4 results on '"Kminek G"'
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2. Report of the COSPAR mars special regions colloquium.
- Author
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Kminek, G., Rummel, J.D., Cockell, C.S., Atlas, R., Barlow, N., Beaty, D., Boynton, W., Carr, M., Clifford, S., Conley, C.A., Davila, A.F., Debus, A., Doran, P., Hecht, M., Heldmann, J., Helbert, J., Hipkin, V., Horneck, G., Kieft, T.L., and Klingelhoefer, G.
- Subjects
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LOW temperatures , *MICROORGANISMS , *GEOLOGICAL surveys , *SPACE sciences , *MARTIAN exploration , *MARS (Planet) - Abstract
Abstract: In this paper we present the findings of a COSPAR Mars Special Regions Colloquium held in Rome in 2007. We review and discuss the definition of Mars Special Regions, the physical parameters used to define Mars Special Regions, and physical features on Mars that can be interpreted as Mars Special Regions. We conclude that any region experiencing temperatures>−25°C for a few hours a year and a water activity>0.5 can potentially allow the replication of terrestrial microorganisms. Physical features on Mars that can be interpreted as meeting these conditions constitute a Mars Special Region. Based on current knowledge of the martian environment and the conservative nature of planetary protection, the following features constitute Mars Special regions: Gullies and bright streaks associated with them, pasted-on terrain, deep subsurface, dark streaks only on a case-by-case basis, others to be determined. The parameter definition and the associated list of physical features should be re-evaluated on a regular basis. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
3. Determination of the microbial diversity of spacecraft assembly, testing and launch facilities: First results of the ESA project MiDiv
- Author
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Rettberg, P., Fritze, D., Verbarg, S., Nellen, J., Horneck, G., Stackebrandt, E., and Kminek, G.
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MICROBIAL diversity , *MICROORGANISMS , *SPACE environment , *HYDROGEN-ion concentration - Abstract
Abstract: In the near future, an increasing number of in situ life detection and sample return missions to planets and other solar system bodies will be launched. The demand to control spacecraft-carried microbial contamination becomes obvious. COSPAR (Committee of Space Research) has defined guidelines and bioburden limits for different types of missions and target bodies. The first step in the implementation of these planetary protection guidelines encompasses a qualitative and quantitative inventory of the bioburden of spacecraft assembly facilities. With information about the composition of these microbial communities the development and/or optimization of adequate cleaning, disinfection, and sterilization procedures for spacecraft preparation before launch will be possible. In the ESA project MiDiv, we started to investigate the diversity of cultivable microorganisms found on spacecraft and spacecraft assembly halls using the satellites SMART-1 and ROSETTA as test objects. The analyses to date include cultivation of microorganisms by varying pH, temperature, oxygen, and pasteurization. A culture collection of bacterial isolates and a database of 16S RNA gene sequences have been established. The results of our preliminary work, including the numbers of colony forming units, differentiated as aerobes and facultative anaerobes as well as their phylogenetic classification, give a first overview of the breadth of physiological potential of the identified microorganisms and their capability to withstand various cleaning and sterilizing procedures currently used for the planetary protection. [Copyright &y& Elsevier]
- Published
- 2006
- Full Text
- View/download PDF
4. Definition and use of functional analogues in planetary exploration.
- Author
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Foucher, F., Hickman-Lewis, K., Hutzler, A., Joy, K.H., Folco, L., Bridges, J.C., Wozniakiewicz, P., Martínez-Frías, J., Debaille, V., Zolensky, M., Yano, H., Bost, N., Ferrière, L., Lee, M., Michalski, J., Schroeven-Deceuninck, H., Kminek, G., Viso, M., Russell, S., and Smith, C.
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PLANETARY exploration , *INSTRUMENT flying , *SPACE exploration , *TRAIN schedules , *FUNCTIONAL beverages , *EXTRATERRESTRIAL life , *DEFINITIONS , *EVALUATION methodology - Abstract
The practical limitations inherent to human and robotic planetary exploration necessitate the development of specific protocols and methods. This non-standard approach requires testing and validation phases in order to optimise instrumental setups and improve data interpretation; this can occur prior to, during, or even after a mission. Flight instruments, and/or their spare models, may be evaluated using relevant terrestrial materials and/or locations. These materials are called analogues: "analogue sites" for large-scale locations, and "analogue samples" for smaller-scale materials. Depending on the scientific domain, the word "analogue" may carry different meanings but is invariably used to denote objects having compositions and/or physical properties similar to specific extraterrestrial objects. However, due to the variability in composition and properties of natural materials, there are always – inevitably – some differences between the analogue and the object(s) to which it refers. In analogue studies, it is, thus, important to focus on the specific properties that need to be imitated and to consider analogue properties rather than analogue sites or samples alone. Here, we introduce the concept of "functional analogues". We first make an overview of the different types of analogues and sort them according to their utility. We then describe how different types of functional analogues can be used throughout the timeline of space missions, from the evaluation of different methods in the definition of a mission to understanding the results acquired by probes exploring extraterrestrial bodies. Finally, logical pathways are outlined that facilitate the selection of the best-suited functional analogue(s) according to their intended use and taking into account practical limitations. • There are inevitably some differences between an analogue and the object(s) to which it refers. • "Functional analogues" are defined according to the specific properties that need to be imitated. • Functional analogues are useful throughout the timeline of space missions (before, during and after). • Logical pathways permit the selection of the best-suited functional analogue(s). [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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