Growth attributes, xylem sap composition, and photosynthesis in common bean as affected by nitrogen and phosphorus deficiency

The effects of nitrogen (N-) and phosphorus (P-) deficiency, isolatedly or in combination, on growth, nitrogenous fraction, and inorganic phosphate in xylem exudade, and photosynthesis of common bean (Phaseolus vulgaris L. cv. Negrito) were investigated. Plants were grown in nutrient solution adjusted daily to pH 5.5 and aerated continuously. Ten days after emergence mineral deficiency was imposed. Plants were then supplied with high N (7.5 mol m(-3)) or low N (0.5 mol m(-3)), and also with high P (0.5 mol m(-3)) or low P (0.005 mol m(-3)). All sampling and measurements were made 28 days after emergence. N- or P-deprivation brought about: large decreases in total leaf area by inhibiting the emergence of new leaves and primarily the expansion of the leaves. The specific leaf area did not change under N- but decreased under P-limitation. The decreased shoot to root ratio in all deficiency treatments was a consequence of a lowering mass of above-ground organs, especially of leaves. The content of chlorophylls declined significantly only under N-deficiency alone; carotenoids declined under both N- and combined N- and P-limitation. No alteration in amino acid concentration in xylem exudate occurred in plants experiencing N-starvation, while ureides increased by 79%, and nitrate and inorganic phosphate decreased greatly. Under P-deprivation, amino acids and nitrate in xylem sap dropped by about half; ureides were held relatively constant, and phosphate was severely depressed. Total upward translocation of N through xylem was estimated to be about 16% higher in N-deficient plants than in plants without mineral limitation, but leaf N levels in the former were lower as compared to control plants. The net carbon (C) assimilation decreased similarly regardless of the imposed deficiency treatment. Such a decrease was mainly determined by non-stomatal factors. In general, no additive effect between N- and P-limitation on any of measured parameters was observed.