Automatic irrigation scheduling of apple trees using theoretical crop water stress index with an innovative dynamic threshold

•We developed an irrigation algorithm relying on a theoretical stress index (i.e. CWSI).•A new, variable threshold for the CWSI was developed.•Irrigation water was automatically delivered to the plots of apple trees.•There was a high correlation between midday CWSI and stem water potential.•The algo...

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Bibliographic Details
Published in:Computers and electronics in agriculture 2015-10, Vol.118, p.193-203
Main Authors: Osroosh, Yasin, Troy Peters, R., Campbell, Colin S., Zhang, Qin
Format: Article
Language:English
Subjects:
Adaptive algorithm
Algorithms
Apples
Automatic irrigation scheduling
Automation
Crop water stress index
Dynamic threshold
Irrigation
Scheduling
Seasons
Thermal sensing
Thresholds
Trees
Wireless control system
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Summary:•We developed an irrigation algorithm relying on a theoretical stress index (i.e. CWSI).•A new, variable threshold for the CWSI was developed.•Irrigation water was automatically delivered to the plots of apple trees.•There was a high correlation between midday CWSI and stem water potential.•The algorithm avoided over irrigation on humid, cool, and overcast days. An adaptive scheduling algorithm relying on a theoretical crop water stress index (CWSI) was developed to automatically irrigate apple trees. Unlike the traditional CWSI algorithm where the threshold is a constant value, in the present approach the threshold is dynamically determined by following the CWSI trend. A previous work on the energy budget analysis of a single apple leaf provided the base for calculating lower and upper boundaries of CWSI. To test the feasibility of the algorithm, it was applied to the thermal and meteorological data collected during the 2007 and 2008 growing seasons. A computer-based wireless control system was also developed to automatically schedule irrigations in three plots of apple trees in the 2013 growing season. In a small scale field experiment, two treatments were compared: (1) automatic irrigation using the new algorithm (CWSI-DT) and (2) irrigation scheduling based on weekly readings of neutron probe (NP). The soil water deficit under the CWSI-DT treatment was maintained within the well-watered range with no signs of over or under irrigation. This was better than the results in the NP treatment where there were occasions of under irrigation. Midday canopy and air temperature difference (ΔTm) exhibited a close agreement with midday stem water potential (Ψstem; R2=0.63, p
ISSN:0168-1699
1872-7107
DOI:10.1016/j.compag.2015.09.006