Primed in Denmartc -. all nghlx reserved niiti! (g) Ptiysiohgia Pttintantm t994 /SSA' 003l-93t7Changes in free amino acids and osmotic adjuS'tment in leaves of water-stressed bean Vittorio Raggi Raggi, V, 1994. Changes in free arnino acids and osmotic adjustment in leaves of water-stressed hean. -Physiol. Plant. 91: 427-434.Bean (Phaseolus vulgaris L. cv. Topcrop) plants were raised m a growth chamher in stnall pots or flower boxes and kept at full water regime until the full development of primai'y leaves (14-16 days). Both potted and flower box-grown plants were subjected to a gradually increased water stress of about 60-70 kPa day' leaf water potential (stressed plants) or full water regime (control). The water potential, osmotic potential and turgor pressure in freshly detached primary leaves and osmotic potendal at zero torgor were calculated usitig pressure/volume curves. Changes in free amino acids and amides were also measured in parallel trials. Water relation parameters documented that in the sn'essed leaves there was tnoderate osmotic adjustment, which was more evident in the potted plants, if considered 0% ionised, the accumuladon of free amino acids and amides (jxmoi g^' H2O) accounts for a van't HofFs value of about 10.2 kPa in the small pot-grown and 5,5 kPa in tbe hox-grown plants. The values are twice as high if considered 100% ionised. Proline accumulation accounted for about 6.4% of the pool enlargement in the potted plants and 22,3% in the flower hO' X plants.
Bean (Phaseolus vulgaris L. cv. Topcrop) plants were raised in a growth chamber in small pots or flower boxes and kept at full water regime until the full development of primary leaves (14–16 days). Both potted and flower box‐grown plants were subjected to a gradually increased water stress of about 60–70 kPa day−1 leaf water potential (stressed plants) or full water regime (control). The water potential, osmotic potential and turgor pressure in freshly detached primary leaves and osmotic potential at zero turgor were calculated using pressure/volume curves. Changes in free amino acids and amides were also measured in parallel trials. Water relation parameters documented that in the stressed leaves there was moderate osmotic adjustment, which was more evident in the potted plants. If considered 0% ionised, the accumulation of free amino acids and amides (μmol g−1 H2O) accounts for a van't Hoff's value of about 10.2 kPa in the small pot‐grown and 5.5 kPa in the box‐grown plants. The values are twice as high if considered 100% ionised. Proline accumulation accounted for about 6.4% of the pool enlargement in the potted plants and 22.3% in the flower box plants.
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