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6.
Astrobiology ; 19(3): 462-477, 2019 03.
Artigo em Inglês | MEDLINE | ID: mdl-30840504

RESUMO

Exploration analog field tests, missions, and deployments enable the integration and validation of new and experimental concepts and/or technologies through strategic experimental design. The results of these operations often create new capabilities for exploration and increase confidence in, and credibility of, emerging technologies, usually at very low cost and risk to the test subjects involved. While these experiments resemble missions 10-30 years into the future, insights obtained are often of immediate value. Knowledge gained in the field translates into strategic planning data to assist long-range exploration planners, and planners influence the experimental design of field deployments, creating a synergistic relationship. The Biologic Analog Science Associated with Lava Terrains (BASALT) communication architecture is a high-fidelity analog program that emulates conditions impacting future explorers on the martian surface. This article provides (1) a brief historical review of past analog operations that deliberately used elements of a flight-like telecommunication infrastructure to add fidelity to the test, (2) samples of the accomplishments made through analog operations, and (3) potentially significant deep-space telecommunication insights gained from the BASALT program in support of future extravehicular activity exploration of Mars. This article is paired with and complements Miller et al. in this issue which focuses on the telecommunication infrastructure utilized by the BASALT team during the field deployment.


Assuntos
Exobiologia/organização & administração , Marte , Comunicações Via Satélite/organização & administração , Voo Espacial/organização & administração , Simulação de Ambiente Espacial , Astronautas , Comunicação , Exobiologia/história , Exobiologia/tendências , Previsões , História do Século XX , Humanos , Comunicações Via Satélite/história , Comunicações Via Satélite/tendências , Voo Espacial/história , Voo Espacial/tendências , Planejamento Estratégico , Estados Unidos , United States National Aeronautics and Space Administration
7.
Astrobiology ; 18(2): 224-243, 2018 02.
Artigo em Inglês | MEDLINE | ID: mdl-29377716

RESUMO

The UK Centre for Astrobiology (UKCA) was set up in 2011 as a virtual center to contribute to astrobiology research, education, and outreach. After 5 years, we describe this center and its work in each of these areas. Its research has focused on studying life in extreme environments, the limits of life on Earth, and implications for habitability elsewhere. Among its research infrastructure projects, UKCA has assembled an underground astrobiology laboratory that has hosted a deep subsurface planetary analog program, and it has developed new flow-through systems to study extraterrestrial aqueous environments. UKCA has used this research backdrop to develop education programs in astrobiology, including a massive open online course in astrobiology that has attracted over 120,000 students, a teacher training program, and an initiative to take astrobiology into prisons. In this paper, we review these activities and others with a particular focus on providing lessons to others who may consider setting up an astrobiology center, institute, or science facility. We discuss experience in integrating astrobiology research into teaching and education activities. Key Words: Astrobiology-Centre-Education-Subsurface-Analog research. Astrobiology 18, 224-243.


Assuntos
Planeta Terra , Educação/organização & administração , Exobiologia/educação , Meio Ambiente Extraterreno , Educação/história , Educação/métodos , Educação a Distância , Exobiologia/história , Exobiologia/métodos , Exobiologia/organização & administração , História do Século XXI , Reino Unido
8.
Astrobiology ; 18(2): 207-223, 2018 02.
Artigo em Inglês | MEDLINE | ID: mdl-29319335

RESUMO

Viruses are the most abundant biological entities on modern Earth. They are highly diverse both in structure and genomic sequence, play critical roles in evolution, strongly influence terran biogeochemistry, and are believed to have played important roles in the origin and evolution of life. However, there is yet very little focus on viruses in astrobiology. Viruses arguably have coexisted with cellular life-forms since the earliest stages of life, may have been directly involved therein, and have profoundly influenced cellular evolution. Viruses are the only entities on modern Earth to use either RNA or DNA in both single- and double-stranded forms for their genetic material and thus may provide a model for the putative RNA-protein world. With this review, we hope to inspire integration of virus research into astrobiology and also point out pressing unanswered questions in astrovirology, particularly regarding the detection of virus biosignatures and whether viruses could be spread extraterrestrially. We present basic virology principles, an inclusive definition of viruses, review current virology research pertinent to astrobiology, and propose ideas for future astrovirology research foci. Key Words: Astrobiology-Virology-Biosignatures-Origin of life-Roadmap. Astrobiology 18, 207-223.


Assuntos
Exobiologia/métodos , Meio Ambiente Extraterreno , Planetas , Virologia/métodos , Vírus , Exobiologia/história , História do Século XXI , Virologia/história
17.
Sci Am ; 309(1): 92, 2013 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-23821870
19.
Astrobiology ; 13(4): 391-403, 2013 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-23551238

RESUMO

This year marks the 50(th) anniversary of a proposal by Alex Rich that RNA, as a single biopolymer acting in two capacities, might have supported both genetics and catalysis at the origin of life. We review here both published and previously unreported experimental data that provide new perspectives on this old proposal. The new data include evidence that, in the presence of borate, small amounts of carbohydrates can fix large amounts of formaldehyde that are expected in an environment rich in carbon dioxide. Further, we consider other species, including arsenate, arsenite, phosphite, and germanate, that might replace phosphate as linkers in genetic biopolymers. While linkages involving these oxyanions are judged to be too unstable to support genetics on Earth, we consider the possibility that they might do so in colder semi-aqueous environments more exotic than those found on Earth, where cosolvents such as ammonia might prevent freezing at temperatures well below 273 K. These include the ammonia-water environments that are possibly present at low temperatures beneath the surface of Titan, Saturn's largest moon.


Assuntos
Biopolímeros/química , Boratos/química , Meio Ambiente Extraterreno/química , Origem da Vida , RNA/química , Exobiologia/história , História do Século XX , RNA/história
20.
Astrobiology ; 12(12): 1154-6, 2012 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-23163911

RESUMO

The word astrobiology was possibly first used in 1935, in an article published in a French popular science magazine. The author was Ary J. Sternfeld (1905-1980), a pioneer of astronautics who wrote numerous scientific books and papers. The article is remarkable because his portrayal of the concept is very similar to the way it is used today. Here I review the 1935 article and provide a brief history of Sternfeld's life, which was heavily influenced by the tragic events of 20(th) century history.


Assuntos
Exobiologia/história , França , História do Século XX , Humanos , Polônia , Ciência/história , Terminologia como Assunto , U.R.S.S.
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