Progress in plant research in space

Halstead, 1984, Experiments on plants grown in space: Status and prospects, Ann. Bot., 54, 3, 10.1093/oxfordjournals.aob.a086864 Halstead, 1987, Plants in space, Ann. Rev. Plant Physiol., 38, 317, 10.1146/annurev.pp.38.060187.001533 Krikorian, 1991, Development and growth in space, Vol. X, 491 Sytnik, 1984, Rastitel'naya Kletka pri Izmenenii Geofizicheskikh Faktorov, 136 Parfenov, 1988, Nevesomost' I Elementarynyye Biologicheskiye Protessy, Vol. 57 of Problemy Kosmischeskoi Biologii, 272 Ferraro, 1990, Biological clocks in space: Preliminary results of STS-32 mid-deck life science experiment CNCR-01, ASGSB Bull., 4, 76 Block, 1992, Gravity related behavior of the acellular slime mold Physarum polycephalum, 93 Block, 1990, Responses of Physarum polycephalum to varying light levels during fast clinostat rotation: A scientific preparation of an ESA Biorack experiment during the IML-1 mission, 535 Bruschi, 1992, Microgravitational effects on chromosome behavior, 33 Merkys, 1986, Interaction of growth-determining systems with gravity, Adv. Space Res., 6, 71, 10.1016/0273-1177(86)90069-4 Sievers, 1991, Role of the cytoskeleton in gravity perception, 169 Volkmann, 1990, Gravitational effects on subcellular structures of plant cells, 497 Volkmann, 1988, Stability of cell polarity under various gravitational forces, Physiologist, 31, S Volkmann, 1991, Oriented movement of statoliths studied in a reduced gravitational field during parabolic flights of rockets, Planta, 185, 153, 10.1007/BF00194056 Sievers, 1992, Cytoskeleton in Chara rhizoids, ELGRA News, 14, 98 Alpatov, 1989, Biological experiments aboard the biological satellite Cosmos 1887, Kosm. Biol. Aviakosm. Medit., 23, 26 Podlutsky, 1992, Ultrastructural analysis of organization of roots obtained from cell cultures at clinostating and under microgravity, Adv. Space Res., 12, 93, 10.1016/0273-1177(92)90268-3 Perbal, 1987, Graviperception of lentil seedling roots grown in space (Spacelab D1 Mission), Physiol. Plant., 70, 119, 10.1111/j.1399-3054.1987.tb06120.x Perbal, 1988, Effects of microgravity on the differentiation of gravisensing cells in the lentil root, Physiologist, 31, A31 Driss-Ecole, 1989, Importance of the 1g controls in interpreting the results of an experiment on plant gravitropism (Biorack, D1 mission), 9 Perbal, 1990, Effect of gravity on the distribution of electron dense chromatin in the nucleus of root statocytes, 517 Lorenzi, 1989, Polarity of root statocytes and in simulated microgravity, 6 Perbal, 1992, Transmission of gravistimulus in the statocyte of the lentil root, 89 Brown, 1992, Gravitropic responses of plants in the absence of a complicating g-force, 3 Heathcote, 1992, A spaceflight experiment to investigate the effects of a range of unilateral blue light phototropic stimulations on the movements of wheat coleoptiles, 13 Brown, 1992, Characterization of precocious seedling development observed during IML-1 mission, ASGSB Bull., 6, 58 Chapman, 1992, Detection of apparent autotropic responses of seedlings under microgravity conditions on IML-1, ASGSB Bull., 6, 58 Heathcote, 1992, The occurrence of spontaneous growth curvatures in wheat coleoptiles grown at 0 g on the International Microgravity Laboratory mission, ASGSB Bull., 6, 50 Heathcote, 1992, Evidence of circumnutation in wheat coleoptiles under microgravity conditions on the International Microgravity Laboratory mission, ASGSB Bull., 6, 88 Brown, 1990, Circumnutations of sunflower hypocotyls in satellite orbit, Plant Physiol., 94, 233, 10.1104/pp.94.1.233 Brown, 1991, Gravity perception and circumnutation in plants, Vol. 1, 129 Merkys, 1989, Evaluation of experiments involving the study of plant orientation and growth under different gravitational conditions, Adv. Space Res., 9, 23, 10.1016/0273-1177(89)90049-5 Merkys, 1983, Complete cycle of individual development of Arabidopsis thaliana (L.) Heynh. plants on board the “Salyut-7” orbital station, Dokl. Akad. Nauk SSSR, 271, 509 Alston, 1991, Seeds in Space experiment, 1625 Grigsby, 1991, Space Exposed Experiment Developed for Students (SEEDS), 1635 Ivanov, 1991, The effect of space flight on the sowing and productive properties of seeds, 307 1991, USSR Space Life Sciences Digest, 29, 65 Liu, 1988, Space activities in China, Biological Sciences in Space, 2, 148 Anikeyeva, 1990, Genetic studies with Arabidopsis seeds in space flights, Kosm. Biol. Aviakosm. Medit., 24, 22 Nevzgodina, 1989, Impact of single hits of heavy ions of galactic cosmic rays on Lactuca sativa seeds exposed on the Salyut 6 and Salyut 7 orbital manned stations, Kosm. Biol. Aviakosm. Medit., 23, 66 Nevzgodina, 1990, The effect of outer space environments on Lactuca sativa seeds flown on Cosmos biosatellites, Kosm. Biol. Aviakosm. Medit., 24, 25 Bork, 1990, Defective embryogenesis of Arabidopsis induced by cosmic HZE-particles, 571 Kranz, 1991, Total dose effects (TDE) of heavy ionizing radiation in fungus spores and plant seeds — Preliminary investigations, 1651 Reitz, 1991, First biological and dosimetric results of the Free Flyer Biostack experiment A0015 on LDEF, 1639 Abramova, 1990, Study of the biological effects of heavy charged particles of cosmic radiation on a population of higher plants — Wolffia arrhiza, 562 Abramova, 1990, USSR Space Life Sciences Digest, 28, 16 Gu, 1989, Effects of space flight on the growth and some cytological characteristics of wheat seedlings, Acta Phytophysiol. Sinica, 15, 403 DeBell, 1991, The germination and development of white clover seedlings aboard the space shuttle, ASGSB Bull., 5, 30 Abrahamson, 1991, Effect of 6 day weightlessness on leguminous sprouts, ASGSB Bull., 5, 59 Hoehn, 1992, Seed germination and early plant development onboard STS-50 (USML-1), ASGSB Bull., 6, 38 Maher, 1992, Growth, differentiation and development of Arabidopsis thaliana under microgravity conditions, 81 Krikorian, 1992, Effects of spaceflight on growth and cell division in higher plants, Vol. 2, 181 Levine, 1990, Plant development in space: Observations on root formation and growth, 503 Levine, 1990, Results from the chromosomes and plant cell division in space experiment (CHROMEX) flown aboard shuttle mission STS-29, ASGSB Bull., 4, 78 Levine, 1992, Chromosomes and plant cell division in space: Environmental conditions and experimental details, Adv. Space Res., 12, 73, 10.1016/0273-1177(92)90266-Z Levine, 1992, Shoot growth in aseptically cultivated daylily and Haplopappus plantlets after a 5-day spaceflight, Physiol. Plant., 10.1111/j.1399-3054.1992.tb01330.x Levine, 1992, Analysis of root growth in aseptically cultivated plantlets of Haplopappus gracilis after a 5-day spaceflight, Physiol. Plant., 10.1111/j.1399-3054.1992.tb01330.x Darbelley, 1986, Differenciation et proliferation cellulaires dans des racines de mais cultive en microgravite (Biocosmos 1985), Adv. Space Res., 6, 157, 10.1016/0273-1177(86)90080-3 Grf, 1988, Cell morphology and ultrastructure of maize root meristem in microgravity, Physiologist, 31, S Mashinskiy, 1991, Characteristics of Triticum vulgare under space flight conditions, Kosm. Biol. Aviakosm. Medit., 25, 39 Mashinskiy, 1992, USSR Space Life Sciences Digest, 32, 9 Drugova, 1989, Formation of microbial cenosis in wheat plants under conditions of a manned spacecraft, Kosm. Biol. Aviakosm. Medit., 23, 39 Chernova, 1990, Microbiocenosis of higher plants under conditions of space flight, 513 A.L. Mashinskiy, private communication (1992). Ivanova, 1991, The first “space” vegetables have been grown up in the “Svet” greenhouse by means of controlled environmental conditions, 7 Ivanova, 1992, “Svet” biotechnological system, controlling the environmental conditions for growing higher plants in weightlessness, 7 N. Lewis and C. Brown, private communications (1992). Rasmussen, 1990, Plant protoplast development on “Biokosmos 9”, 527 Iversen, 1992, The effect of microgravity on the development of plant protoplasts flown on Biokosmos 9, Adv. Space Res., 12, 123, 10.1016/0273-1177(92)90274-2 Klimchuk, 1992, Structural and functional organisation of regenerated plant protoplasts exposed to microgravity on Biokosmos 9, Adv. Space Res., 12, 133, 10.1016/0273-1177(92)90275-3 Rasmussen, 1992, Effect of microgravity environment on cell wall regeneration, cell divisions, growth, and differentiation of plants from protoplasts, 59 Mehrle, 1989, Effects of microgravitation on electrofusion of plant cell protoplasts, Plant Physiol., 89, 1172, 10.1104/pp.89.4.1172 Hampp, 1992, Hybrid formation and metabolism of plant cell protoplasts under microgravity, Physiologist, 35, S Mehrle, 1990, Electrofusion of plant protoplasts under microgravity conditions, 140 Baumann, 1990, Regeneration and characterization of protoplast-derived cell lines from Digitalis lanata EHRH. and Digitalis purpurea L. suspension cultures after electrofusion under microgravity conditions, 405 Levinskikh, 1989, Growth and development of unicellular algae under space flight conditions within the ecosystem of “algobacterial cenosis - fish”, Kosm. Biol. Aviakosm. Medit., 23, 32 Sychev, 1989, Study of the growth and development of Chlorella flown on the biosatellite “Kosmos-1887”, Kosm. Biol. Aviakosm. Medit., 23, 35 Gavrilova, 1992, Experiment “Chlamydomonas” aboard biosatellite “Cosmos-2044”, Physiologist, 35, S Liu, 1991, Studies on the biology of algae: I: Preliminary observation on the adaptation of microalgae to the space environment, ELGRA News, 13, 80 Lin, 1991, Studies on the biology of algae: II: Set-up and the first-test of a space incubator for the simplified algal ecosystem, ELGRA News, 13, 81 Luttges, 1991, Recent results from reduced gravity experiments in life sciences and biomaterials processing, ASGSB Bull., 5, 30 Sytnik, 1991, Ultrastructure of pea meristem and root cap cells under space flight conditions, 6 Kordyum, 1989, Prospects of studies in space phytobiology, 8 Kordyum, 1989, Cell mechanisms of adaptation to main factors of space flight, 8 Kordyum, 1989, Plant cell in the process of the adaptation to simulated microgravity, Adv. Space Res., 9, 33, 10.1016/0273-1177(89)90050-1 Sytnik, 1989, Calcium gradient in plant cells with polarized growth in simulated microgravity, Adv. Space Res., 9, 41, 10.1016/0273-1177(89)90052-5 Schulze, 1992, Studies on the growth and indole-3-acetic acid and abscisic acid content of Zea mays seedlings grown in microgravity, Plant Physiol., 100, 692, 10.1104/pp.100.2.692 Bandurski, 1991, Preliminary conclusions from the Growth Hormone Concentration and Distribution experiment flown on Atlantis, STS-34, Plant Physiol., 96, 32 Meleshko, 1989, The effect of space flight factors on the pigment system of one-celled algae, 462 Meleshko, 1991, USSR Space Life Sciences Digest, 31, 43 Popova, 1989, Ultrastructural and growth indices of Chlorella culture multicomponent aquatic systems under space flight conditions, Adv. Space Res., 9, 79, 10.1016/0273-1177(89)90059-8 Sytnik, 1992, Peculiarities of the submicroscopic organization of Chlorella cells cultivated on a solid medium in microgravity, Adv. Space Res., 12, 103, 10.1016/0273-1177(92)90270-8 Rumyantseva, 1990, Effect of space flight factors on the pigment and lipid composition of wheat plants, Kosm. Biol. Aviakosm. Medit., 24, 53 Baraboy, 1991, Lipid peroxidation of plants at various hierarchical levels under exposure to microgravity, Izvestiya Akademii Nauk SSSR: Seriya Biologischeskaya, 368 Baraboy, 1992, USSR Space Life Sciences Digest, 32, 11 Demets, 1990, Unicellular algae in space. II. Sounding-rocket experiment, 339 Demets, 1990, Unicellular algae in space. III. Addendum, 347 DeBell, 1990, Rhizobium trifolii binds to root hairs of white clover seedlings in microgravity, ASGSB Bull., 4, 71 Henry, 1990, Binding of isolated plant lectin by rhizobia during episodes of reduced gravity obtained by parabolic flight, Plant Physiol., 92, 262, 10.1104/pp.92.1.262 Urban, 1991, Microgravity enhances binding of a bacteroid-inducing molecule in the nitrogen-fixing bacterium Rhizobium trifolii, ASGSB Bull., 5, 83 Ivanova, 1986, Prospects for the use of the higher plants in space flight—experiment “Substrat”, 7 Dreschel, 1989, Control of water and nutrients using a porous tube: A method for growing plants in space, HortScience, 24, 944, 10.21273/HORTSCI.24.6.944 Shah, 1992, A plant nutrient monitoring system (PNMS), ASGSB Bull., 6, 36