
Description
--
Description attachment
None

Media produced by this event on MorphoSource

Media 000126020: Sternum [Mesh] [CT] (this media)