Fluid ionic composition influences hydraulic conductance of xylem conduits

doi:10.1093/jexbot/51.345.769

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Journal of Experimental Botany, Vol. 51, No. 345, pp. 769-776, April 2000
© 2000 Oxford University Press

Fluid ionic composition influences hydraulic conductance of xylem conduits

W. van Ieperen¹, U. van Meeteren and H. van Gelder

Department of Plant Sciences, Horticultural Production Chains group, Wageningen University, Marijkeweg 22, 6709 PG, Wageningen, The Netherlands

The direct effect of fluid composition on xylem hydraulic conductanceis investigated in excised stem segments of chrysanthemum (Dendranthemaxgrandiflorum Tzvelev cv. Cassa) plants. Dynamic changes in hydraulicconductance are accurately measured at 30 s intervals beforeand after modifications of the composition of the standard fluid(deionized water). It is investigated whether osmotic propertiesof the flowing solution influence overall hydraulic conductanceby affecting the hydraulic conductance of vessel-to-vessel pitmembranes, as has previously been suggested. Various iso-osmoticsalt solutions (20 mOsm kg^-1) of different composition raisedthe hydraulic conductance of 20 cm long stem segments approximately5–8% compared to deionized water. In contrast, carbohydratesolutions with similar osmotic strength and pH did not causeany change in hydraulic conductance. KCl solutions that greatlydiffered in osmotic strength all increased hydraulic conductance,but the response was not correlated with the osmotic strengthof the solution. Increasing the number of vessels that wereopen from one cut end to the other by shortening the stem segmentsgreatly increased the hydraulic conductance response. Changingfrom deionized water to a salt solution caused an immediateincrease in hydraulic conductance, while a shift back to deionizedwater resulted in a slow decline. This decline lasted longerwhen the salt solution contained divalent cations compared tomonovalent cations. It is concluded that the presence of cationsand not the osmotic strength in the flowing solution influencedthe hydraulic conductance. The phenomenon is not caused by thevessel-to-vessel pit membranes, which in fact suppressed theeffect, due to their large contribution to the overall resistanceto water flow.

Key words: Xylem vessel, resistance, water flow, salts.

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