Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. JW White, J Kornegay, J Castillo, CH Molano, C Cajiao, G Tejada. Effect of growth habit on yield of large-
    seeded bush bean cultivars of common bean. Field Crops Res 29:151–161, 1992.

  2. P Masaya, JW White. Adaptation to photoperiod and temperature. In: A van Schoonhoven, O Voysest, eds.
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    CIAT, 1991, pp 445–500.

  3. DH Wallace, KS Yourstone, JP Baudoin, J Beaver, DP Coyne, JW White, RW Zobel. Photoperiod temper-
    ature interaction effects on the days to flowering of bean (Phaseolus vulgarisL.). In: M Pessarakli, ed. Hand-
    book of Plant and Crop Physiology. New York: Marcel Dekker, 1995, pp 863–891.

  4. J Haterlein, CD Clayberg, LD Teare. Influence of high temperature on pollen grain viability and pollen tube
    growth in the styles of Phaseolus vulgarisL. J Am Soc Hortic Sci 105:12–14, 1980.

  5. ML Weaver, R Timm, MJ Silbernagel, DW Burki. Pollen staining and high temperature tolerance of bean. J
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  6. Y Gross, J Kigel. Differential sensitivity to high temperature of stages in the reproductive development of com-
    mon bean (Phaseolus vulgarisL.). Field Crops Res 36:201–212, 1994.

  7. G Hoogenboom, DS McSmith. Temperature sensitivity of common bean during germination. Annu Rep Bean
    Improv Coop 35:72–73, 1992.

  8. JW White, C Montes-R. The influence of temperature on seed germination in cultivars of common bean. J Exp
    Bot 44:1795–1800, 1993.

  9. HZ Zaiter, E Baydoun, M Sayed-Hallak. Genotipic variation in common bean in response to cold temperature
    stress. Annu Rep Bean Improv Coop 36:66–67, 1993.

  10. ST Otubo, MAP Ramalho, AFB Abreu, JB dos Santos, B Griffing, JL Jinks, HS Pooni. Genetic control of low
    temperature tolerance in germination of the common bean (Phaseolus vulgarisL.). Euphytica 89:313–317,
    1996.

  11. D Genchev. Screening for cold tolerance in dry bean (planting-emergence). Annu Rep Bean Improv Coop
    31:210–212, 1988.

  12. GC Shonnard, P Gepts. Genetics of heat tolerance during reproductive development in common bean. Crop Sci
    34:1168–1175, 1994.

  13. P Miranda, CJ da Anunciação Filho, DG da Cruz, VF dos Santos. Tolerância de cultivares de feijão comum
    (Phaseolus vulgarisL.) a alta temperatura. Pesq Agropec Pernambucana 8:73–80, 1997.

  14. DH Wallace. Physiological genetics of plant maturity, adaptation, and yield. Plant Breed Rev 3:21–167, 1985.

  15. JW White, DR Laing. Photoperiod response of flowering in diverse genotypes of common bean (P. vulgaris).
    Field Crops Res 22:113–128, 1989.

  16. JA Acosta-Gallegos, P Vargas-Vazquez, JW White. Effect of sowing date on the growth and seed yield of com-
    mon bean (Phaseolus vulgarisL.) in highland environments. Field Crops Res 49:1–10, 1996.

  17. JW White, SP Singh. Breeding for adaptation to drought. In: A van Schoonhoven, O Voysest, eds. Common
    Beans: Research for Crop Improvement. Wallingford, UK: CAB International and Cali, Colombia: CIAT,
    1991, pp 501–560.

  18. M Thung, IM Rao. Integrated management of abiotic stresses. In: SP Singh, ed. Common Bean Improvement
    in the Twenty-First Century. Dordrecht: Kluwer Academic Publishers, 1999, pp 331–370.

  19. JW White. Implications of carbon isotope discrimination studies for breeding common bean under water
    deficits. In: JR Ehleringer, AE Hall, GD Farquhar, eds. Stable Isotopes and Plant Carbon-Water Relations. San
    Diego: Academic Press, 1993, pp 387–398.

  20. JS Robins, CE Domingo. Moisture deficits in relation to the growth and development of dry beans. Agron J
    48:67–70, 1956.

  21. JA Acosta-Gallegos, J Kohashi-Shibata. Effect of water stress on growth and yield of indeterminate dry-bean
    (Phaseolus vulgaris) cultivars. Field Crops Res 20:81–93, 1989.

  22. G Bascur, MA Oliva, D Laing. Termometria infrarroja en selección de genotipos de frijol (Phaseolus vulgaris,
    L) resistentes a sequía: II. Crecimiento y productividad. Turrialba 35:49–53, 1985.

  23. BN Sponchiado, JW White, JA Castillo, PG Jones. Root growth of four common bean cultivars in relation to
    drought tolerance in environments with contrasting soil types. Exp Agric 25:249–257, 1989.

  24. JW White, JA Castillo. Relative effect of root and shoot genotypes on yield of common bean under drought
    stress. Crop Sci 29:360–362, 1989.

  25. PM da Silveira, CM Guimaraes, LF Stone, J Kluthcouski. Aviliacao de cultivares de feijao para resistencia a
    seca baseada em dias de estresse de água no solo. Pesqui Agropecu Bras 16:693–699, 1981.

  26. DE Miller, DW Burke. Response of dry beans to daily deficit sprinkler irrigation. Agron J 75:775–778, 1983.

  27. J Jara-R. Respuesta a sequía de cinco variedades de frijol (Phaseolus vulgarisL.): estudio preliminar. Agro-
    ciencia (Chile) 6:95–101, 1990.

  28. JA Acosta-Gallegos. Selection of common bean (Phaseolus vulgaris) genotypes with enhanced drought toler-
    ance and biological nitrogen fixation. PhD dissertation (Diss Abstr 88-24816). Michigan State University, East
    Lansing, MI, 1988.

  29. JR Ehleringer, S Klassen, C Clayton, D Sherrill, M Fuller-Holbrook, Q Fu, TA Cooper. Carbon isotope dis-
    crimination and transpiration efficiency in common bean. Crop Sci 31:1611–1615, 1991.

  30. WY Kao, MP Comstock, JR Ehleringer. Variation in leaf movements among common bean cultivars. Crop Sci
    34:1273–1278, 1994.


ADAPTATION OF BEANS AND FORAGES TO ABIOTIC STRESSES 607

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