https://doi.org/10.4081/jlimnol.2013.s1.e11

Element analysis of the eutardigrades Richtersius coronifer and Milnesium cf. asiaticum using Particle Induced X-ray Emission (PIXE)

Vol. 72 No. s1 (2013): 12th International Symposium on Tardigrada
Submitted: 27 March 2013
Accepted: 27 March 2013
Published: 3 May 2013
tardigrades, Richtersius coronifer, Milnesium cf. asiaticum, PIXE, radiation tolerance.
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Authors

Charlotta Nilsson
charlotta.nilsson@nuclear.lu.se
Lund University, Sweden.
Ingemar Jönsson
Kristianstad University, Sweden.
Jan Pallon
Lund University, Sweden.
Semi-terrestrial tardigrades are well-known for their tolerance to a variety of environmental extremes, including desiccation, freezing and radiation. Despite several attempts to reveal the genetic and molecular mechanisms behind the resilience of tardigrades, it is still unknown how these animals are able to maintain the integrity of their cellular components under severe stress. Quantitative or qualitative changes in molecular compounds (e.g., carbohydrates, proteins) are expected, and have been the main line of research towards understanding the tolerance of tardigrades. In radiation tolerant bacteria, a tolerance mechanism based on manganese has been proposed. We evaluate this hypothesis in tardigrades and provide the first data on element composition in desiccated and non-desiccated specimens of two eutardigrade species, Richtersius coronifer and Milnesium cf. asiaticum. A focused 2 MeV proton microbeam was utilised to determine the elemental content, distributions and concentrations, using the ion beam analytical technique particle induced X-ray emission (PIXE). The presence of six elements – phosphorus, sulphur, chlorine, potassium, calcium and iron – were confirmed in all tardigrade specimens, at levels up to a few mg g–1. However, manganese was found in less than 10% of the analysed specimens, and in low amounts, thus our study provides no evidence for the manganese hypothesis. We also show that the distributions and/or concentrations of some elements differ between the two species as well as between the dehydrated and hydrated state. In particular, very low levels of iron were found in dehydrated M. cf. asiaticum. Our analysis shows that the PIXE technique is a useful tool for investigating questions on the distribution of elements both in dehydrated and hydrated tardigrades.

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Supporting Agencies

Financial support from The Gyllenstierna Krapperup’s Foundation (to E.J.C. Nilsson), and the Swedish Space Agency (to K.I. Jönsson) is gratefully acknowledged
Charlotta Nilsson, Lund University
Division of Nuclear Physics, Department of Physics
Ingemar Jönsson, Kristianstad University
School of Education and Environment
Jan Pallon, Lund University
Division of Nuclear Physics, Department of Physics

How to Cite

Nilsson, Charlotta, Ingemar Jönsson, and Jan Pallon. 2013. “Element Analysis of the Eutardigrades Richtersius Coronifer and Milnesium Cf. Asiaticum Using Particle Induced X-Ray Emission (PIXE)”. Journal of Limnology 72 (s1):e11. https://doi.org/10.4081/jlimnol.2013.s1.e11.

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