Article(id=1157393072444330160, tenantId=1146029695717560320, journalId=1146032081894723586, issueId=1157393070754025641, articleNumber=null, orderNo=13, doi=10.3981/j.issn.2097-0781.2024.01.012, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=research-article, receivedDate=1695052800000, receivedDateStr=2023-09-19, revisedDate=1705852800000, revisedDateStr=2024-01-22, acceptedDate=null, acceptedDateStr=null, onlineDate=1753873611793, onlineDateStr=2025-07-30, pubDate=1710864000000, pubDateStr=2024-03-20, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1711468800000, onlineIssueDateStr=2024-03-27, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1753873611793, creator=13701087609, updateTime=1774072493910, updator=sys-migrate, issue=Issue{id=1157393070754025641, tenantId=1146029695717560320, journalId=1146032081894723586, year='2024', volume='3', issue='1', pageStart='100', pageEnd='147', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=-1, specialIssue=1, createTime=1753873611366, creator=13701087609, updateTime=1776075110816, updator=13041195026, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1250512908678017028, tenantId=1146029695717560320, journalId=1146032081894723586, issueId=1157393070754025641, language=EN, specialIssueTitle=Science and Technology Foresight, coverIllustrator=, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1250512908682211333, tenantId=1146029695717560320, journalId=1146032081894723586, issueId=1157393070754025641, language=CN, specialIssueTitle=月球及火星等地外行星科考基地建设探索专刊, coverIllustrator=, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=137, endPage=145, ext={EN=ArticleExt(id=1157393073002172596, articleId=1157393072444330160, tenantId=1146029695717560320, journalId=1146032081894723586, language=EN, title=Exploration of Lunar Forward Bases with Life Support, columnId=1149656489310208610, journalTitle=Science and Technology Foresight, columnName=Review and Commentary, runingTitle=null, highlight=null, articleAbstract=

The Moon is the outpost of human exploration into deep space and outer space. The establishment of lunar forward bases with life support can provide food for human beings settling on the Moon. This paper introduces the main lunar exploration projects in China and abroad in recent years and systematically reviews the development of space agriculture in the space station, Moon, life support system, etc. Considering the challenges of lunar forward bases with life support, it puts forward some suggestions, namely, exploring and utilizing resources at the south pole of the Moon, creating functional plant varieties adapting to the Moon environment, and establishing lunar forward bases with life support based on lunar lava caves. These suggestions provide a reference for China’s space agriculture development in the future.

, correspAuthors=Maozhi REN, authorNote=null, correspAuthorsNote=, copyrightStatement=null, copyrightOwner=null, extLink=null, articleAbsUrl=null, sourceXml=null, magXml=null, pdfUrl=null, pdf=null, pdfFileSize=null, pdfExtLink=null, richHtmlUrl=null, mobilePdfUrl=null, reviewReport=null, pdfFirstPage=null, abstractGraph=null, abstractGraphContent=null, abstractVideo=null, citation=null, cebUrl=null, magXmlContent=null, mapNumber=null, authorCompany=null, fund=null, authors=, authorsList=Gengxin XIE, Hao CHENG, Ying WANG, Maozhi REN), CN=ArticleExt(id=1157393115071042005, articleId=1157393072444330160, tenantId=1146029695717560320, journalId=1146032081894723586, language=CN, title=月球生命保障前沿基地探究, columnId=1148708266483446458, journalTitle=前瞻科技, columnName=综述与述评, runingTitle=null, highlight=null, articleAbstract=

月球是人类进行深空探测和太空探索的前哨站。在月球建立生命保障前沿基地可为人类移居月球提供食物保障。文章介绍了近年来国内外主要的探月工程，系统总结了人类在空间站、月球、生命保障系统等发展太空农业的现状。围绕月球生命保障前沿基地发展面临的挑战，文章提出了发掘及利用月球南极资源、创制适于月球生长的功能植物品种、建立基于月球熔岩洞穴的生命保障前沿基地等建议，以期为中国太空农业发展提供参考。

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谢更新，教授。教育部深空探测联合研究中心副主任，重庆大学空间科学研究院院长。“嫦娥四号”任务生物科普试验载荷总设计师。获教育部新世纪人才计划支持，教育部创新团队发展计划团队带头人，探月工程嫦娥四号任务突出贡献者。主要从事环境工程、环境健康与安全、空间环境、航天战略规划与管理等研究。电子信箱：xiegengxin@vip.sina.com。

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谢更新，教授。教育部深空探测联合研究中心副主任，重庆大学空间科学研究院院长。“嫦娥四号”任务生物科普试验载荷总设计师。获教育部新世纪人才计划支持，教育部创新团队发展计划团队带头人，探月工程嫦娥四号任务突出贡献者。主要从事环境工程、环境健康与安全、空间环境、航天战略规划与管理等研究。电子信箱：xiegengxin@vip.sina.com。

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2. Chengdu National Agricultural Science and Technology Center, Institute of Urban Agriculture, Chinese Academy of Agricultural Sciences, Chengdu 610213, China, bio=null, bioImg=null, bioContent=null, aboutCorrespAuthor=null), CN=AuthorExt(id=1242113357549994668, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, authorId=1242113357403194022, language=CN, stringName=任茂智, firstName=null, middleName=null, lastName=null, prefix=null, suffix=null, authorComment=null, nameInitials=null, affiliation=null, department=null, xref=^{1, 2, †}, address=1.重庆大学教育部深空探测联合研究中心，重庆 400044
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任茂智，研究员。教育部深空探测联合研究中心太空农业实验室主任，兼“嫦娥四号”任务生物科普试验载荷项目生物系统负责人。中国农业科学院领军人才，四川省领军人才，中国农业科学院都市农业研究所首席科学家，河南省特聘教授。主要从事太空农业、功能植物培育与应用等研究。主持国家、省部级重大重点科研项目50多项。发表论文116篇，授权发明专利27件。电子信箱：renmaozhi01@caas.cn。

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任茂智，研究员。教育部深空探测联合研究中心太空农业实验室主任，兼“嫦娥四号”任务生物科普试验载荷项目生物系统负责人。中国农业科学院领军人才，四川省领军人才，中国农业科学院都市农业研究所首席科学家，河南省特聘教授。主要从事太空农业、功能植物培育与应用等研究。主持国家、省部级重大重点科研项目50多项。发表论文116篇，授权发明专利27件。电子信箱：renmaozhi01@caas.cn。

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Farming in space: Environmental and biophysical concerns[J]. Advances in Space Research, 2003, 31(1): 151-167., articleTitle=Farming in space: Environmental and biophysical concerns, refAbstract=The colonization of space will depend on our ability to routinely provide for the metabolic needs (oxygen, water, and food) of a crew with minimal re-supply from Earth. On Earth, these functions are facilitated by the cultivation of plant crops, thus it is important to develop plant-based food production systems to sustain the presence of mankind in space. Farming practices on earth have evolved for thousands of years to meet both the demands of an ever-increasing population and the availability of scarce resources, and now these practices must adapt to accommodate the effects of global warming. Similar challenges are expected when earth-based agricultural practices are adapted for space-based agriculture. A key variable in space is gravity; planets (e.g. Mars, 1/3 g) and moons (e.g. Earth's moon, 1/6 g) differ from spacecraft orbiting the Earth (e.g. Space stations) or orbital transfer vehicles that are subject to microgravity. The movement of heat, water vapor, CO2 and O2 between plant surfaces and their environment is also affected by gravity. In microgravity, these processes may also be affected by reduced mass transport and thicker boundary layers around plant organs caused by the absence of buoyancy dependent convective transport. Future space farmers will have to adapt their practices to accommodate microgravity, high and low extremes in ambient temperatures, reduced atmospheric pressures, atmospheres containing high volatile organic carbon contents, and elevated to super-elevated CO2 concentrations. Farming in space must also be carried out within power-, volume-, and mass-limited life support systems and must share resources with manned crews. Improved lighting and sensor technologies will have to be developed and tested for use in space. These developments should also help make crop production in terrestrial controlled environments (plant growth chambers and greenhouses) more efficient and, therefore, make these alternative agricultural systems more economically feasible food production systems.c2002 COSPAR. Published by Elsevier Science Ltd. All rights reserved.), Reference(id=1242113361010295517, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1016/j.plaphy.2022.12.017, pmid=36566710, pmcid=null, year=2023, volume=194, issue=null, pageStart=708, pageEnd=721, url=null, language=null, rfNumber=[2], rfOrder=1, authorNames=Nguyen M T P, Knowling M, Tran N N, journalName=Plant Physiology and Biochemistry, refType=null, unstructuredReference=Nguyen M T P, Knowling M, Tran N N, et al. Space farming: Horticulture systems on spacecraft and outlook to planetary space exploration[J]. Plant Physiology and Biochemistry, 2023, 194: 708-721., articleTitle=Space farming: Horticulture systems on spacecraft and outlook to planetary space exploration, refAbstract=Successful human space exploration requires more products than can be taken as payload. There is a need, therefore, for in-space circular manufacturing. Requirements for this include limited resource inflow, from either Earth or other planets and the generation of minimal waste. The provision of nutritious food is a clear need for human survival on the Moon or Mars and is one of the most complex to solve. Demand in large quantities, constant and reliable provision of food requires the development of specialist agricultural technologies. Here, we first review the history of space farming over the past five decades. This survey assesses the technologies which have been tested under the harsh conditions of space, identifying which modern horticultural components are applicable for in-space plant growth. We then outline which plants have been grown and under what conditions, and speculate upon the types of plants that could be selected to best nourish astronauts. Current systems are focussed on experimentation and exploration, but do not yet provide turn-key solutions for efficient food production within a long-term space exploration scenario. With that take, this review aims to provide a perspective on how an engineered closed circular environmental life-support system (ECCLES) might be constructed. To exemplify the latter, nutrient auto accumulation by biofortification is proposed through the integration of space farming and space mining, which is uncharted on Earth.Copyright © 2022 Elsevier Masson SAS. All rights reserved.), Reference(id=1242113361089987295, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2022, volume=43, issue=5, pageStart=548, pageEnd=562, url=null, language=null, rfNumber=[3], rfOrder=2, authorNames=王平, 于晓强, 郭继峰, journalName=宇航学报, refType=null, unstructuredReference=王平, 于晓强, 郭继峰. 月球大范围探测巡视器及GNC技术发展综述[J]. 宇航学报, 2022, 43(5): 548-562., articleTitle=月球大范围探测巡视器及GNC技术发展综述, refAbstract=null), Reference(id=1242113361169679073, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2022, volume=43, issue=5, pageStart=548, pageEnd=562, url=null, language=null, rfNumber=[3], rfOrder=3, authorNames=Wang P, Yu X Q, Guo J F, journalName=Journal of Astronautics, refType=null, unstructuredReference=Wang P, Yu X Q, Guo J F. A survey of lunar wide-range exploration rover and GNC technology[J]. Journal of Astronautics, 2022, 43(5): 548-562. (in Chinese), articleTitle=A survey of lunar wide-range exploration rover and GNC technology, refAbstract=null), Reference(id=1242113361240982243, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2021, volume=null, issue=9, pageStart=48, pageEnd=57, url=null, language=null, rfNumber=[4], rfOrder=4, authorNames=刘进军, 郭建成, 蒋峥, journalName=卫星与网络, refType=null, unstructuredReference=刘进军, 郭建成, 蒋峥. 论月球的矿藏、资源与利用[J]. 卫星与网络, 2021(9): 48-57., articleTitle=论月球的矿藏、资源与利用, refAbstract=null), Reference(id=1242113361316479717, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2021, volume=null, issue=9, pageStart=48, pageEnd=57, url=null, language=null, rfNumber=[4], rfOrder=5, authorNames=Liu J J, Guo J C, Jiang Z, journalName=Satellite & Network, refType=null, unstructuredReference=Liu J J, Guo J C, Jiang Z. Research on lunar mineral deposits, resources and mining[J]. Satellite & Network, 2021(9): 48-57. (in Chinese), articleTitle=Research on lunar mineral deposits, resources and mining, refAbstract=null), Reference(id=1242113361391977191, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.3981/j.issn.2097-0781.2022.01.002, pmid=null, pmcid=null, year=2022, volume=1, issue=1, pageStart=17, pageEnd=27, url=null, language=null, rfNumber=[5], rfOrder=6, authorNames=于登云, 马继楠, journalName=前瞻科技, refType=null, unstructuredReference=于登云, 马继楠. 中国深空探测进展与展望[J]. 前瞻科技, 2022, 1(1): 17-27., articleTitle=中国深空探测进展与展望, refAbstract=在简要分析世界主要航天国家和新兴航天国家深空探测进展的基础上,系统梳理了中国深空探测所取得的主要技术和科学进展,对未来的深空探测任务和需要重点突破的主要关键技术提出展望,为后续深空探测发展提供参考。), Reference(id=1242113361463280361, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.3981/j.issn.2097-0781.2022.01.002, pmid=null, pmcid=null, year=2022, volume=1, issue=1, pageStart=17, pageEnd=27, url=null, language=null, rfNumber=[5], rfOrder=7, authorNames=Yu D Y, Ma J N, journalName=Science and Technology Foresight, refType=null, unstructuredReference=Yu D Y, Ma J N. Progress and prospect of deep space exploration in China[J]. Science and Technology Foresight, 2022, 1(1): 17-27. (in Chinese), articleTitle=Progress and prospect of deep space exploration in China, refAbstract=

After analyzing the progress in deep space exploration of major aerospace countries and emerging ones in the world, this paper systematically summarizes the main scientific and technological achievements regarding deep space exploration in China. Moreover, it provides an outlook on future deep space exploration and main key technologies. This review can serve as reference for the follow-up development of deep space exploration in China.

), Reference(id=1242113361530389227, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2022, volume=9, issue=2, pageStart=null, pageEnd=null, url=null, language=null, rfNumber=[6], rfOrder=8, authorNames=Li C, Hu H, Yang M F, journalName=National Science Review, refType=null, unstructuredReference=Li C, Hu H, Yang M F, et al. Characteristics of the lunar samples returned by the Chang’E-5 mission[J]. National Science Review, 2022, 9(2), doi: 10.1093/nsr/nwab188., articleTitle=Characteristics of the lunar samples returned by the Chang’E-5 mission, refAbstract=null), Reference(id=1242113361593303789, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1089/ast.2020.2399, pmid=33926205, pmcid=null, year=2021, volume=21, issue=9, pageStart=1029, pageEnd=1048, url=null, language=null, rfNumber=[7], rfOrder=9, authorNames=Schuerger A C, Amaradasa B S, Dufault N S, journalName=Astrobiology, refType=null, unstructuredReference=Schuerger A C, Amaradasa B S, Dufault N S, et al. Fusarium oxysporum as an opportunistic fungal pathogen on Zinnia hybrida plants grown on board the international space station[J]. Astrobiology, 2021, 21(9): 1029-1048., articleTitle=Fusarium oxysporum as an opportunistic fungal pathogen on Zinnia hybrida plants grown on board the international space station, refAbstract=A plant production system called Veggie was launched to the International Space Station (ISS) in 2014. In late 2015, during the growth of cv. 'Profusion' in the Veggie hardware, plants developed chlorosis, leaf curling, fungal growth that damaged leaves and stems, and eventually necrosis. The development of symptoms was correlated to reduced air flow leading to a significant buildup of water enveloping the leaves and stems in microgravity. Symptomatic tissues were returned to Earth on 18 May 2016 and were immediately processed to determine the primary causal agent of the disease. The presumptive pathogen was identified as by morphological features of microconidia and conidiophores on symptomatic tissues; that is, by epifluorescent microscopy (EFM), scanning electron microscopy (SEM), metabolic microarrays, and ITS sequencing. Both EFM and SEM imaging of infected tissues showed that germinating conidia were capable of stomatal penetration and thus acted as the primary method for infecting host tissues. A series of ground-based pathogenicity assays were conducted with healthy plants that were exposed to reduced-airflow and high-water stress ( encased in sealed bags) or were kept in an unstressed configuration. Koch's postulates were successfully completed with plants in the lab, but symptoms only matched ISS-flown symptomatic tissues when the plants were stressed with high-water exposure. Unstressed plants grown under similar lab conditions failed to develop the symptoms observed with plants on board the ISS. The overall results of the pathogenicity tests imply that acted as an opportunistic pathogen on severely high-water stressed plants. The source of the opportunistic pathogen is not known, but virulent strains of were not recovered from unused materials in the Veggie plant pillow growth units assayed after the flight.), Reference(id=1242113361652024047, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1007/s10265-020-01200-4, pmid=32424466, pmcid=null, year=2020, volume=133, issue=4, pageStart=571, pageEnd=585, url=null, language=null, rfNumber=[8], rfOrder=10, authorNames=Karahara I, Suto T, Yamaguchi T, journalName=Journal of Plant Research, refType=null, unstructuredReference=Karahara I, Suto T, Yamaguchi T, et al. Vegetative and reproductive growth of Arabidopsis under microgravity conditions in space[J]. Journal of Plant Research, 2020, 133(4): 571-585., articleTitle=Vegetative and reproductive growth of Arabidopsis under microgravity conditions in space, refAbstract=We have performed a seed-to-seed experiment in the cell biology experiment facility (CBEF) installed in the Kibo (Japanese Experiment Module) in the International Space Station. The CBEF has a 1 × g compartment on a centrifuge and a microgravity compartment, to investigate the effects of microgravity on the vegetative and reproductive growth of Arabidopsis thaliana (L.) Heynh. Seeds germinated irrespective of gravitational conditions after water supply on board. Thereafter, seedlings developed rosette leaves. The time of bolting was slightly earlier under microgravity than under space 1 × g. Microgravity enhanced the growth rate of peduncles as compared with space 1 × g or ground control. Plants developed flowers, siliques and seeds, completing their entire life cycle during 62-days cultivation. Although the flowering time was not significantly affected under microgravity, the number of flowers in a bolted plant significantly increased under microgravity as compared with space 1 × g or ground control. Microscopic analysis of reproductive organs revealed that the longitudinal length of anthers was significantly shorter under microgravity when compared with space 1 × g, while the length of pistils and filaments was not influenced by the gravitational conditions. Seed mass significantly increased under microgravity when compared with space 1 × g. In addition, seeds produced in space were found not to germinate on the ground. These results indicate that microgravity significantly influenced the reproductive development of Arabidopsis plants even though Earth's gravitational environment is not absolutely necessary for them to complete their life cycle.), Reference(id=1242113361723327217, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2019, volume=null, issue=null, pageStart=null, pageEnd=null, url=null, language=null, rfNumber=[9], rfOrder=11, authorNames=Castelvecchi D, Tatalovic M, journalName=Nature, refType=null, unstructuredReference=Castelvecchi D, Tatalovic M. Plant sprouts on the Moon for first time ever[J]. Nature, 2019, doi: 10.1038/d41586-019-00159-0., articleTitle=Plant sprouts on the Moon for first time ever, refAbstract=null), Reference(id=1242113361794630387, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2021, volume=null, issue=null, pageStart=12, pageEnd=null, url=null, language=null, rfNumber=[10], rfOrder=12, authorNames=Arena C, Graham T, Legué V, journalName=Frontiers in Plant Science, refType=null, unstructuredReference=Arena C, Graham T, Legué V, et al. Editorial: Higher plants, algae and cyanobacteria in space environments[J]. Frontiers in Plant Science, 2021, 12, doi: 10.3389/fpls.2021.629014., articleTitle=Editorial: Higher plants, algae and cyanobacteria in space environments, refAbstract=null), Reference(id=1242113361891099381, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1016/j.rser.2017.03.065, pmid=null, pmcid=null, year=2017, volume=76, issue=null, pageStart=1163, pageEnd=1175, url=https://linkinghub.elsevier.com/retrieve/pii/S1364032117303817, language=null, rfNumber=[11], rfOrder=13, authorNames=Zhou W G, Wang J H, Chen P, journalName=Renewable and Sustainable Energy Reviews, refType=null, unstructuredReference=Zhou W G, Wang J H, Chen P, et al. Bio-mitigation of carbon dioxide using microalgal systems: Advances and perspectives[J]. 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Frontiers in Plant Science, 2020, doi: 10.3389/fpls.2020.00631., articleTitle=Competitive growth assay of mutagenized Chlamydomonas reinhardtii compatible with the international space station veggie plant growth chamber, refAbstract=null), Reference(id=1242113362037900024, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2022, volume=null, issue=null, pageStart=59, pageEnd=null, url=null, language=null, rfNumber=[13], rfOrder=15, authorNames=Mapstone L J, Leite M N, Purton S, journalName=Biotechnology Advances, refType=null, unstructuredReference=Mapstone L J, Leite M N, Purton S, et al. Cyanobacteria and microalgae in supporting human habitation on Mars[J]. Biotechnology Advances, 2022, 59, doi: 10.1016/j.biotechadv.2022.107946., articleTitle=Cyanobacteria and microalgae in supporting human habitation on Mars, refAbstract=null), Reference(id=1242113362113397498, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1126/science.1185696, pmid=20966247, pmcid=null, year=2010, volume=330, issue=6003, pageStart=483, pageEnd=486, url=null, language=null, rfNumber=[14], rfOrder=16, authorNames=Mitrofanov I G, Sanin A B, Boynton W V, journalName=Science, refType=null, unstructuredReference=Mitrofanov I G, Sanin A B, Boynton W V, et al. Hydrogen mapping of the lunar south pole using the LRO neutron detector experiment LEND[J]. Science, 2010, 330(6003): 483-486., articleTitle=Hydrogen mapping of the lunar south pole using the LRO neutron detector experiment LEND, refAbstract=Hydrogen has been inferred to occur in enhanced concentrations within permanently shadowed regions and, hence, the coldest areas of the lunar poles. The Lunar Crater Observation and Sensing Satellite (LCROSS) mission was designed to detect hydrogen-bearing volatiles directly. Neutron flux measurements of the Moon's south polar region from the Lunar Exploration Neutron Detector (LEND) on the Lunar Reconnaissance Orbiter (LRO) spacecraft were used to select the optimal impact site for LCROSS. LEND data show several regions where the epithermal neutron flux from the surface is suppressed, which is indicative of enhanced hydrogen content. These regions are not spatially coincident with permanently shadowed regions of the Moon. The LCROSS impact site inside the Cabeus crater demonstrates the highest hydrogen concentration in the lunar south polar region, corresponding to an estimated content of 0.5 to 4.0% water ice by weight, depending on the thickness of any overlying dry regolith layer. The distribution of hydrogen across the region is consistent with buried water ice from cometary impacts, hydrogen implantation from the solar wind, and/or other as yet unknown sources.), Reference(id=1242113362193089276, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1126/science.1178105, pmid=19779152, pmcid=null, year=2009, volume=326, issue=5952, pageStart=562, pageEnd=564, url=null, language=null, rfNumber=[15], rfOrder=17, authorNames=Clark R N, journalName=Science, refType=null, unstructuredReference=Clark R N. Detection of adsorbed water and hydroxyl on the Moon[J]. Science, 2009, 326(5952): 562-564., articleTitle=Detection of adsorbed water and hydroxyl on the Moon, refAbstract=Data from the Visual and Infrared Mapping Spectrometer (VIMS) on Cassini during its flyby of the Moon in 1999 show a broad absorption at 3 micrometers due to adsorbed water and near 2.8 micrometers attributed to hydroxyl in the sunlit surface on the Moon. The amounts of water indicated in the spectra depend on the type of mixing and the grain sizes in the rocks and soils but could be 10 to 1000 parts per million and locally higher. Water in the polar regions may be water that has migrated to the colder environments there. Trace hydroxyl is observed in the anorthositic highlands at lower latitudes.), Reference(id=1242113362272781054, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1073/pnas.1503082112, pmid=25870265, pmcid=null, year=2015, volume=112, issue=17, pageStart=5342, pageEnd=5347, url=null, language=null, rfNumber=[16], rfOrder=18, authorNames=Zhang J H, Yang W, Hu S, journalName=Proceedings of the National Academy of Sciences of the United States of America, refType=null, unstructuredReference=Zhang J H, Yang W, Hu S, et al. Volcanic history of the Imbrium basin: A close-up view from the lunar rover Yutu[J]. Proceedings of the National Academy of Sciences of the United States of America, 2015, 112(17): 5342-5347., articleTitle=Volcanic history of the Imbrium basin: A close-up view from the lunar rover Yutu, refAbstract=We report the surface exploration by the lunar rover Yutu that landed on the young lava flow in the northeastern part of the Mare Imbrium, which is the largest basin on the nearside of the Moon and is filled with several basalt units estimated to date from 3.5 to 2.0 Ga. The onboard lunar penetrating radar conducted a 114-m-long profile, which measured a thickness of ∼5 m of the lunar regolith layer and detected three underlying basalt units at depths of 195, 215, and 345 m. The radar measurements suggest underestimation of the global lunar regolith thickness by other methods and reveal a vast volume of the last volcano eruption. The in situ spectral reflectance and elemental analysis of the lunar soil at the landing site suggest that the young basalt could be derived from an ilmenite-rich mantle reservoir and then assimilated by 10-20% of the last residual melt of the lunar magma ocean.), Reference(id=1242113362339889920, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2022, volume=null, issue=10, pageStart=4, pageEnd=11, url=null, language=null, rfNumber=[17], rfOrder=19, authorNames=焦维新, journalName=国际太空, refType=null, unstructuredReference=焦维新. 月球南极探测的态势与科学目标[J]. 国际太空, 2022(10): 4-11., articleTitle=月球南极探测的态势与科学目标, refAbstract=null), Reference(id=1242113362402804482, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2022, volume=null, issue=10, pageStart=4, pageEnd=11, url=null, language=null, rfNumber=[17], rfOrder=20, authorNames=Jiao W X, journalName=International Space, refType=null, unstructuredReference=Jiao W X. Status and scientific objectives of lunar south pole exploration[J]. International Space, 2022(10): 4-11. (in Chinese), articleTitle=Status and scientific objectives of lunar south pole exploration, refAbstract=null), Reference(id=1242113362469913348, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1007/s12210-014-0351-8, pmid=null, pmcid=null, year=2015, volume=26, issue=2, pageStart=121, pageEnd=131, url=http://link.springer.com/10.1007/s12210-014-0351-8, language=null, rfNumber=[18], rfOrder=21, authorNames=Gheda S F, Ahmed D A, journalName=Rendiconti Lincei, refType=null, unstructuredReference=Gheda S F, Ahmed D A. Improved soil characteristics and wheat germination as influenced by inoculation of nostoc kihlmani and anabaena cylindrica[J]. Rendiconti Lincei, 2015, 26(2): 121-131., articleTitle=Improved soil characteristics and wheat germination as influenced by inoculation of nostoc kihlmani and anabaena cylindrica, refAbstract=null), Reference(id=1242113362570576646, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1016/j.icarus.2010.10.030, pmid=null, pmcid=null, year=2011, volume=211, issue=2, pageStart=1066, pageEnd=1081, url=https://linkinghub.elsevier.com/retrieve/pii/S0019103510004203, language=null, rfNumber=[19], rfOrder=22, authorNames=Mazarico E, Neumann G A, Smith D E, journalName=Icarus, refType=null, unstructuredReference=Mazarico E, Neumann G A, Smith D E, et al. Illumination conditions of the lunar polar regions using LOLA topography[J]. Icarus, 2011, 211(2): 1066-1081., articleTitle=Illumination conditions of the lunar polar regions using LOLA topography, refAbstract=null), Reference(id=1242113362637685512, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1126/science.1187726, pmid=null, pmcid=null, year=2010, volume=330, issue=6003, pageStart=479, pageEnd=482, url=https://www.science.org/doi/10.1126/science.1187726, language=null, rfNumber=[20], rfOrder=23, authorNames=Paige D A, Siegler M A, Zhang J A, journalName=Science, refType=null, unstructuredReference=Paige D A, Siegler M A, Zhang J A, et al. Diviner lunar radiometer observations of cold traps in the Moon’s south polar region[J]. Science, 2010, 330(6003): 479-482., articleTitle=Diviner lunar radiometer observations of cold traps in the Moon’s south polar region, refAbstract=\n About a year ago, a spent upper stage of an Atlas rocket was deliberately crashed into a crater at the south pole of the Moon, ejecting a plume of debris, dust, and vapor. The goal of this event, the Lunar Crater Observation and Sensing Satellite (LCROSS) experiment, was to search for water and other volatiles in the soil of one of the coldest places on the Moon: the permanently shadowed region within the Cabeus crater. Using ultraviolet, visible, and near-infrared spectroscopy data from accompanying craft,\n \n Colaprete\n et al.\n \n (p.\n 463\n ; see the news story by\n \n Kerr\n \n ; see the cover) found evidence for the presence of water and other volatiles within the ejecta cloud.\n \n Schultz\n et al.\n \n (p.\n 468\n ) monitored the different stages of the impact and the resulting plume.\n \n Gladstone\n et al.\n \n (p.\n 472\n ), using an ultraviolet spectrograph onboard the Lunar Reconnaissance Orbiter (LRO), detected H\n 2\n, CO, Ca, Hg, and Mg in the impact plume, and\n \n Hayne\n et al.\n \n (p.\n 477\n ) measured the thermal signature of the impact and discovered that it had heated a 30 to 200 square-meter region from ∼40 kelvin to at least 950 kelvin.\n \n Paige\n et al.\n \n (p. 479) mapped cryogenic zones predictive of volatile entrapment, and\n \n Mitrofanov\n et al.\n \n (p.\n 483\n ) used LRO instruments to confirm that surface temperatures in the south polar region persist even in sunlight. In all, about 155 kilograms of water vapor was emitted during the impact; meanwhile, the LRO continues to orbit the Moon, sending back a stream of data to help us understand the evolution of its complex surface structures.\n), Reference(id=1242113362725765898, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2018, volume=19, issue=1, pageStart=null, pageEnd=null, url=null, language=null, rfNumber=[21], rfOrder=24, authorNames=Zhang Y, Massel K, Godwin I D, journalName=Genome Biology, refType=null, unstructuredReference=Zhang Y, Massel K, Godwin I D, et al. Applications and potential of genome editing in crop improvement[J]. 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This not only demonstrates the incredible potential of the available technologies but also illuminates how lessons learned from this work could be applied to the production of other pharmaceutical agents.), Reference(id=1242113362939675407, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1038/nature12051, pmid=null, pmcid=null, year=2013, volume=496, issue=7446, pageStart=528, pageEnd=532, url=null, language=null, rfNumber=[24], rfOrder=27, authorNames=Paddon C J, Westfall P J, Pitera D J, journalName=Nature, refType=null, unstructuredReference=Paddon C J, Westfall P J, Pitera D J, et al. High-level semi-synthetic production of the potent antimalarial artemisinin[J]. 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With the development of technology, attention is now being paid more and more to preparing food for the microgravity environment, taking into account factors like nutrient density, shelf life, optimized packaging, preservations, innovations, challenges, and applications. The spectrum of food products is designed to meet the balanced nutritional requirements, reduce hazards encountered by astronauts, and utilize space in explorers during space missions. For the long duration of space missions and, consequently, for human permanence in space, it is crucial to provide humans with an adequate supply of fresh food to meet their nutritional needs. By doing this, astronauts could reduce the health risks associated with psychological stress, microgravity, and radiation exposure from space. Maintaining astronauts' health, happiness, and vitality during long-duration human-crewed missions has recently emerged as an essential and critical research area. The food they eat appears to be an important factor. For short-term space missions, astronauts' food could be brought from earth. Still, for long-term space missions to the Moon, Mars, and other distant missions, which are the current research destinations, they must find a way to eat, such as by cultivating plants or finding other means of survival. Scientists and researchers are attempting to develop novel food production technologies or systems that require minimal inputs while maximizing safe, nutritionally balanced, and delicious food outputs for long-duration space missions that could benefit people on earth. This review summarizes various aspects of space food, including evolution, innovations, technological advancements to prolong shelf life, and astronauts' problems. It also involves current research, including space foods like 3D printing and space farming for a long-term space mission.Copyright © 2022. Published by Elsevier B.V.), Reference(id=1242113364537705237, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=null, pmid=null, pmcid=null, year=2020, volume=null, issue=null, pageStart=43, pageEnd=null, url=null, language=null, rfNumber=[27], rfOrder=30, authorNames=Prasad B, Richter P, Vadakedath N, journalName=Biotechnology Advances, refType=null, unstructuredReference=Prasad B, Richter P, Vadakedath N, et al. Exploration of space to achieve scientific breakthroughs[J]. 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A variety of crops might be grown, probably in underground growth units to avoid harmful radiation and micrometeorites. Artificial light will be necessary although some sunlight might be brought in via fiber optics. Transpired water will be condensed in coils exposed to space and shaded from sunlight. Oxygen and CO2 levels will be maintained by controlling photosynthesis and waste oxidation. Plants will be grown hydroponically. Wheat has been produced at the rate of 60 g m-2 d-1, which could feed a human continuously from a farm only 13 m2, but nearly continuous light equivalent to sunlight is required along with ideal temperatures, enriched CO2, suitable cultivars, etc. Lower light results in more efficient photosynthesis but requires a larger farm, as do safety considerations and many crops.), Reference(id=1242113364869055261, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, doi=10.1016/j.cub.2023.02.010, pmid=null, pmcid=null, year=2023, volume=33, issue=11, pageStart=R471, pageEnd=null, url=https://linkinghub.elsevier.com/retrieve/pii/S0960982223001495, language=null, rfNumber=[31], rfOrder=34, authorNames=Ji Y, Kusuma P, Marcelis L F M, journalName=Current Biology: CB, refType=null, unstructuredReference=Ji Y, Kusuma P, Marcelis L F M. Vertical farming[J]. Current Biology: CB, 2023, 33(11): R471-R473., articleTitle=Vertical farming, refAbstract=null)], funds=[Fund(id=1242113360557310672, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, awardId=2023YFE0199400, language=CN, fundingSource=国家重点研发计划(2023YFE0199400), fundOrder=null, country=null), Fund(id=1242113360611836626, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, awardId=2023YFQ0100, language=CN, fundingSource=四川省科学技术厅项目(2023YFQ0100), fundOrder=null, country=null), Fund(id=1242113360666362580, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, awardId=2023ZYD0089, language=CN, fundingSource=四川省科学技术厅项目(2023ZYD0089), fundOrder=null, country=null), Fund(id=1242113360729277142, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, awardId=2022112, language=CN, fundingSource=四川省科学技术厅项目(2022112), fundOrder=null, country=null), Fund(id=1242113360796386008, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, awardId=34-IUA-02, language=CN, fundingSource=中国农业科学院科技创新工程项目(34-IUA-02), fundOrder=null, country=null)], companyList=[AuthorCompany(id=1242113356576916103, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, xref=null, ext=[AuthorCompanyExt(id=1242113356589499016, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, companyId=1242113356576916103, language=EN, country=null, province=null, city=null, postcode=null, companyName=null, departmentName=null, remark=1. 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Cultivation and application of microalgae in bio-regenerative life support systems

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生物再生生命 保障系统	国家	微藻	目标	报道时间
微生态生命维持系统	比利时/法国/西班牙/加拿大	螺旋藻（Limnospira fusiformis）	空气再生/食物生产/水循环	2006年
太空中裸藻有机食品生产系统	德国/俄罗斯	纤细裸藻（Euglena gracilis）	空气再生/水（尿）回收	2018年
AQUACELLS系统	德国/俄罗斯	纤细裸藻（E. gracilis）	空气再生	2006年和1997年
封闭水生生态系统	中国	蛋白核小球藻（Chlorella pyrenoidosa）	空气再生/食物	2008年
罗非鱼-裸藻生态系统	德国/俄罗斯	纤细裸藻（E. gracilis）	空气再生	2008年
微重力箱试验	中国/德国	纤细裸藻（E. gracilis）/蛋白核小球藻（C. pyrenoidosa）	空气再生/食物生产/水回收/	2017年和2014年
光生物反应器	中国/俄罗斯	普通小球藻（C. vulgaris）	空气再生/食物	2019年

), ArticleFig(id=1242113360385344205, tenantId=1146029695717560320, journalId=1146032081894723586, articleId=1157393072444330160, language=CN, label=表1, caption=

微藻在生物再生生命保障系统中的培养应用

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生物再生生命 保障系统	国家	微藻	目标	报道时间
微生态生命维持系统	比利时/法国/西班牙/加拿大	螺旋藻（Limnospira fusiformis）	空气再生/食物生产/水循环	2006年
太空中裸藻有机食品生产系统	德国/俄罗斯	纤细裸藻（Euglena gracilis）	空气再生/水（尿）回收	2018年
AQUACELLS系统	德国/俄罗斯	纤细裸藻（E. gracilis）	空气再生	2006年和1997年
封闭水生生态系统	中国	蛋白核小球藻（Chlorella pyrenoidosa）	空气再生/食物	2008年
罗非鱼-裸藻生态系统	德国/俄罗斯	纤细裸藻（E. gracilis）	空气再生	2008年
微重力箱试验	中国/德国	纤细裸藻（E. gracilis）/蛋白核小球藻（C. pyrenoidosa）	空气再生/食物生产/水回收/	2017年和2014年
光生物反应器	中国/俄罗斯	普通小球藻（C. vulgaris）	空气再生/食物	2019年

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