9 Wesson P S. Panspermia, past and present: Astrophysical and biophysical conditions for the dissemination of life in space. Space Sci Rev, 2010 90 Wickramasinghe N C, Wickramasinghe D T, Steele E J Comets, Enceladus and panspermia. Astrophys Space Sci, 2018, 363: 244 91 MoissI-Eichinger C, Cockell C, Rettberg P, et al. Venturing into new realms? Microorganisms in space. FEMS Microbiol Rev, 2016, 40: 722-737 92 Witze A Can NASA really return people to the Moon by 2024? Nature, 2019, 571: 153-154 93 Foing B. Towards a moon village: Vision and opportunities. EGU Gen Assem, 2016, 18: EPSC2016-15695 94 Menezes AA, Cumbers 3, Hogan J A, et al. Towards synthetic biological approaches to resource utilization on space missions. JR Soc Interface, 2015,12:20140715 95 Rothschild L J Synthetic biology meets bioprinting: Enabling technologies for humans on Mars(and Earth). Biochem Soc Trans, 2016, 44: 1158- 64 96 Menezes AA, Montague M G, Cumbers J, et al. Grand challenges in space synthetic biology. J R Soc Interface, 2015, 12: 20150803 97 Rummel J D. Planetary exploration in the time of astrobiology: Protecting against biological contamination. Proc Natl Acad Sci USA, 2001, 98: 28-2131 98 Meltzer M. When Biospheres Collide: A History of NASA's Planetary Protection Program. Washington DC: US Government Printing Office, 99 Rummel J D. From planetary quarantine to planetary protection: A NASA and international story. Astrobiology, 2019, 19: 624-627 00 Fairen A G, Schulze-Makuch D. The overprotection of Mars. Nat Geosci, 2013, 6: 510-511 101 Fairen A G, Parro V, Schulze-Makuch D, et al. Searching for life on Mars before it is too late. Astrobiology, 2017, 17: 962-970 102 Rummel J D, Conley C A. Four fallacies and an oversight: Searching for Martian life. Astrobiology, 2017, 17: 971-974 103 Shang P, Hu Y T, Yang Z Q, et al. Tendency and critical scientific issues of space life science in China(in Chinese). Sci Sin Tech, 2015, 45:796- 808[商澎,呼延霆,杨周岐,等.中国空间生命科学的关键科学问题和发展方向中国科学:技术科学,2015,45:796-808] 104 Liu C T, Chang D Space Microbiology Basic Research and Application(in Chinese). Beijing: Peking University Medical Press, 2016 [ XRRE 德空间微生物学基础与应用研究.北京:北京大学医学出版社,2016 105 Liu H, Gitelzon Il, Hu E Z, et al. Theory and Technology of Bioregernative Life Support System(in Chinese). Beijing: Science Press, 2009 (L, Gitelzon II胡恩柱,等生物再生生命保障系统理论与技术.北京:科学出版社,2009 106 Gerda h, Zhuang f y. Astrobiology( in Chinese) Beijing: China Astronautic Publishing House,2010[格尔达霍内克,庄逢源.宇宙生物学北 京:中国宇航出版社,201 107 Chinese Academy of Sciences Development Strategy of China Disciplines Geobiology(in Chinese). Beijing: Science Press, 2015 [pEF BE. 国学科发展战略地球生物学北京:科学出版社,2015 108 Shang P, Yang P F, Lu Y Space Biology and Space Biotechnology(in Chinese). Xi'an: Northwestern Polytechnical University Press, 2016 [a il. 杨鹏飞,吕毅空间生物学与空间生物技术西安:西北工业大学出版社,2016 109 Wu F Y, Wei Y, Song Y H, et al. From fusion of research and teaching to leading of science-Strategy to build planetary science program with Chinese characteristics( in Chinese). Bull Chin Acad Sci.,2019,34:741-747[吴福元魏勇,宋玉环等从科教融合到科学引领——中国特色 的行星科学建设思路中国科学院院刊,2019,34:741-747 110 Wan Wx, Wei Y, Guo ZT, et al. Toward a power of planetary science from a gaint of deep space exploration(in Chinese). Bull Chin Acad Sci, 2019,34:748-755[万卫星,魏勇,郭正堂,等.从深空探测大国迈向行星科学强国中国科学院院刊,2019.34:748-755 111 Wei Y, Zhu R X Planetary science: Frontier of science and national strategy(in Chinese). Bull Chin Acad Sci, 2019, 34: 756-759 [599, HME 行星科学:科学前沿与国家战略.中国科学院院刊,2019,34.756-759 112 Li X Y, Lin W, Xiao Z Y, et al. Planetary geology: "Extraterrestrial "model of geology(in Chinese). Bull Chin Acad Sci, 2019, 34: 776-784 ER 耀,林巍,肖智勇,等行星地质学:地质学的地外模式,中国科学院院刊,2019,34:776-784 113 Des Marais D J, Allamandola L J, Benner SA, et al. The NASA Astrobiology Roadmap Astrobiology, 2003, 3: 219-235 114 Board SS, National Academies of Sciences, Engineering, and Medicine. An Astrobiology Strategy for the Search for Life in the Universe Washington DC: National Academies Press. 2019 115 Hays L, Archenbach L, Bailey J, et al. NASA Astrobiology Strategy. Washington DC: NASA, 2015 116 Cockell C S, Biller B, Bryce C, et al. The UK Centre for Astrobiology: A virtual Astrobiology centre. Accomplishments and lessons learned, 2011-2016. Astrobiology,2018,18:224243 117 Duner D. Introduction: The history and philosophy of Astrobiology. Astrobiology, 2012, 12: 901-905 118 Quinlan C L. Bringing Astrobiology down to Earth. Am Biol Teach, 2015, 77: 567-574 119 Staley J T. Astrobiology, the transcendent science: The promise of astrobiology as an integrative approach for science and engineering education and research. Curr Opin Biotech, 2003, 14: 347-354 DownloadedtoIp:192.168.0.213On:2019-12-2610:0034http:/engine.scichina.com/dou/10.1360/tb-2019-039689 Wesson P S. Panspermia, past and present: Astrophysical and biophysical conditions for the dissemination of life in space. Space Sci Rev, 2010, 156: 239–252 90 Wickramasinghe N C, Wickramasinghe D T, Steele E J. Comets, Enceladus and panspermia. Astrophys Space Sci, 2018, 363: 244 91 Moissl-Eichinger C, Cockell C, Rettberg P, et al. Venturing into new realms? Microorganisms in space. FEMS Microbiol Rev, 2016, 40: 722–737 92 Witze A. Can NASA really return people to the Moon by 2024? Nature, 2019, 571: 153–154 93 Foing B. Towards a moon village: Vision and opportunities. EGU Gen Assem, 2016, 18: EPSC2016-15695 94 Menezes A A, Cumbers J, Hogan J A, et al. Towards synthetic biological approaches to resource utilization on space missions. J R Soc Interface, 2015, 12: 20140715 95 Rothschild L J. Synthetic biology meets bioprinting: Enabling technologies for humans on Mars (and Earth). Biochem Soc Trans, 2016, 44: 1158– 1164 96 Menezes A A, Montague M G, Cumbers J, et al. Grand challenges in space synthetic biology. J R Soc Interface, 2015, 12: 20150803 97 Rummel J D. Planetary exploration in the time of astrobiology: Protecting against biological contamination. Proc Natl Acad Sci USA, 2001, 98: 2128–2131 98 Meltzer M. When Biospheres Collide: A History of NASA’s Planetary Protection Program. Washington DC: US Government Printing Office, 2012 99 Rummel J D. From planetary quarantine to planetary protection: A NASA and international story. Astrobiology, 2019, 19: 624–627 100 Fairén A G, Schulze-Makuch D. The overprotection of Mars. Nat Geosci, 2013, 6: 510–511 101 Fairén A G, Parro V, Schulze-Makuch D, et al. Searching for life on Mars before it is too late. Astrobiology, 2017, 17: 962–970 102 Rummel J D, Conley C A. Four fallacies and an oversight: Searching for Martian life. Astrobiology, 2017, 17: 971–974 103 Shang P, Hu Y T, Yang Z Q, et al. Tendency and critical scientific issues of space life science in China (in Chinese). Sci Sin Tech, 2015, 45: 796– 808 [商澎, 呼延霆, 杨周岐, 等. 中国空间生命科学的关键科学问题和发展方向. 中国科学: 技术科学, 2015, 45: 796–808] 104 Liu C T, Chang D. Space Microbiology Basic Research and Application (in Chinese). Beijing: Peking University Medical Press, 2016 [刘长庭, 常 德. 空间微生物学基础与应用研究. 北京: 北京大学医学出版社, 2016] 105 Liu H, Gitelzon II, Hu E Z, et al. Theory and Technology of Bioregernative Life Support System (in Chinese). Beijing: Science Press, 2009 [刘红, Gitelzon II, 胡恩柱, 等. 生物再生生命保障系统理论与技术. 北京: 科学出版社, 2009] 106 Gerda H, Zhuang F Y. Astrobiology (in Chinese). Beijing: China Astronautic Publishing House, 2010 [格尔达·霍内克, 庄逢源. 宇宙生物学. 北 京: 中国宇航出版社, 2010] 107 Chinese Academy of Sciences. Development Strategy of China Disciplines · Geobiology (in Chinese). Beijing: Science Press, 2015 [中国科学院. 中国学科发展战略·地球生物学. 北京: 科学出版社, 2015] 108 Shang P, Yang P F, Lü Y. Space Biology and Space Biotechnology (in Chinese). Xi’an: Northwestern Polytechnical University Press, 2016 [商澎, 杨鹏飞, 吕毅. 空间生物学与空间生物技术. 西安: 西北工业大学出版社, 2016] 109 Wu F Y, Wei Y, Song Y H, et al. From fusion of research and teaching to leading of science—Strategy to build planetary science program with Chinese characteristics (in Chinese). Bull Chin Acad Sci, 2019, 34: 741−747 [吴福元, 魏勇, 宋玉环, 等. 从科教融合到科学引领——中国特色 的行星科学建设思路. 中国科学院院刊, 2019, 34: 741−747] 110 Wan W X, Wei Y, Guo Z T, et al. Toward a power of planetary science from a gaint of deep space exploration (in Chinese). Bull Chin Acad Sci, 2019, 34: 748−755 [万卫星, 魏勇, 郭正堂, 等. 从深空探测大国迈向行星科学强国. 中国科学院院刊, 2019, 34: 748−755] 111 Wei Y, Zhu R X. Planetary science: Frontier of science and national strategy (in Chinese). Bull Chin Acad Sci, 2019, 34: 756−759 [魏勇, 朱日祥. 行星科学: 科学前沿与国家战略. 中国科学院院刊, 2019, 34: 756−759] 112 Li X Y, Lin W, Xiao Z Y, et al. Planetary geology: “Extraterrestrial” model of geology (in Chinese). Bull Chin Acad Sci, 2019, 34: 776−784 [李雄 耀, 林巍, 肖智勇, 等. 行星地质学: 地质学的“地外”模式. 中国科学院院刊, 2019, 34: 776−784] 113 Des Marais D J, Allamandola L J, Benner S A, et al. The NASA Astrobiology Roadmap. Astrobiology, 2003, 3: 219–235 114 Board S S, National Academies of Sciences, Engineering, and Medicine. An Astrobiology Strategy for the Search for Life in the Universe. Washington DC: National Academies Press, 2019 115 Hays L, Archenbach L, Bailey J, et al. NASA Astrobiology Strategy. Washington DC: NASA, 2015 116 Cockell C S, Biller B, Bryce C, et al. The UK Centre for Astrobiology: A virtual Astrobiology centre. Accomplishments and lessons learned, 2011–2016. Astrobiology, 2018, 18: 224–243 117 Dunér D. Introduction: The history and philosophy of Astrobiology. Astrobiology, 2012, 12: 901–905 118 Quinlan C L. Bringing Astrobiology down to Earth. Am Biol Teach, 2015, 77: 567–574 119 Staley J T. Astrobiology, the transcendent science: The promise of astrobiology as an integrative approach for science and engineering education and research. Curr Opin Biotech, 2003, 14: 347–354 评 述 11 Downloaded to IP: 192.168.0.213 On: 2019-12-26 10:00:34 http://engine.scichina.com/doi/10.1360/TB-2019-0396