Handbook of Plant and Crop Physiology

(Steven Felgate) #1

  1. JW White, JA Castillo, JR Ehleringer, JA Garcia-C, SP Singh. Relations of carbon isotope descrimination and
    other physiological traits to yield in common bean (Phaseolus vulgaris) under rainfed conditions. J Agric Sci
    (Camb) 122:275–284, 1994.

  2. JA Acosta-Gallegos, JW White. Phenological plasticity as an adaptation by common bean to rainfed environ-
    ments. Crop Sci 35:199–204, 1995.

  3. EF Foster, A Pajarito, JA Acosta-Gallego. Moisture stress impact on N partitioning, N remobilization and N-
    use efficiency in beans (Phaseolus vulgaris). J Agric Sci (Camb) 124:27–37, 1995.

  4. KA Schneider, R Rosales-Serna, F Ibarra-Perez, B Cazares-Enriquez, JA Acosta-Gallego, P Ramirez-Vallejo,
    N Wassimi, JD Kelly. Improving common bean performance under drought stress. Crop Sci 37:43–50,



  5. JW White. Preliminary results of the Bean International Drought Yield Trial (BIDYT). In: JW White, JWG
    Hoogenboom, F Ibarra, SP Singh, eds. Research on Drought Tolerance in Common Bean. Working Document
    No 41. Cali, Colombia: CIAT, 1988, pp 126–145.

  6. Y Castonguay, AH Markhart III. Saturated rates of photosynthesis in water-stressed leaves of common bean
    and tepary bean. Crop Sci 31:1605–1611, 1991.

  7. JW White, JA Castillo. Evaluation of diverse shoot genotypes on selected root genotypes of common bean un-
    der soil water deficits. Crop Sci 32:762–765, 1992.

  8. RC Nageswara Rao, GC Wright. Stability of the relationship between specific leaf area and carbon isotope dis-
    crimination across environments in peanut. Crop Sci 34:98–103, 1995.

  9. CM Guimarães. Efeitos fisiologicos do estresse hídrico. In: MJO Zimmermann, M Rocha, MR Yamada, eds.
    Cultura do feijoeiro. Piracicaba, Brazil: Associação Brasileira para Pesquisa de Potássio e do Fosfato, 1988, pp
    157–174.

  10. JW White, R Ochoa, MF Ibarra P, SP Singh. Inheritance of seed yield, maturity and seed weight of common
    bean (Phaseolus vulgaris) under semi-arid rainfed conditions. J Agric Sci (Camb) 122:265–273, 1994.

  11. JA Acosta-Gallegos, MW Adams. Plant traits and yield stability of dry bean (Phaseolus vulgaris) cultivars un-
    der drought stress. J Agric Sci (Camb) 117:213–219, 1991.

  12. SP Singh. Selection for water-stress tolerance in interracial populations of common bean. Crop Sci
    35:118–124, 1995.

  13. KA Schneider, ME Brothers, JD Kelly. Marker-assisted selection to improve drought resistance in common
    bean. Crop Sci 37:51–60, 1997.

  14. CIAT. Bean Improvement for Sustainable Productivity, Input Use Efficiency, and Poverty Alleviation. Annual
    Report—Project IP-1. Cali, Colombia: CIAT, 1999, p 139.

  15. T Fairhurst, R Lefroy, E Mutert, N Batjes. The importance, distribution and causes of phosporus deficiency as
    a constraint to crop production in the tropics. Agrofor Forum 9:2–8, 1999.

  16. TT Cochrane, LG Sánchez, JA Porras, LG de Azevedo, CL Garver. Land in Tropical America. Cali, Colom-
    bia: CIAT, 1985.

  17. PH LeMare. Sorption of isotopically exchangeable and non-exchangeable phosphate by some soils of Colom-
    bia and Brazil, and comparisons with soils of southern Nigeria. J Soil Sci 33:691–707, 1982.

  18. IM Rao, DK Friesen, WJ Horst. Opportunities for germplasm selection to influence phosphorus acquisition
    from low-phosphorus soils. Agrofor Forum 9:13–17, 1999.

  19. J Caradus. Mechanisms improving nutrient use by crop and herbage legumes. In: VC Baligar, RR Duncan, eds.
    Crops as Enhancers of Nutrient Use. San Diego: Academic Press, 1990, pp 253–311.

  20. RB Clark, RR Duncan. Improvement of plant mineral nutrition through breeding. Field Crops Res 27:219–240,



  21. RT Koide. Nutrient supply, nutrient demand and plant response to mycorrhizal infection. New Phytol
    117:365–386, 1991.

  22. T Otani, N Ae. Phosphorus (P) uptake mechanisms of crops grown in soils with low P status. I. Screening crops
    for efficient P uptake. Soil Sci Plant Nutr 42:155–163, 1996.

  23. CIAT (Centro Internacional de Agricultura Tropical). Constraints to and Opportunities for Improving Bean
    Production. A Planning Document 1993–98 and an Achieving Document 1987–92. Cali, Colombia: CIAT,
    1992, p 178.

  24. CS Wortmann, RA Kirkby, CA Eledu, DJ Allen. Atlas of Common Bean (Phaseolus vulgarisL.) Production
    in Africa. Cali, Colombia: CIAT, 1998, p 133.

  25. V Vadez, JH Lasso, DP Beck, JJ Drevon. Variability of N 2 -fixation in common bean (Phaseolus vulgarisL.)
    under P deficiency is related to P use efficiency: N 2 -fixation tolerance to P deficiency. Euphytica 106:231–242,



  26. DW Israel. Investigation of the role of phosphorus in symbiotic dinitrogen fixation. Plant Physiol 84:835–840,



  27. FA Bliss. Breeding common bean for improved biological nitrogen fixation. Plant Soil 152:71–79, 1993.

  28. JA Kipe-Nolt, H Vargas, KE Giller. Nitrogen fixation in breeding lines of Phaseolus vulgarisL. Plant Soil
    152:103–106, 1993.

  29. MG Teixeira, JGM Guerra, DL de Almeida, AP Araújo, AA Franco. Effect of seed phosphorus concentration
    on nodulation and growth of three common bean cultivars. J Plant Nutr 22:1599–1611, 1999.


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