Response to drought and salt stress of lemon ‘Fino 49’ under field conditions: Water relations, osmotic adjustment and gas exchange

Drought and salinity are two of the most important factors limiting the lemon yield in south-eastern Spain. The effects of drought and salt stress, applied independently, on water relations, osmotic adjustment and gas exchange in the highest evapotranspiration period were studied to compare the tole...

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Bibliographic Details
Published in:Scientia horticulturae 2009-09, Vol.122 (1), p.83-90
Main Authors: Pérez-Pérez, J.G., Robles, J.M., Tovar, J.C., Botía., P.
Format: Article
Language:English
Subjects:
Agronomy. Soil science and plant productions
Biological and medical sciences
chlorides
Citrus limon
Drought
evapotranspiration
Fundamental and applied biological sciences. Psychology
Gas exchange
ion transport
leaf water potential
leaves
Lemon trees
lemons
Osmotic adjustment
osmotic pressure
plant adaptation
plant-water relations
proline
Salinity
salt stress
turgor
Water relations
water stress
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Summary:Drought and salinity are two of the most important factors limiting the lemon yield in south-eastern Spain. The effects of drought and salt stress, applied independently, on water relations, osmotic adjustment and gas exchange in the highest evapotranspiration period were studied to compare the tolerance and adaptive mechanisms of 13-year-old ‘Fino 49’ lemon trees, in immature and mature leaves. The study was carried out in an experimental orchard located in Torre Pacheco (Murcia). Three treatments were applied: Control, well-irrigated; drought-stress (DS), non-irrigated from 15th May to 7th July and salinity, irrigated with 30 mM NaCl from 1st March to 7th July. At the end of the experiment, only DS trees showed a decreased leaf stem water potential ( Ψ md). Under DS conditions, both types of leaf lost turgor and did not show any osmotic or elastic mechanism to maintain leaf turgor. Osmotic adjustment was the main tolerance mechanism for maintenance of turgor under salt stress, and was achieved by the uptake of Cl − ions. Gas-exchange parameters were reduced by DS but not by salinity, stomatal closure being the main adaptive mechanism for avoidance of water loss and maintenance of leaf turgor. Salinity gave rise to greater Cl − accumulation in mature than in immature leaves. The increase of proline in immature leaves due to DS indicates greater damage than in mature leaves.
ISSN:0304-4238
1879-1018
DOI:10.1016/j.scienta.2009.04.009