Root hydraulic conductance: diurnal aquaporin expression and the effects of nutrient stress

doi:10.1093/jexbot/51.342.61

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Journal of Experimental Botany, Vol. 51, No. 342, pp. 61-70, January 2000
© 2000 Oxford University Press

Root hydraulic conductance: diurnal aquaporin expression and the effects of nutrient stress

David T. Clarkson¹^,4, Micaela Carvajal², Tobias Henzler³, Rosemary N. Waterhouse¹, Audra J. Smyth¹, David T. Cooke¹ and Ernst Steudle³

¹ Department of Plant Sciences, IACR—Long Ashton Research Station, University of Bristol, Bristol BS41 9AF, UK
² Nutricion y Fisiologia Vegetal, CEBAS-CSIC, PO Box 4195, 30080 Murcia, Spain
³ Lehrstuhl Pflanzenökologie, Universität Bayreuth, D-95440 Bayreuth, Germany

It has been shown that N-, P- and S-deficiencies result in majorreductions of root hydraulic conductivity (Lp_r) which may leadto lowered stomatal conductance, but the relationship betweenthe two conductance changes is not understood. In a varietyof species, Lp_r decreases in the early stages of , H₂ and deprivation. These effects can be reversed in 4–24 h after the deficientnutrient is re-supplied. Diurnal fluctuations of root Lp_r havealso been found in some species, and an example of this is givenfor Lotus japonicus. In nutrient-sufficient wheat plants, rootLp_r is extremely sensitive to brief treatments with HgCl₂; theseeffects are completely reversible when Hg is removed. The lowvalues of Lp_r in N- or P-deprived roots of wheat are not affectedby Hg treatments. The properties of plasma membrane (PM) vesiclesfrom wheat roots are also affected by -deprivation of the intact plants. The osmotic permeability of vesicles fromN-deprived roots is much lower than that of roots adequatelysupplied with , and is insensitive to Hg treatment. In roots of L. japonicus, gene transcripts are foundwhich have a strong homology to those encoding the PIP1 andPIP2 aquaporins of Arabidopsis. There is a very marked diurnalcycle in the abundance of mRNAs of aquaporin gene homologuesin roots of L. japonicus. The maxima and minima appear to anticipatethe diurnal fluctuations in Lp_r by 2–4 h. The temporalsimilarity between the cycles of the abundance of the mRNAsand root Lp_r is most striking. The aquaporin encoded by AtPIP1is known to have its water permeation blocked by Hg binding.The lack of Hg-sensitivity in roots and PMs from N-deprivedroots provides circumstantial evidence that lowered root Lp_rmay be due to a decrease in either the activity of water channelsor their density in the PM. It is concluded that roots are capable,by means completely unknown, of monitoring the nutrient contentof the solution in the root apoplasm and of initiating responsesthat anticipate by hours or days any metabolic disturbancescaused by nutrient deficiencies. It is the incoming nutrientsupply that is registered as deficient, not the plant’snutrient status. At some point, close to the initiation of theseresponses, changes in water channel activity may be involved,but the manner in which monitoring of nutrient stress is transducedinto an hydraulic response is also unknown.

Key words: lotus japonicus, hydraulic conductivity, diurnal cycle, aquaporin, root, plasma membrane.

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