Comparison of osmotic adjustment,leaf proline concentration,canopy temperature and root depth for yield of juncea canola under terminal drought |
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| Authors: | B. R. Pandey W. A. Burton P. A. Salisbury M. E. Nicolas |
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| Affiliation: | 1. Faculty of Veterinary and Agricultural Sciences, The University of Melbourne, Melbourne, Vic., Australia;2. Grains Innovation Park, Seednet Australia, Horsham, Vic., Australia;3. Centre of AgriBioscience, Agribio, Department of Economic Development, Jobs, Transport and Resources, Bundoora, Vic., Australia |
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| Abstract: | Two glasshouse and two field experiments were conducted in 2013 and 2014 to compare the relative importance of four physiological traits: osmotic adjustment (OA), leaf proline concentration, canopy temperature depression (CTD) and root depth on drought performance of canola quality B. juncea (juncea canola). Glasshouse experiments were conducted at The University of Melbourne, Parkville, and field experiments were conducted at Horsham, Victoria. The experiments used juncea canola hybrids and their parental lines and were laid out in a randomised complete block design with three replications. The glasshouse experiments consisted of two treatments, well watered and water deficit from first open flower to maturity, whereas the field experiments were sown at a site that received 266 mm annual rainfall in 2014. In the glasshouse, canopy temperature depression was the only trait to show a positive and consistent association with drought performance of juncea canola. Cooler canopy temperature was also associated with improved yield in field experiments. Root depth was positively correlated with CTD in 2014 in glasshouse, whereas no correlation of root depth with OA and leaf proline was observed. The results indicated that CTD was the only reliable trait among those tested to screen juncea canola for drought tolerance. Root depth of juncea canola hybrids was a constitutive trait and probably was a result of hybrid vigour. |
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| Keywords: | canopy temperature juncea canola osmotic adjustment root depth terminal drought |
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