The cadmium-tolerant pea (Pisum sativum L.) mutant SGECd(t) is more sensitive to mercury : assessing plant water relations

Belimov, Andrey A. and Dodd, Ian C. and Safronova, Vera I. and Malkov, Nikita V. and Davies, William J. and Tikhonovich, Igor A. (2015) The cadmium-tolerant pea (Pisum sativum L.) mutant SGECd(t) is more sensitive to mercury : assessing plant water relations. Journal of Experimental Botany, 66 (8). pp. 2359-2369. ISSN 0022-0957

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Heavy metals have multiple effects on plant growth and physiology, including perturbation of plant water status. These effects were assessed by exposing the unique Cd-tolerant and Cd-accumulating pea (Pisum sativum L.) mutant SGECd(t) and its wild-type (WT) line SGE to either cadmium (1, 4 mu M CdCl2) or mercury (0.5, 1, 2 mu M HgCl2) in hydroponic culture for 12 days. When exposed to Cd, SGECd(t) accumulated more Cd in roots, xylem sap, and shoot, and had considerably more biomass than WT plants. WT plants lost circa 0.2 MPa turgor when grown in 4 mu M CdCl2, despite massive decreases in whole-plant transpiration rate and stomatal conductance. In contrast, root Hg accumulation was similar in both genotypes, but WT plants accumulated more Hg in leaves and had a higher stomatal conductance, and root and shoot biomass compared with SGECd(t). Shoot excision resulted in greater root-pressure induced xylem exudation of SGECd(t) in the absence of Cd or Hg and following Cd exposure, whereas the opposite response or no genotypic differences occurred following Hg exposure. Exposing plants that had not been treated with metal to 50 mu M CdCl2 for 1 h increased root xylem exudation of WT, whereas 50 mu M HgCl2 inhibited and eliminated genotypic differences in root xylem exudation, suggesting differences between WT and SGECd(t) plants in aquaporin function. Thus, root water transport might be involved in mechanisms of increased tolerance and accumulation of Cd in the SGECd(t) mutant. However, the lack of cross-tolerance to Cd and Hg stress in the mutant indicates metal-specific mechanisms related to plant adaptation.

Item Type:
Journal Article
Journal or Publication Title:
Journal of Experimental Botany
Uncontrolled Keywords:
?? aquaporincadmiumdroughtmercurypearoot sap flowwater deficitroot hydraulic conductivityaquaporin gene-expressionabscisic-acidplasma-membranedrying soilaccumulationstressgrowthchannelsdroughtplant sciencephysiology ??
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09 Sep 2015 06:34
Last Modified:
15 Jul 2024 15:25