- RM Wheeler. Gas balance in a plant-based CELSS. In: H Suge, ed. Plants in Space Biology. Tohoku: Institute
of Genetic Ecology, Tohoku University Press, 1996, pp 207–216. - RM Wheeler, CL Mackowiak, GW Stutte, JC Sager, NC Yorio. LM Ruffe, RE Fortson, TW Dreschel, WM
Knott, KA Corey. NASA’s Biomass Production Chamber: a testbed for bioregenerative life support studies.
Adv Space Res 18:215–224, 1996. - DJ Barta, K Henderson. Performance of wheat for air revitalization and food production during the lunar-Mars
life support test project phase III test. SAE Technical Paper Series, 981704, 1998. - AE Drysdale. The effect of resource cost on life support selection. SAE Technical Paper 951492, 1995.
- J Hunter. Engineering concepts for food processing in bioregenerative life support systems. Life Support Bio-
sphere Sci 6:53–60, 1999. - KL Mitchell, RM Bagdigian, RL Carrasquillo, DL Carter, GD Franks, DW Holder, CF Hutchens, KY Ogle, JL
Perry, CD Ray. Technical assessment of Mir-1 life support hardware for the International Space Station. NASA
Technical Memorandum 108441, Marshall Space Flight Center, 1994. - RD MacElroy, M Kliss, C Straight. Life support systems for Mars transit. Adv Space Res 12:159–166, 1992.
- VI Lohr. Quantifying the intangible. Interior Landscape. August:32–39, 1992.
- TW Tibbitts, DK Alford. Controlled ecological life support system. Use of higher plants. Ames Research Cen-
ter, Moffett Field, CA, NASA Conference Publication 2231, 1982. - JE Hoff, JM Howe, CA Mitchell. Nutritional and cultural aspects of plant species selection for a regenerative
life support system. Report to NASA Ames Research Center, NSG2401 and NSG 2404, 1982. - FB Salisbury, MAZ Clark. Choosing plants to be grown in a controlled environment life support system
(CELSS) based upon attractive vegetarian diets. Life Support Biosphere Sci 2:169–179, 1996. - CA Mitchell, TAO Dougher, SS Nielsen, MA Belury, RM Wheeler. Costs of providing edible biomass for a
balanced vegetarian diet in a controlled ecological life support system. In: H Suge, ed. Plants in Space Biol-
ogy. Tohoku: Institute of Genetic Ecology, Tohoku University, 1996, pp 245–254. - FB Salisbury. Some challenges in designing a lunar, Martian, or microgravity CELSS. Acta Astronaut
27:211–217, 1992. - B Bugbee, G Koerner. Yield comparisons and unique characteristics of the dwarf wheat cultivar ‘USU
Apogee’. Adv Space Res 20:1891–1894, 1997. - C McKay. A short guide to Mars. In: PJ Boston, ed. The Case for Mars. Vol 57, Science and Technology Se-
ries, San Diego: American Astronautical Society Publishers, 1984, pp 303–310. - W Mendell, J Plescia, AC Tribble. Surface environments. Physiology of spaceflight. In: WJ Larson, LK
Pranke, eds. Human Spaceflight: Mission Analysis and Design. New York: McGraw-Hill, 1999, pp 77–101. - AD Krikorian, HG Levine. Development and growth in space. In: RGS Bidwell, ed. Plant Physiology: A Trea-
tise. Orlando, FL: Academic Press, 1991, pp 491–555. - FB Salisbury. Growing super-dwarf wheat in space station Mir. Life Support Biosphere Sci 4:155–166, 1997.
- J Croxdale, M Cook, TW Tibbitts, CS Brown, RM Wheeler. Structure of potato tubers formed during space-
flight. J Exp Bot 48:2037–2043, 1997. - CS Brown, TW Tibbitts, JG Croxdale, RM Wheeler. Potato tuber formation in the spaceflight environment.
Life Support Biosphere Sci 4:71–76, 1997. - BD Wright, WC Bausch, WM Knott. A hydroponic system for microgravity plant experiments. Tran ASAE
31:440 – 446, 1988. - TW Dreschel, JC Sager. Control of water and nutrient using a porous tube: A method for growth plants in
space. HortScience 24:944–947, 1989. - BG Bubgee, FB Salisbury. Exploring the limits of crop productivity. Photosynthetic efficiency of wheat in high
irradiance environments. Plant Physiol 88:869–878, 1988. - E Heuvelink. Growth, development and yield of a tomato crop: periodic destructive measurements in a green-
house. Sci Hortic 61:77–99, 1995. - RM Wheeler, TW Tibbitts, AH Fitzpatrick. Carbon dioxide effects on potato growth under different photope-
riods and irradiance. Crop Sci 31:1209–1213, 1991. - TAO Dougher, BG Bugbee. Blue light and temperature effects on internode elongation, growth and yield. Adv
Space Res 20:1895–1899, 1997. - GF Collier, TW Tibbitts. Tipburn of lettuce. Hortic Rev 4:49–65, 1982.
- AV Barker, KA Corey, LE Craker. Nutritional stresses in tomato genotypes grown under high-pressure sodium
vapor lamps. HortScience 24:255–258, 1989. - K Mori, H Ohya, K Matsumoto, H Furune. Sunlight supply and gas exchange systems in microalgal bioreac-
tor. In: RD MacElroy, DT Smernoff, eds. Controlled Ecological Life Support Systems, Regenerative Life Sup-
port System in Space. NASA Conf Publ 2480, Ames Research Center, Moffett Field, CA, 1987, pp 45–50. - JL Cuello, P Sadler, D Jack, E Ono, KA Jordan. Evaluation of light transmission and distribution materials for
lunar and Martian bioregenerative life support. Life Support Biosphere Sci 5:389 – 402, 1998. - RC Morrow. RJ Bula, TW Tibbitts. Orbital light:dark cycle effects on potato productivity. American Society
for Gravitational and Space Biology, 3rd Annual Meeting, Logan, UT, 1997, p 30. - GA Landis. Dust obscuration of Mars solar arrays. Acta Astronaut 38:885–891, 1996.
- JC Sager, JL Edwards, WH Klein. Light energy utilization efficiency for photosynthesis. Trans ASAE
25:1737–1746, 1982.
938 WHEELER ET AL.