Macellicephala longipalpa MicroCT-scans for 3d reconstruction
Cite this dataset
Allentoft-Larsen, Marc Christian et al. (2021). Macellicephala longipalpa MicroCT-scans for 3d reconstruction [Dataset]. Dryad. https://doi.org/10.5061/dryad.ngf1vhhtg
Annelids are predominantly found along the seafloor, but over time have colonised a vast diversity of habitats, such as the water column, where different modes of locomotion are necessary. Yet, little is known about their potential muscular adaptation to the continuously swimming required in the water column. The musculature and motility were examined for five scale worm species of Polynoidae (Aphroditiformia, Annelida) found in shallow waters, deep sea and caves that exhibit crawling, occasional swimming or continuous swimming, respectively. Their parapodial musculature was reconstructed using microCT and computational 3D analyses and the muscular functions interpreted from video recordings of their locomotion. Since most benthic annelids are able to swim for short distances using body and parapodial muscle movements, suitable musculature for swimming and a pelagic lifestyle is already present. Our results also indicate that rather than rearrangements or addition of muscles, a shift to a pelagic lifestyle is mainly accompanied by structural loss of muscle bundles and density, as well as elongation of extrinsic dorsal and ventral parapodial muscles. In addition, our study documents clear differences in locomotion and muscular arrangement among closely related annelids with different lifestyles as well as points to myoanatomical adaptations for accessing the water column.
All microCT scans were made at the Smithsonian National Museum of Natural History, Washington D.C., USA. Scans were obtained from at least two individuals from each species for a resolution of 102.0 um/voxel for G. jameensis; 112.6um/voxel for P. iliffei; 71.208um/voxel for M. longipalpa; 103.3um/voxel for H. imbricata and 63.9um/voxel for Branchipolynoe sp. Specimens not already fixed in ethanol were dehydrated through a dilution series to70% ethanol. Postprocessing was done over a 2-3 step process from the initial fixative to DI-water, followed by an additional 3-5 incremental steps from water to 70% ethanol. Once in 70% ethanol, all animals were placed in either individual vials or 6-well plates covered with parafilm containing 0.3-0.6% PTA (phosphotungstic acid)in 70% ethanol. Samples were kept at room temperature with gentle rocking from 5-15 days. Fresh PTA was exchanged every 3-4 days. After staining, samples were washed with 70% ethanol over 2-3 days at room temperature with gentle rocking and regular rinsing. After rinsing, samples were prepared for scanning by being individually placed in pipette tips filled with either 70% ethanol or with 0.5% low melt agarose made with DI-water. Tips were pre-sealed at the bottom by melting over a flame before adding the sample, ethanol, or agarose. Melted paraffin was used to seal the tops of the pipette tips. To create a mount for the specimens, a single pipette tip was cut in half and hot-glued to ~2 mm carbon rod, then, in turn, each specimen within their own pipette tip was nested within the halved pipette tip and secured using dental wax. All specimens were scanned using the nanotube (180kV) on the GE Phoenix v|tome|x M 240/180kV Dual Tube micro CT machine.
Please read the ReadMe file.
The dataset contains a zipfile with all the raw data images and an AM-file which is the Amira file containing the labels (reconstructed muscles).
Simply unpack the zipfile to access the raw data scans. The AM file and the raw data scans can be imported into Amira or another suitable software, i.e. Fiji or IMARIS.
The AM file can be imported alone in above mentioned software but will, in that case only show the labels (reconstructed muscles).
Specimen was collected West of Greenland (70° 51’ N. 52° 01’ W, USNM 51968) in 1928 from 733 m.
Despite the age of the specimen, its condition is okay, however different parts of the body have collapsed. Resolution is okay but manipulating contrast and other image-improving adjustments are recommended. Some parapodia (appendages for locomotion) are bent due to the misfit of specimen and scanning tube. These should be avoided when reconstructing.