GigaScience | |
A dataset describing brooding in three species of South African brittle stars, comprising seven high-resolution, micro X-ray computed tomography scans | |
Charles L. Griffiths2  Anton Du Plessis1  Jannes Landschoff2  | |
[1] CT Scanner, Central Analytical Facility, Stellenbosch University, Stellenbosch, South Africa;Department of Biological Sciences and Marine Research Institute, University of Cape Town, Rondebosch, South Africa | |
关键词: Brittle stars; μCT; Brood care; Morphology; Anatomy; Imaging; Scanning; Ophiuroids; Micro CT; | |
Others : 1233608 DOI : 10.1186/s13742-015-0093-2 |
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received in 2015-01-26, accepted in 2015-10-29, 发布年份 2015 | |
【 摘 要 】
Background
Brooding brittle stars have a special mode of reproduction whereby they retain their eggs and juveniles inside respiratory body sacs called bursae. In the past, studying this phenomenon required disturbance of the sample by dissecting the adult. This caused irreversible damage and made the sample unsuitable for future studies. Micro X-ray computed tomography (μCT) is a promising technique, not only to visualise juveniles inside the bursae, but also to keep the sample intact and make the dataset of the scan available for future reference.
Findings
Seven μCT scans of five freshly fixed (70 % ethanol) individuals, representing three differently sized brittle star species, provided adequate image quality to determine the numbers, sizes and postures of internally brooded young, as well as anatomy and morphology of adults. No staining agents were necessary to achieve high-resolution, high-contrast images, which permitted visualisations of both calcified and soft tissue. The raw data (projection and reconstruction images) are publicly available for download from GigaDB.
Conclusions
Brittle stars of all sizes are suitable candidates for μCT imaging. This explicitly adds a new technique to the suite of tools available for studying the development of internally brooded young. The purpose of applying the technique was to visualise juveniles inside the adult, but because of the universally good quality of the dataset, the images can also be used for anatomical or comparative morphology-related studies of adult structures.
【 授权许可】
2015 Landschoff et al.
【 预 览 】
Files | Size | Format | View |
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20151122040845246.pdf | 1288KB | download | |
Fig. 1. | 48KB | Image | download |
【 图 表 】
Fig. 1.
【 参考文献 】
- [1]Hendler G. Echinodermata: Ophiuroidea. In: Reproduction of marine invertebrates. Giese A, Pearse JS, Pearse VB, editors. Boxwood Press, Pacific Groove California; 1991: p.355-511.
- [2]Ziegler A. Broad application of non-invasive imaging techniques to echinoids and other echinoderm taxa. Zoosymposia. 2012; 7:53-70.
- [3]Lenihan J, Kvist S, Fernández R, Giribet G, Ziegler A. A dataset comprising four micro-computed tomography scans of freshly fixed and museum earthworm specimens. Gigascience. 2014; 3:6. BioMed Central Full Text
- [4]Landschoff J, Griffiths CL. Three-dimensional visualisation of brooding behaviour in two distantly related brittle stars from South African waters. Afr J Mar Sci. 2015.
- [5]Landschoff J, Griffiths CL. Brooding behavior in the shallow-water brittle star Ophioderma wahlbergii. Invertebr Biol. 2015; 134:168-179.
- [6]Kak AC, Slaney M. Principles of computerized tomographic imaging. IEEE, New York; 1988.
- [7]Ziegler A, Faber C, Mueller S, Bartolomaeus T. Systematic comparison and reconstruction of sea urchin (Echinoidea) internal anatomy: a novel approach using magnetic resonance imaging. BMC Biol. 2008; 6:33. BioMed Central Full Text
- [8]Volume Graphics GmbH. http://www.volumegraphics.com (2015). Accessed 1 June 2015.
- [9]Landschoff J, Du Plessis A, Griffiths CL. 3-dimensional microCT reconstructions of brooding brittle stars. GigaSci Database. 2015.