Japanese Oblate Film as a Novel Method for Seed Handling and Activation in Microgravity

Bekele T, Hudnall WH (2015) Effects of micropyle orientation on germination and seedling vigor of Millettia ferruginea and Delonix regia. Ecological Processes 4:38. doi:10.1186/s13717-015-0038-9 BekeleT HudnallWH 2015 Effects of micropyle orientation on germination and seedling vigor of Millettia ferruginea and Delonix regia Ecological Processes 4 38 10.1186/s13717-015-0038-9 Open DOISearch in Google Scholar

Cawley J (2022) Kennedy scientists develop new way to plant, nourish seeds in space. NASA. Available from: https://www.nasa.gov/missions/station/kennedy-scientists-develop-new-way-to-plant-nourish-seeds-in-space/ CawleyJ 2022 Kennedy scientists develop new way to plant, nourish seeds in space NASA Available from: https://www.nasa.gov/missions/station/kennedy-scientists-develop-new-way-to-plant-nourish-seeds-in-space/ Search in Google Scholar

Douglas GL, Cooper M, Bermudez-Aguirre D, Sirmons T, Perchonok M (2024) Evidence report: Risk of performance decrement and crew illness due to inadequate food and nutrition. NASA Human Research Program, Lyndon B Johnson Space Center. DouglasGL CooperM Bermudez-AguirreD SirmonsT PerchonokM 2024 Evidence report: Risk of performance decrement and crew illness due to inadequate food and nutrition NASA Human Research Program, Lyndon B Johnson Space Center Search in Google Scholar

Douglas GL, Zwart SR, Smith SM (2020) Space food for thought: Challenges and considerations for food and nutrition on exploration missions. Journal of Nutrition 150:2246–2252. DouglasGL ZwartSR SmithSM 2020 Space food for thought: Challenges and considerations for food and nutrition on exploration missions Journal of Nutrition 150 2246 2252 Search in Google Scholar

Farid J, Abou-Issa S (2021) Space Flight Cultivation for Radish (Raphanus sativus) in the Advanced Plant Habitat. Gravitational and Space Research 9:121–132. doi:10.2478/gsr-2021-0010 FaridJ Abou-IssaS 2021 Space Flight Cultivation for Radish (Raphanus sativus) in the Advanced Plant Habitat Gravitational and Space Research 9 121 132 10.2478/gsr-2021-0010 Open DOISearch in Google Scholar

Hasenstein KH, John SP, Vandenbrink JP (2023) Assessing radish health during space cultivation by gene transcription. Plants 12:3458. HasensteinKH JohnSP VandenbrinkJP 2023 Assessing radish health during space cultivation by gene transcription Plants 12 3458 Search in Google Scholar

Johnson CM, Boles HO, Spencer LE, et al. (2021) Supplemental food production with plants: A review of NASA research. Frontiers in Astronomy and Space Sciences 8:Article 734343. doi:10.3389/fspas.2021.734343 JohnsonCM BolesHO SpencerLE 2021 Supplemental food production with plants: A review of NASA research Frontiers in Astronomy and Space Sciences 8 Article 734343. 10.3389/fspas.2021.734343 Open DOISearch in Google Scholar

Kiss JZ, Kumar P, Bowman RN, et al. (2007) Biocompatibility studies in preparation for a spaceflight experiment on plant tropisms (TROPI). Advances in Space Research 39:1154–1160. doi:10.1016/j.asr.2006.12.017 KissJZ KumarP BowmanRN 2007 Biocompatibility studies in preparation for a spaceflight experiment on plant tropisms (TROPI) Advances in Space Research 39 1154 1160 10.1016/j.asr.2006.12.017 Open DOISearch in Google Scholar

Lockhart L (2021) Seed film brings new way to grow plants in space. NASA. Available from: https://www.nasa.gov/science-research/seed-film-brings-new-way-to-grow-plants-in-space/ LockhartL 2021 Seed film brings new way to grow plants in space NASA Available from: https://www.nasa.gov/science-research/seed-film-brings-new-way-to-grow-plants-in-space/ Search in Google Scholar

Massa GD, Dufour NF, Carver JA, et al. (2017) VEG-01: Veggie hardware validation testing on the International Space Station. Open Agriculture 2:33–41. doi:10.1515/opag-2017-0003 MassaGD DufourNF CarverJA 2017 VEG-01: Veggie hardware validation testing on the International Space Station Open Agriculture 2 33 41 10.1515/opag-2017-0003 Open DOISearch in Google Scholar

Meyers A, Land E, Perera I, Canaday E, Wyatt SE (2022) Polyethersulfone (PES) membrane on agar plates as a plant growth platform for spaceflight. Gravitational and Space Research 10:30–36. MeyersA LandE PereraI CanadayE WyattSE 2022 Polyethersulfone (PES) membrane on agar plates as a plant growth platform for spaceflight Gravitational and Space Research 10 30 36 Search in Google Scholar

NASA (2020) Astronauts grow radishes in second advanced plant habitat experiment. Available from: https://www.nasa.gov/image-article/astronauts-grow-radishes-second-advanced-plant-habitat-experiment/ NASA 2020 Astronauts grow radishes in second advanced plant habitat experiment Available from: https://www.nasa.gov/image-article/astronauts-grow-radishes-second-advanced-plant-habitat-experiment/ Search in Google Scholar

NASA (2022) Life support baseline values and assumptions document (NASA/TP-2015–218570/REV2). Edited by MK Ewert, TT Chen, CD Powell. Lyndon B Johnson Space Center, Houston, TX: National Aeronautics and Space Administration. NASA 2022 Life support baseline values and assumptions document (NASA/TP-2015–218570/REV2) Edited by EwertMK ChenTT PowellCD Lyndon B Johnson Space Center, Houston, TX National Aeronautics and Space Administration Search in Google Scholar

O’Rourke AE, Romeyn MW (2023) Augmentation of seed film technology with probiotics in support of space crop production. NASA Technical Reports Server. Available from: https://ntrs.nasa.gov/citations/20240001602 O’RourkeAE RomeynMW 2023 Augmentation of seed film technology with probiotics in support of space crop production NASA Technical Reports Server Available from: https://ntrs.nasa.gov/citations/20240001602 Search in Google Scholar

Padgett N (2018) Researching seeds: Films, sanitation methods, microbiological growth, viability, and selection for new crops. NASA Kennedy Space Center Internship Final Report. Available from: https://ntrs.nasa.gov/ PadgettN 2018 Researching seeds: Films, sanitation methods, microbiological growth, viability, and selection for new crops NASA Kennedy Space Center Internship Final Report Available from: https://ntrs.nasa.gov/ Search in Google Scholar

Perchonok M, Douglas GL, Cooper M (2020) Evidence report: Risk of performance decrement and crew illness due to an inadequate food system. NASA Johnson Space Center, Space Human Factors and Habitability Element. PerchonokM DouglasGL CooperM 2020 Evidence report: Risk of performance decrement and crew illness due to an inadequate food system NASA Johnson Space Center, Space Human Factors and Habitability Element Search in Google Scholar

Poulet L, Engeling K, Hatch T, et al. (2022) Large-scale crop production for the Moon and Mars: Current gaps and future perspectives. Frontiers in Astronomy and Space Sciences 8:Article 734343. doi:10.3389/fspas.2021.734343 PouletL EngelingK HatchT 2022 Large-scale crop production for the Moon and Mars: Current gaps and future perspectives Frontiers in Astronomy and Space Sciences 8 Article 734343. 10.3389/fspas.2021.734343 Open DOISearch in Google Scholar

Teng Z, Luo Y, Pearlstein DJ, et al. (2022) Agarose hydrogel composite supports microgreen cultivation with enhanced porosity and continuous water supply under terrestrial and microgravitational conditions. International Journal of Biological Macromolecules 220:135–146. TengZ LuoY PearlsteinDJ 2022 Agarose hydrogel composite supports microgreen cultivation with enhanced porosity and continuous water supply under terrestrial and microgravitational conditions International Journal of Biological Macromolecules 220 135 146 Search in Google Scholar

Wang M, Wei Z, Zhang Z (2024) Antimicrobial Edible Films for Food Preservation: Recent Advances and Future Trends. Food Bioprocess Technol 17:1391–1411. doi:10.1007/s11947-023-03178-y WangM WeiZ ZhangZ 2024 Antimicrobial Edible Films for Food Preservation: Recent Advances and Future Trends Food Bioprocess Technol 17 1391 1411 10.1007/s11947-023-03178-y Open DOISearch in Google Scholar

Wheeler M, Sager JC, Prince RP, et al. (2003) Crop production for advanced life support systems - Observations from the Kennedy Space Center Breadboard Project. Available from: https://ntrs.nasa.gov/api/citations/20030032422/downloads/20030032422.pdf WheelerM SagerJC PrinceRP 2003 Crop production for advanced life support systems - Observations from the Kennedy Space Center Breadboard Project Available from: https://ntrs.nasa.gov/api/citations/20030032422/downloads/20030032422.pdf Search in Google Scholar

Wojciechowski T, Huang B, Scheres B (2019) Radicle emergence and embryo position: A new perspective on seed germination. Frontiers in Plant Science 10:1547. doi:10.3389/fpls.2019.01547 WojciechowskiT HuangB ScheresB 2019 Radicle emergence and embryo position: A new perspective on seed germination Frontiers in Plant Science 10 1547 10.3389/fpls.2019.01547 Open DOISearch in Google Scholar

Yamashita M, Hashimoto H, Wada H (2009) On-site resources availability for space agriculture on Mars. In: Badescu V, editor. Mars: Prospective energy and material resources. Berlin; Heidelberg: Springer-Verlag; pp. 517–542. YamashitaM HashimotoH WadaH 2009 On-site resources availability for space agriculture on Mars In: BadescuV editor. Mars: Prospective energy and material resources Berlin; Heidelberg Springer-Verlag 517 542 Search in Google Scholar

Zhang Y, Lin J (2024) Seed orientation effects on germination dynamics and seedling emergence. SpringerPlus 13:810. doi:10.1007/s40502-024-00810-7 ZhangY LinJ 2024 Seed orientation effects on germination dynamics and seedling emergence SpringerPlus 13 810 10.1007/s40502-024-00810-7 Open DOISearch in Google Scholar