Space Flight Cultivation for Radish (Raphanus sativus) in the Advanced Plant Habitat

Adams C, Jacobson A, Bugbee B (2014) Ceramic aggregate sorption and desorption chemistry: Implications for use as a component of soilless media. Journal of Plant Nutrition 37(8), 1345–1357. AdamsC JacobsonA BugbeeB 2014 Ceramic aggregate sorption and desorption chemistry: Implications for use as a component of soilless media Journal of Plant Nutrition 37 8 1345 1357 10.1080/01904167.2013.837921 Search in Google Scholar

Cichan T, Bailey SA, Antonelli T, Jolly SD, Chambers RP, Clark B, Ramm SJ (2017) Mars base camp: An architecture for sending humans to mars. New Space 5, 203–218. CichanT BaileySA AntonelliT JollySD ChambersRP ClarkB RammSJ 2017 Mars base camp: An architecture for sending humans to mars New Space 5 203 218 10.1089/space.2017.0037 Search in Google Scholar

Cooper M, Perchonok M, Douglas GL (2017) Initial assessment of the nutritional quality of the space food system over three years of ambient storage. NPJ Microgravity 3(1), 17. CooperM PerchonokM DouglasGL 2017 Initial assessment of the nutritional quality of the space food system over three years of ambient storage NPJ Microgravity 3 1 17 10.1038/s41526-017-0022-z546660328649639 Search in Google Scholar

Khodadad CL, Hummerick ME, Spencer LE, Dixit AR., Richards JT, Romeyn MW, Smith TM, Wheeler RM, Massa GD (2020) Microbiological and nutritional analysis of lettuce crops grown on the International Space Station. Frontiers in Plant Science 11, 199. KhodadadCL HummerickME SpencerLE DixitAR. RichardsJT RomeynMW SmithTM WheelerRM MassaGD 2020 Microbiological and nutritional analysis of lettuce crops grown on the International Space Station Frontiers in Plant Science 11 199 10.3389/fpls.2020.00199706797932210992 Search in Google Scholar

Kim J, van Iersel MW, Burnett SE (2011) Estimating daily water use of two petunia cultivars based on plant and environmental factors. HortScience 46(9), 1287–1293. KimJ van IerselMW BurnettSE 2011 Estimating daily water use of two petunia cultivars based on plant and environmental factors HortScience 46 9 1287 1293 10.21273/HORTSCI.46.9.1287 Search in Google Scholar

Lim S, Kim J (2021) Light quality affects water use of sweet basil by changing its stomatal development. Agronomy 11(2), 303. LimS KimJ 2021 Light quality affects water use of sweet basil by changing its stomatal development Agronomy 11 2 303 10.3390/agronomy11020303 Search in Google Scholar

Massa GD, Newsham G, Hummerick ME, Caro JL, Stutte GW, Morrow RC, Wheeler RM (2013) Preliminary species and media selection for the veggie space hardware. Gravitational and Space Research 1(1), 95–106. MassaGD NewshamG HummerickME CaroJL StutteGW MorrowRC WheelerRM 2013 Preliminary species and media selection for the veggie space hardware Gravitational and Space Research 1 1 95 106 10.2478/gsr-2013-0008 Search in Google Scholar

Monje O, Richards JT, Carver JA, Dimapilis DI, Levine HG, Dufour NF, Onate BG (2020) Hardware validation of the advanced plant habitat on ISS: Canopy photosynthesis in reduced gravity. Frontiers in Plant Science 11 MonjeO RichardsJT CarverJA DimapilisDI LevineHG DufourNF OnateBG 2020 Hardware validation of the advanced plant habitat on ISS: Canopy photosynthesis in reduced gravity Frontiers in Plant Science 11 10.3389/fpls.2020.00673731493632625217 Search in Google Scholar

Musgrave ME, Kuang A, Tuominen LK, Levine LH, Morrow RC (2005) Seed storage reserves and glucosinolates in Brassica rapa L. grown on the international space station. Journal of the American Society for Horticultural Science 130(6), 848–856. MusgraveME KuangA TuominenLK LevineLH MorrowRC 2005 Seed storage reserves and glucosinolates in Brassica rapa L. grown on the international space station Journal of the American Society for Horticultural Science 130 6 848 856 10.21273/JASHS.130.6.848 Search in Google Scholar

Musk E (2017) Making humans a multi-planetary species. New Space 5(2), 46–61. MuskE 2017 Making humans a multi-planetary species New Space 5 2 46 61 10.1089/space.2017.29009.emu Search in Google Scholar

NASA (2018) (https://www.nasa.gov/mission_pages/station/research/Giving_Roots_and_Shoots_Their_Space_APH). NASA 2018 (https://www.nasa.gov/mission_pages/station/research/Giving_Roots_and_Shoots_Their_Space_APH) Search in Google Scholar

Nonnecke IL, Adedipe NO, Ormrod DP (1971) Temperature and humidity effects on the growth and yield of pea cultivars. Canadian Journal of Plant Science 51(6), 479–484. NonneckeIL AdedipeNO OrmrodDP 1971 Temperature and humidity effects on the growth and yield of pea cultivars Canadian Journal of Plant Science 51 6 479 484 10.4141/cjps71-094 Search in Google Scholar

Porterfield DM, Dreschel TW, Musgrave ME (2000) A ground-based comparison of nutrient delivery technologies originally developed for growing plants in the spaceflight environment. Horttechnology 10(1), 179–185. PorterfieldDM DreschelTW MusgraveME 2000 A ground-based comparison of nutrient delivery technologies originally developed for growing plants in the spaceflight environment Horttechnology 10 1 179 185 10.21273/HORTTECH.10.1.179 Search in Google Scholar

Samuolienė G, Sirtautas R, Brazaitytė A, Sakalauskaitė J, Sakalauskienė S, Duchovskis P (2011) The impact of red and blue light-emitting diode illumination on radish physiological indices. Open Life Sciences 6(5), 821–828. SamuolienėG SirtautasR BrazaitytėA SakalauskaitėJ SakalauskienėS DuchovskisP 2011 The impact of red and blue light-emitting diode illumination on radish physiological indices Open Life Sciences 6 5 821 828 10.2478/s11535-011-0059-z Search in Google Scholar

Shiina T, Umehara H, Kaneta T, Nakamura N, Ito Y, Thammawong M, Yoshida M, Soga A, Nakano K (2013) The response characteristics of Japanese radish (Daikon) to mechanical wound stress. Acta Horticulturae 1005, 247–252. ShiinaT UmeharaH KanetaT NakamuraN ItoY ThammawongM YoshidaM SogaA NakanoK 2013 The response characteristics of Japanese radish (Daikon) to mechanical wound stress Acta Horticulturae 1005 247 252 10.17660/ActaHortic.2013.1005.27 Search in Google Scholar

Sindelar TJ, Millar KD, Kiss JZ (2014) Red light effects on blue light-based phototropism in roots of Arabidopsis thaliana. International Journal of Plant Sciences 175(6), 731–740. SindelarTJ MillarKD KissJZ 2014 Red light effects on blue light-based phototropism in roots of Arabidopsis thaliana International Journal of Plant Sciences 175 6 731 740 10.1086/676303 Search in Google Scholar

Tezuka T, Yamaguchi F, Ando Y (1994) Physiological activation in radish plants by UV-A radiation. Journal of Photochemistry and Photobiology B: Biology 24(1), 33–40. TezukaT YamaguchiF AndoY 1994 Physiological activation in radish plants by UV-A radiation Journal of Photochemistry and Photobiology B: Biology 24 1 33 40 10.1016/1011-1344(94)07006-7 Search in Google Scholar

Vandenbrink JP, Herranz R, Medina FJ, Edelmann RE, Kiss JZ (2016) A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity. Planta 244(6), 1201–1215. VandenbrinkJP HerranzR MedinaFJ EdelmannRE KissJZ 2016 A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity Planta 244 6 1201 1215 10.1007/s00425-016-2581-8574851627507239 Search in Google Scholar

Vernikos J, Walter N, Worms JC, Blanc S (2016) THESEUS: The European research priorities for human exploration of space. NPJ Microgravity 2(1), 16034. VernikosJ WalterN WormsJC BlancS 2016 THESEUS: The European research priorities for human exploration of space NPJ Microgravity 2 1 16034 10.1038/npjmgrav.2016.34551553028725741 Search in Google Scholar

Weston G (1982) The effects of crowding, daminozide and red to farred ratios of light on the growth of radish (Raphanus Sativus L.). Journal of Horticultural Science 57(3), 373–376. WestonG 1982 The effects of crowding, daminozide and red to farred ratios of light on the growth of radish (Raphanus Sativus L.) Journal of Horticultural Science 57 3 373 376 10.1080/00221589.1982.11515066 Search in Google Scholar

Yorio NC, Goins GD, Kagie HR, Wheeler RM, Sager JC (2001) Improving spinach, radish, and lettuce growth under red light-emitting diodes (LEDs) with blue light supplementation. HortScience 36(2), 380. YorioNC GoinsGD KagieHR WheelerRM SagerJC 2001 Improving spinach, radish, and lettuce growth under red light-emitting diodes (LEDs) with blue light supplementation HortScience 36 2 380 10.21273/HORTSCI.36.2.380 Search in Google Scholar