This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.
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.AdamsCJacobsonABugbeeB2014Ceramic aggregate sorption and desorption chemistry: Implications for use as a component of soilless media3781345135710.1080/01904167.2013.837921Search 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.CichanTBaileySAAntonelliTJollySDChambersRPClarkBRammSJ2017Mars base camp: An architecture for sending humans to mars520321810.1089/space.2017.0037Search 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.CooperMPerchonokMDouglasGL2017Initial assessment of the nutritional quality of the space food system over three years of ambient storage311710.1038/s41526-017-0022-z546660328649639Search 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.KhodadadCLHummerickMESpencerLEDixitAR.RichardsJTRomeynMWSmithTMWheelerRMMassaGD2020Microbiological and nutritional analysis of lettuce crops grown on the International Space Station1119910.3389/fpls.2020.00199706797932210992Search 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.KimJvan IerselMWBurnettSE2011Estimating daily water use of two petunia cultivars based on plant and environmental factors4691287129310.21273/HORTSCI.46.9.1287Search 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.LimSKimJ2021Light quality affects water use of sweet basil by changing its stomatal development11230310.3390/agronomy11020303Search 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.MassaGDNewshamGHummerickMECaroJLStutteGWMorrowRCWheelerRM2013Preliminary species and media selection for the veggie space hardware119510610.2478/gsr-2013-0008Search 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 11MonjeORichardsJTCarverJADimapilisDILevineHGDufourNFOnateBG2020Hardware validation of the advanced plant habitat on ISS: Canopy photosynthesis in reduced gravity1110.3389/fpls.2020.00673731493632625217Search 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.MusgraveMEKuangATuominenLKLevineLHMorrowRC2005Seed storage reserves and glucosinolates in Brassica rapa L. grown on the international space station130684885610.21273/JASHS.130.6.848Search in Google Scholar
Musk E (2017) Making humans a multi-planetary species. New Space 5(2), 46–61.MuskE2017Making humans a multi-planetary species52466110.1089/space.2017.29009.emuSearch in Google Scholar
NASA (2018) (https://www.nasa.gov/mission_pages/station/research/Giving_Roots_and_Shoots_Their_Space_APH).NASA2018Search 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.NonneckeILAdedipeNOOrmrodDP1971Temperature and humidity effects on the growth and yield of pea cultivars51647948410.4141/cjps71-094Search 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.PorterfieldDMDreschelTWMusgraveME2000A ground-based comparison of nutrient delivery technologies originally developed for growing plants in the spaceflight environment10117918510.21273/HORTTECH.10.1.179Search 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.SamuolienėGSirtautasRBrazaitytėASakalauskaitėJSakalauskienėSDuchovskisP2011The impact of red and blue light-emitting diode illumination on radish physiological indices6582182810.2478/s11535-011-0059-zSearch 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.ShiinaTUmeharaHKanetaTNakamuraNItoYThammawongMYoshidaMSogaANakanoK2013The response characteristics of Japanese radish (Daikon) to mechanical wound stress100524725210.17660/ActaHortic.2013.1005.27Search 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.SindelarTJMillarKDKissJZ2014Red light effects on blue light-based phototropism in roots of Arabidopsis thaliana175673174010.1086/676303Search 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.TezukaTYamaguchiFAndoY1994Physiological activation in radish plants by UV-A radiation241334010.1016/1011-1344(94)07006-7Search 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.VandenbrinkJPHerranzRMedinaFJEdelmannREKissJZ2016A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity24461201121510.1007/s00425-016-2581-8574851627507239Search 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.VernikosJWalterNWormsJCBlancS2016THESEUS: The European research priorities for human exploration of space211603410.1038/npjmgrav.2016.34551553028725741Search 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.WestonG1982The effects of crowding, daminozide and red to farred ratios of light on the growth of radish (Raphanus Sativus L.)57337337610.1080/00221589.1982.11515066Search 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.YorioNCGoinsGDKagieHRWheelerRMSagerJC2001Improving spinach, radish, and lettuce growth under red light-emitting diodes (LEDs) with blue light supplementation36238010.21273/HORTSCI.36.2.380Search in Google Scholar