Modelling of root ABA synthesis, stomatal conductance, transpiration and potato production under water saving irrigation regimes

Finn Plauborg; Per Abrahamsen; Birgitte Gjettermann; Mikkel Mollerup; Bo Vangsø Iversen; Fulai Liu; Mathias Neumann Andersen; Søren Hansen

doi:10.1016/j.agwat.2010.10.006

Modelling of root ABA synthesis, stomatal conductance, transpiration and potato production under water saving irrigation regimes

Finn Plauborg, Per Abrahamsen, Birgitte Gjettermann, Mikkel Mollerup, Bo Vangsø Iversen, Fulai Liu, Mathias Neumann Andersen, Søren Hansen

22 Citations (Scopus)

Abstract

Application of water saving irrigation strategies in agriculture has become increasingly important. Both modelling and experimental work are needed to gain more insights into the biological and physical mechanisms in the soil-plant system, which regulates water flow in the system and plays a central role in reducing crop transpiration. This paper presented a mechanistic model (Daisy) developed based on data obtained in the SAFIR project on measured leaf gas exchange and soil water dynamics in irrigated potato crops grown in a semi-field environment subjected to different irrigation regimes. Experimental data was compared to simulated results from the new enhanced Daisy model which include modelling 2D soil water flow, abscisic acid (ABA) signalling and its effect on stomatal conductance and hence on transpiration and assimilation, and finally crop yield. The results demonstrated that the enhanced Daisy model is capable of simulating the mechanisms underlying the water saving effects of the partial root-zone drying (PRD) irrigation as compared with the conventional full irrigation (FI). However the simulated effect on both crop yield and water use in this particular experiment was negligible indicating more experimental studies are necessary in order to improve on the model.

Original language	English
Journal	Agricultural Water Management
Volume	98
Issue number	3
Pages (from-to)	425-439
Number of pages	15
ISSN	0378-3774
DOIs	https://doi.org/10.1016/j.agwat.2010.10.006
Publication status	Published - 30 Dec 2010

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@article{6897bece51c74bab8495dc7a7a6a2459,

title = "Modelling of root ABA synthesis, stomatal conductance, transpiration and potato production under water saving irrigation regimes",

abstract = "Application of water saving irrigation strategies in agriculture has become increasingly important. Both modelling and experimental work are needed to gain more insights into the biological and physical mechanisms in the soil-plant system, which regulates water flow in the system and plays a central role in reducing crop transpiration. This paper presented a mechanistic model (Daisy) developed based on data obtained in the SAFIR project on measured leaf gas exchange and soil water dynamics in irrigated potato crops grown in a semi-field environment subjected to different irrigation regimes. Experimental data was compared to simulated results from the new enhanced Daisy model which include modelling 2D soil water flow, abscisic acid (ABA) signalling and its effect on stomatal conductance and hence on transpiration and assimilation, and finally crop yield. The results demonstrated that the enhanced Daisy model is capable of simulating the mechanisms underlying the water saving effects of the partial root-zone drying (PRD) irrigation as compared with the conventional full irrigation (FI). However the simulated effect on both crop yield and water use in this particular experiment was negligible indicating more experimental studies are necessary in order to improve on the model.",

author = "Finn Plauborg and Per Abrahamsen and Birgitte Gjettermann and Mikkel Mollerup and Iversen, {Bo Vangs{\o}} and Fulai Liu and Andersen, {Mathias Neumann} and S{\o}ren Hansen",

note = "SAFIR - Safe and high quality food production using low quality waters and improved irrigation systems and management",

year = "2010",

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day = "30",

doi = "10.1016/j.agwat.2010.10.006",

language = "English",

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T1 - Modelling of root ABA synthesis, stomatal conductance, transpiration and potato production under water saving irrigation regimes

AU - Plauborg, Finn

AU - Abrahamsen, Per

AU - Gjettermann, Birgitte

AU - Mollerup, Mikkel

AU - Iversen, Bo Vangsø

AU - Liu, Fulai

AU - Andersen, Mathias Neumann

AU - Hansen, Søren

N1 - SAFIR - Safe and high quality food production using low quality waters and improved irrigation systems and management

PY - 2010/12/30

Y1 - 2010/12/30

N2 - Application of water saving irrigation strategies in agriculture has become increasingly important. Both modelling and experimental work are needed to gain more insights into the biological and physical mechanisms in the soil-plant system, which regulates water flow in the system and plays a central role in reducing crop transpiration. This paper presented a mechanistic model (Daisy) developed based on data obtained in the SAFIR project on measured leaf gas exchange and soil water dynamics in irrigated potato crops grown in a semi-field environment subjected to different irrigation regimes. Experimental data was compared to simulated results from the new enhanced Daisy model which include modelling 2D soil water flow, abscisic acid (ABA) signalling and its effect on stomatal conductance and hence on transpiration and assimilation, and finally crop yield. The results demonstrated that the enhanced Daisy model is capable of simulating the mechanisms underlying the water saving effects of the partial root-zone drying (PRD) irrigation as compared with the conventional full irrigation (FI). However the simulated effect on both crop yield and water use in this particular experiment was negligible indicating more experimental studies are necessary in order to improve on the model.

AB - Application of water saving irrigation strategies in agriculture has become increasingly important. Both modelling and experimental work are needed to gain more insights into the biological and physical mechanisms in the soil-plant system, which regulates water flow in the system and plays a central role in reducing crop transpiration. This paper presented a mechanistic model (Daisy) developed based on data obtained in the SAFIR project on measured leaf gas exchange and soil water dynamics in irrigated potato crops grown in a semi-field environment subjected to different irrigation regimes. Experimental data was compared to simulated results from the new enhanced Daisy model which include modelling 2D soil water flow, abscisic acid (ABA) signalling and its effect on stomatal conductance and hence on transpiration and assimilation, and finally crop yield. The results demonstrated that the enhanced Daisy model is capable of simulating the mechanisms underlying the water saving effects of the partial root-zone drying (PRD) irrigation as compared with the conventional full irrigation (FI). However the simulated effect on both crop yield and water use in this particular experiment was negligible indicating more experimental studies are necessary in order to improve on the model.

U2 - 10.1016/j.agwat.2010.10.006

DO - 10.1016/j.agwat.2010.10.006

M3 - Journal article

SN - 0378-3774

VL - 98

SP - 425

EP - 439

JO - Agricultural Water Management

JF - Agricultural Water Management

IS - 3

ER -

Modelling of root ABA synthesis, stomatal conductance, transpiration and potato production under water saving irrigation regimes

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