- AM Rychter, M Mikulska. The relationship between phosphate status and cyanide-resistant respiration in bean
roots. Physiol Plant 79:663–667, 1990. - AM Rychter, M Cheauveau, J-L Bomsel, C Lance. The effect of phosphate deficiency on mitochondrial activ-
ity and adenylate levels in bean roots. Physiol Plant 84:80–86, 1992. - A Gniazdowska, A Krawczak, M Mikulska, AM Rychter. Low phosphate nutrition alters bean plants’ ability
to assimilate and translocate nitrate. J Plant Nutr 22:551–563, 1999. - WH Gabelman, GC Gerloff. The search for an interpretation of genetic controls that enhance plant growth un-
der deficiency levels of a macronutrient. Plant Soil 72:335–350, 1983. - S Snapp, JP Lynch. Phosphorus distribution and remobilization in bean plants as influenced by phosphorus nu-
trition. Crop Sci 36:929–935, 1996. - JP Lynch, J van Beem. Growth and architecture of seedling roots of common bean genotypes. Crop Sci
33:1253–1257, 1993. - S Snapp, R Koide, J Lynch. Exploitation of localized phosphorus-patches by common bean roots. Plant Soil
177:211–218, 1995. - KL Nielsen, JP Lynch, AG Jablokow, PS Curtis. Carbon cost of root systems: an architectural approach. Plant
Soil 165:161–169, 1994. - J Lynch. Root architecture and plant productivity. Plant Physiol 109:7–13, 1995.
- JP Lynch, KM Brown. Regulation of root architecture by phosphorus availability. In: JP Lynch, J Deikman,
eds. Phosphorus in Plant Biology: Regulatory Roles in Molecular, Cellular, Organismic, and Ecosystem Pro-
cesses. Rockville, MD: American Society of Plant Physiologists, 1999, pp 148–156. - JP Lynch, KL Nielsen, RD Davis, AG Jablokow. SimRoot: modelling and visualization of botanical root sys-
tems. Plant Soil 188:139–151, 1997. - AM Bonser, J Lynch, S Snapp. Effect of phosphorus deficiency on growth angle of basal roots in Phaseolus
vulgaris. New Phytol 132:281–288, 1996. - H Liao, G Rubio, X Yan, JP Lynch. Gravitropic response of bean root system to phosphorus deficiency. In: JP
Lynch, J Deikman, eds. Phosphorus in Plant Biology: Regulatory Roles in Molecular, Cellular, Organismic,
and Ecosystem Processes. Rockville, MD: American Society of Plant Physiologists, 1999, pp 329–331. - I Fawole, WH Gabelman, GC Gerloff, EV Nordheim. Heritability of efficiency of phosphorus utilization in
beans (Phaseolus vulgarisL.) grown under phosphorus stress. J Am Soc Hortic Sci 107:94–97, 1982. - I Fawole, WH Gabelman, GC Gerloff. Genetic control of root development in beans (Phaseolus vulgarisL.)
grown under phosphorus stress. J Am Soc Hortic Sci 107:98–100, 1982. - C Urrea, SP Singh. Heritability of yield of common bean in soil with low phosphorus content (abstract). In: S
Beebe, ed. Current Topics in Breeding of Common Bean. Cali, Colombia: CIAT, 1989, p 392. - TM Schettini, WH Gabelman, GC Gerloff. Incorporation of phosphorus efficiency from exotic germplasm into
agriculturally adapted germplasm of common bean (Phaseolus vulgarisL.). Plant Soil 99:175–184, 1987. - A Saborío, S Beebe. Mejoramiento para tolerancia a bajo fosforo en Costa Rica. In: RA Villalobos, D Beck,
eds. Mejoramiento y manejo agronómico del frijol común (Phaseolus vulgaris) para adaptación en suelos de
bajo fósforo. San Jose, Costa Rica: University of Costa Rica, 1995, pp 9–18. - H Posada, J Kornegay, D Beck. Estudio de herencia y mecanismos de tolerancia en lineas de frijol (Phaseolus
vulgarisL.) andinas y mesoamericanas a bajo fosforo en el suelo. In: RA Villalobos, D Beck, eds. Mejo-
ramiento y manejo agronómico del frijol común (Phaseolus vulgaris) para adaptación en suelos de bajo fós-
foro. San Jose, Costa Rica: University of Costa Rica, 1995, pp 41–57. - CIAT. Bean Project Annual Report 1998. Working Document No 179. Cali, Colombia: CIAT, 1999, p 202.
- JJ Ni, P Wu, D Senadhira, N Huang. Mapping QTLs for phosphorus deficiency tolerance in rice (Oryza sativa
L.). Theor Appl Genet 97:1361–1369, 1998. - SP Singh. Bean genetics: nonbiotic stresses. In: A van Schoonhoven, O Voysest, eds. Common Beans: Re-
search for Crop Improvement. Wallingford, UK: CAB International, and Cali, Colombia: CIAT, 1991, pp
232–233. - J Lynch, JW White. Shoot nitrogen dynamics in tropical common bean. Crop Sci 32:392–397, 1992.
- J Lynch, NS Rodriguez H. Photosynthetic nitrogen-use efficiency in relation to leaf longevity in common bean.
Crop Sci 34:1284–1290, 1994. - PH Graham. Some problems of nodulation and symbiotic nitrogen fixation in Phaseolus vulgarisL. Field
Crops Res 4:93–112, 1981. - RJ Rennie, GA Kemp. N 2 fixation in field beans quantified by “N isotope dilution.” II. Effect of cultivars of
beans. Agron J 75:645–649, 1983. - JA Kipe-Nolt, H Vargas. Components of nitrogen fixation in Phaseolus vulgarisL (abstract). In: S Beebe, ed.
Current Topics in Breeding of Common Bean. Cali, Colombia: CIAT, 1989, p 403. - FA Bliss, G Hardarson, eds. Enhancement of Biological Nitrogen Fixation of Common Bean in Latin Amer-
ica. Dordrecht: Kluwer Academic Publishers, 1993, p 160. - RA Henson, FA Bliss. Effect of fertilizer N application timing on common bean production. Fertil Res
29:133–138, 1991. - PF Shea, WH Gabelman, GC Gerloff. The inheritance of efficiency in potassium utilization in snap beans
(Phaseolus vulgarisL.). Proc Am Soc Hortic Sci 91:286–293, 1967.
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