Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. H Janes, R McAvoy. Environmental control of a single-cluster greenhouse tomato crop. HortTech 1:110–114,
    1991.

  2. M Yamaguchi. World Vegetables. Principles, Production and Nutritive Values. New York: Van Nostrand
    Reinhold, 1983.

  3. GW Stutte. Photochemicals: implications for long duration space missions. In: HC Cutler, SS Culter, eds. Bi-
    ologically Active Natural Products: Agrochemicals. New York: CRC Press, 1999, pp 275–286.

  4. JH Batten, GW Stutte, RM Wheeler. Effect of crop development on biogenic emissions from plant populations
    grown in a closed plant growth chambers. Phytochemistry 39:1351–1357, 1995.

  5. GW Stutte, RM Wheeler. Accumulation and effects of volatile organic compounds in closed life support sys-
    tems. Adv Space Res 20:1913–1922, 1997.

  6. RM Wheeler, BV Peterson, JC Sager, WM Knott. Ethylene production by plants in a closed environment. Adv
    Space Res 18:193–196, 1996.

  7. CS Charron, DJ Cantliffe, RM Wheeler. Photosynthetic photon flux, photoperiod, and temperature effects on
    volatile emission from lettuce. J Am Soc Hortic Sci 121:488 – 493, 1996.

  8. GW Stutte. Nitrogen dynamics in the CELSS Breadboard Facility at Kennedy Space Center. Life Support Bio-
    sphere Sci 3:67–74, 1996.

  9. FB Abeles, PW Morgan, ME Saltveit. Ethylene in Plant Biology. San Diego: Academic Press, 1992.

  10. BG Bugbee, FB Salisbury. Controlled environment crop production: hydroponic vs. lunar regolith. In: DW
    Ming, DL Henninger, eds. Lunar Base Agriculture: Soils for Plant Growth. Madison, WI: American Society of
    Agronomy, 1989, pp 107–129.

  11. JD Vessey, CD Raper, L Tolley Henry. Cyclic variations in nitrogen uptake rate in soybean plants: uptake dur-
    ing reproductive growth. J Exp Bot 41:1579–1584, 1990.

  12. ER Allen, DW Ming, LR Hossner, DL Henninger, C Galindo. Growth and nutrient uptake of wheat in clinop-
    tilolite-phosphate rock substrates. Agron J 87:1052–1059, 1995.

  13. RM Wheeler, CL Mackowiak, WL Berry, GW Stutte, NC Yorio, LM Ruffe, JC Sager. Nutrient, acid, and wa-
    ter budgets of hydroponically grown crops. Acta Hortic 481:655–661, 1999.

  14. CL Mackowiak, RM Wheeler, GW Stutte, NC Yorio, LM Ruffe. A recirculating hydroponic system for study-
    ing peanut (Arachis hypogaeaL.). HortScience 33:650 – 651, 1998.

  15. DG Mortley, CK Bonsi, PA Loretan, CE Morris, WA Hill, CR Ogbuehi. Evaluation of sweet potato genotypes
    for adaptability to hydroponic systems. Crop Sci 31:84 – 847, 1991.

  16. GV Subbarao, RM Wheeler, GW Stutte, LH Levine. How far can sodium substitute for potassium in red beet.
    J Plant Nutr 2:1745–1761, 1999.

  17. B Bugbee, FB Salisbury. An evaluation of MES [2(N-morpholino)-ethanesulfonic acid] and amberlite IRC-50
    as pH buffers for nutrient solution studies. J Plant Nutr 8:567–583, 1985.

  18. H Marschner. Mineral Nutrition of Higher Plants, New York: Academic Press, 1995.

  19. CL Mackowiak, RM Wheeler, GW Stutte, NC Yorio, JC Sager. Use of biologically reclaimed minerals for con-
    tinuous hydroponic potato production in a CELSS. Adv Space Res 20:1815–1820, 1997.

  20. GW Stutte, CM Mackowiak, NC Yorio, RM Wheeler. Theoretical and practical considerations of staggered
    crop production in a BLSS. Life Support Biosphere Sci 6:287–291, 1999.

  21. RM Wheeler, GW Stutte, CL Mackowiak, NC Yorio, LM Ruffe. Accumulation of possible potato tuber-in-
    ducing factor in continuous use recirculating NFT systems. HortScience 30:790, 1995.

  22. DW Ming. Manufactured soils for plant growth at a lunar base. In: DW Ming, DL Henninger, eds. Lunar Base
    Agriculture. Soils for Plant Growth. Madison, WI: American Society of Agronomy, 1989, pp 93–105.

  23. G He, CS Prakash, RL Jarret. Analysis of genetic diversity in a sweetpotato (Ipomoea batatas) germplasm col-
    lection using DNA amplification fingerprinting. Genome 38:938–945, 1985.

  24. JL Garland. The structure and function of microbial communities in recirculating hydroponic systems. Adv
    Space Res 14:383–386, 1994.

  25. CA Loader, JL Garland, LH Levine, KL Cook, CL Mackowiak, HE Vivenzio. Direct recycling of human hy-
    giene water into hydroponic plant growth systems. Life Support Biosphere Sci 6:141–152, 1999.

  26. D Bubenheim, K Wignarajah, W Berry, T Wydeven. Phytotoxic effects of gray water due to surfactants. J Am
    Soc Hortic Sci 122:792–796, 1997.

  27. A Morales, JL Garland, DV Lim. Survival of potentially pathogenic human-associated bacteria in the rhizo-
    sphere of hydroponically grown wheat. FEMS Microb Ecol 20:155–162, 1996.

  28. H Kurokawa, K Funabashi, M Oda, S Sugawara, A Ashida, K Nitta. Mineral recovery system for closed ecol-
    ogy experiment facility (CEEF). Life Support Biosphere Sci 5:249–253, 1998.

  29. GV Subbarao, RM Wheeler, CL Mackowiak. Recycling of Na in advanced life support: strategies based on
    crop production systems. Life Support Biosphere Sci 6:153–160, 1999.

  30. BW Finger, RF Strayer. Development of an intermediate-scale aerobic bioreactor to regenerate nutrients from
    inedible crop residues. SAE Tech Paper 941501, 1994.

  31. CL Mackowiak, JL Garland, JC Sager. Recycling crop residues for use in recirculating hydroponic crop pro-
    duction. Acta Hortic 440:19–24, 1996.

  32. RF Strayer, CF Atkinson. Recycling nutrient from crop residues for space applications. Compost Sci Util
    5:25–31, 1997.


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