References
- Abboud T, Bamsey M, Paul A-L, Graham T, Braham S, Noumeir R, Berinstain A, Ferl R (2013) Deployment of a fully-automated green fluorescent protein imaging system in a high arctic autonomous greenhouse. Sensors (Basel) 13: 3530–3548
- Bamsey M, Berinstain A, Graham T, Neron P, Giroux R, Braham S, Ferl R, Paul A-L, Dixon M (2009) Developing strategies for automated remote plant production systems: environmental control and monitoring of the Arthur Clarke Mars Greenhouse in the Canadian High Arctic. Advances in Space Research 44: 1367–1381
- Barrett-Lennard EG, Dracup M (1988) A porous agar medium for improving the growth of plants under sterile conditions. Plant and Soil 108: 294–298
- Lodha P, Netravali AN (2005) Characterization of Phytagel® modified soy protein isolate resin and unidirectional flax yarn reinforced “green” composites. Polymer Composites 26: 647–659
- Nakashima J, Sparks JA, Carver J, Stephens SD, Kwon T, Blancaflor EB (2014) Delaying seed germination and improving seedling fixation: lessons learned during science and payload verification tests for Advanced Plant EXperiments (APEX) 02-1 in space. Gravitational and Space Research 2: 54–67
- Paul A-L, Amalfitano CE, Ferl RJ (2012) Plant growth strategies are remodeled by spaceflight. BioMed Central (BMC) Plant Biology 12: 232
- Paul A-L, Ferl RJ (2002) Molecular aspects of stress gene regulation during spaceflight. Journal of Plant Growth Regulation 21: 166–176
- Paul A-L, Wheeler RM, Levine HG, Ferl RJ (2013a) Fundamental plant biology enabled by the space shuttle. American Journal of Botany 100: 226–234
- Paul A-L, Zupanska AK, Schultz ER, Ferl RJ (2013b) Organ-specific remodeling of the Arabidopsis transcriptome in response to spaceflight. BioMed Central (BMC) Plant Biology 13: 112
- Ričkienė A (2012) Space plant biology research in Lithuania. Endeavour 36: 117–124
- Stout SC, Porterfield DM, Briarty LG, Kuang A, Musgrave ME (2001) Evidence of root zone hypoxia in Brassica rapa L. grown in microgravity. International Journal of Plant Sciences 162: 249–255
- Wheeler RM (2011) Plants for human life support in space: from Myers to Mars. Gravitational and Space Biology 23: 25–35
- Wolverton C, Kiss JZ (2011) An update on plant space biology. Gravitational and Space Biology 22: 13–20
- Wyatt SE, Kiss JZ (2013) Plant tropisms: from Darwin to the International Space Station. American Journal of Botany 100: 1–3
- Zupanska AK, Denison FC, Ferl RJ, Paul A-L (2013) Spaceflight engages heat shock protein and other molecular chaperone genes in tissue culture cells of Arabidopsis thaliana. American Journal of Botany 100: 235–248