Journal
BOTANICAL STUDIES
Volume 55, Issue -, Pages -Publisher
SPRINGEROPEN
DOI: 10.1186/s40529-014-0075-1
Keywords
Sunflower; Aquaporins; Root; Hydraulic conductivity
Categories
Funding
- French Government scholarship (Bourse du Gouvernement Francais, BGF)
- Directorate General of Higher Education, Ministry of Education and Culture, Republic of Indonesia (Beasiswa Luar Negeri, BLN)
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Background: This article evaluates the potential of intraspecific variation for whole-root hydraulic properties in sunflower. We investigated genotypic differences related to root water transport in four genotypes selected because of their differing water use efficiency (JAC doi: 10.1111/jac.12079. 2014). We used a pressure-flux approach to characterize hydraulic conductance (L-0 ) which reflects the overall water uptake capacity of the roots and hydraulic conductivity (Lp(r) ) which represents the root intrinsic water permeability on an area basis. The contribution of aquaporins (AQPs) to water uptake was explored using mercuric chloride (HgCl2), a general AQP blocker. Results: There were considerable variations in root morphology between genotypes. Mean values of L-0 and Lp(r) showed significant variation (above 60% in both cases) between recombinant inbred lines in control plants. Pressure-induced sap flow was strongly inhibited by HgCl2 treatment in all genotypes (more than 50%) and contribution of AQPs to hydraulic conductivity varied between genotypes. Treated root systems displayed markedly different L-0 values between genotypes whereas Lp(r) values were similar. Conclusion: Our analysis points to marked differences between genotypes in the intrinsic aquaporin-dependent path (Lp(r) in control plants) but not in the intrinsic AQP-independent paths (Lp(r) in HgCl2 treated plants). Overall, root anatomy was a major determinant of water transport properties of the whole organ and can compensate for a low AQP contribution. Hydraulic properties of root tissues and organs might have to be taken into account for plant breeding since they appear to play a key role in sunflower water balance and water use efficiency.
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