Effect of irrigation frequency and water distribution pattern on leaf gas exchange of cv. ‘Syrah’ grown on a clay soil at two levels of water availability

•Irrigation frequency and water distribution pattern affected leaf gas exchange.•The effect of irrigation frequency was more relevant.•The effect of irrigation frequency was stronger when water availability was lower.•Changing irrigation intervals promoted plant acclimation to cope with water stress...

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Bibliographic Details
Published in:Agricultural water management 2016-11, Vol.177, p.410-418
Main Authors: Sebastian, Bárbara, Lissarrague, José R., Santesteban, Luis G., Linares, Rubén, Junquera, Pedro, Baeza, Pilar
Format: Article
Language:English
Subjects:
Availability
Clay (material)
Drip irrigation
Emitters
Gas exchange
Grapevine
Grapevines
Irrigation
Leaf water potential
Vitaceae
Vitis vinifera L
Water distribution
Water engineering
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Summary:•Irrigation frequency and water distribution pattern affected leaf gas exchange.•The effect of irrigation frequency was more relevant.•The effect of irrigation frequency was stronger when water availability was lower.•Changing irrigation intervals promoted plant acclimation to cope with water stress. The implications of water availability in grapevine physiology have been widely studied before. However, for a given irrigation water amount, the effect of other aspects such as application frequency, or emitter spacing and flow rate (i.e.: distribution pattern) has been scarcely studied, with nearly no previous research on their implications on leaf gas exchange. The aim of this work was to evaluate the physiological response of grapevine to two irrigation frequencies (IrrF, every 2 and 4days) and two water distribution patterns (DisP, 2L h−1 emitters every 0.6m vs. 4L h−1 emitters every 1.2m). The experiment was carried out in a cv. Syrah vineyard with a clay soil in central Spain, and the two factors were evaluated under two water availability conditions (low and medium). IrrF and DisP promoted changes in leaf gas exchange. Under low WA conditions, plants irrigated every 4days had higher average net assimilation than plants irrigated every 2days. Under medium WA conditions leaf gas exchange depended on the day of measurement with respect to irrigation. Water distribution pattern effect was less evident, but plants with closer emitters performed better under medium WA. The results obtained suggest that variations in irrigation frequency and water availability promote plant acclimation to water deficit conditions, more intense as irrigation dose was lower and as irrigation frequency was higher.
ISSN:0378-3774
1873-2283
DOI:10.1016/j.agwat.2016.08.032