Quantifying water stress in vineyards using a smartphone

Livia Paleari; Lucio Brancadoro; Chiara Rusconi; Ermes Movedi; Stefano Poni; Martino Bolognini; Davide Modina; Leonardo Cunial; Matteo Gatti; Gabriele Cola; Davide Bianchi; Roberto Confalonieri

doi:10.1016/j.biosystemseng.2024.01.004

Quantifying water stress in vineyards using a smartphone

Livia Paleari^*, Lucio Brancadoro, Chiara Rusconi, Ermes Movedi, Stefano Poni, Martino Bolognini, Davide Modina, Leonardo Cunial, Matteo Gatti, Gabriele Cola, Davide Bianchi, Roberto Confalonieri^*

^*Autore corrispondente per questo lavoro

University of Milan

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

There is an increasing demand for tools able to optimise water management in cropping systems, especially in cases of dry areas or when water management has a deep effect on both the amount and quality of productions. A method is proposed to estimate grape stomatal conductance (g(s)) from 3D leaf scans obtained using a smartphone. The method is based (i) on the use of the 3D leaf scans to derive the chi parameter of the Campbell's leaf angle distribution (the lower the chi, the larger the leaf tendency to be vertical) and (ii) on the changes in leaf orientation due to decrease in leaf turgor. Experimental data were collected on Vitis vinifera (cv. Malvasia and Chardonnay) in seven experiments carried out in vineyards in Northern Italy during 2021 and 2022. Results revealed significant (p-value < 0.01) linear relationships between g(s) and chi (R-2 >= 0.79 for both cultivars). From the data collected, 13 leaves (90 s to perform measurements) at each point (vine) and seven points ha(-1) was identified as the optimal sample size to capture vineyard heterogeneity. The suitability of the method for use in commercial vineyard conditions opens new opportunities for optimizing water management in vineyards.

Lingua originale	English
pagine (da-a)	89-93
Numero di pagine	5
Rivista	Biosystems Engineering
Volume	238
DOI	https://doi.org/10.1016/j.biosystemseng.2024.01.004
Stato di pubblicazione	Pubblicato - 2024

Keywords

3D canopy architecture
Campbell's ellipsoidal distribution
Leaf angle
PocketPlant3D
Stomatal conductance
Vitis vinifera

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10.1016/j.biosystemseng.2024.01.004

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title = "Quantifying water stress in vineyards using a smartphone",

abstract = "There is an increasing demand for tools able to optimise water management in cropping systems, especially in cases of dry areas or when water management has a deep effect on both the amount and quality of productions. A method is proposed to estimate grape stomatal conductance (g(s)) from 3D leaf scans obtained using a smartphone. The method is based (i) on the use of the 3D leaf scans to derive the chi parameter of the Campbell's leaf angle distribution (the lower the chi, the larger the leaf tendency to be vertical) and (ii) on the changes in leaf orientation due to decrease in leaf turgor. Experimental data were collected on Vitis vinifera (cv. Malvasia and Chardonnay) in seven experiments carried out in vineyards in Northern Italy during 2021 and 2022. Results revealed significant (p-value < 0.01) linear relationships between g(s) and chi (R-2 >= 0.79 for both cultivars). From the data collected, 13 leaves (90 s to perform measurements) at each point (vine) and seven points ha(-1) was identified as the optimal sample size to capture vineyard heterogeneity. The suitability of the method for use in commercial vineyard conditions opens new opportunities for optimizing water management in vineyards.",

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author = "Livia Paleari and Lucio Brancadoro and Chiara Rusconi and Ermes Movedi and Stefano Poni and Martino Bolognini and Davide Modina and Leonardo Cunial and Matteo Gatti and Gabriele Cola and Davide Bianchi and Roberto Confalonieri",

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doi = "10.1016/j.biosystemseng.2024.01.004",

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pages = "89--93",

journal = "Biosystems Engineering",

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TY - JOUR

T1 - Quantifying water stress in vineyards using a smartphone

AU - Paleari, Livia

AU - Brancadoro, Lucio

AU - Rusconi, Chiara

AU - Movedi, Ermes

AU - Poni, Stefano

AU - Bolognini, Martino

AU - Modina, Davide

AU - Cunial, Leonardo

AU - Gatti, Matteo

AU - Cola, Gabriele

AU - Bianchi, Davide

AU - Confalonieri, Roberto

PY - 2024

Y1 - 2024

N2 - There is an increasing demand for tools able to optimise water management in cropping systems, especially in cases of dry areas or when water management has a deep effect on both the amount and quality of productions. A method is proposed to estimate grape stomatal conductance (g(s)) from 3D leaf scans obtained using a smartphone. The method is based (i) on the use of the 3D leaf scans to derive the chi parameter of the Campbell's leaf angle distribution (the lower the chi, the larger the leaf tendency to be vertical) and (ii) on the changes in leaf orientation due to decrease in leaf turgor. Experimental data were collected on Vitis vinifera (cv. Malvasia and Chardonnay) in seven experiments carried out in vineyards in Northern Italy during 2021 and 2022. Results revealed significant (p-value < 0.01) linear relationships between g(s) and chi (R-2 >= 0.79 for both cultivars). From the data collected, 13 leaves (90 s to perform measurements) at each point (vine) and seven points ha(-1) was identified as the optimal sample size to capture vineyard heterogeneity. The suitability of the method for use in commercial vineyard conditions opens new opportunities for optimizing water management in vineyards.

AB - There is an increasing demand for tools able to optimise water management in cropping systems, especially in cases of dry areas or when water management has a deep effect on both the amount and quality of productions. A method is proposed to estimate grape stomatal conductance (g(s)) from 3D leaf scans obtained using a smartphone. The method is based (i) on the use of the 3D leaf scans to derive the chi parameter of the Campbell's leaf angle distribution (the lower the chi, the larger the leaf tendency to be vertical) and (ii) on the changes in leaf orientation due to decrease in leaf turgor. Experimental data were collected on Vitis vinifera (cv. Malvasia and Chardonnay) in seven experiments carried out in vineyards in Northern Italy during 2021 and 2022. Results revealed significant (p-value < 0.01) linear relationships between g(s) and chi (R-2 >= 0.79 for both cultivars). From the data collected, 13 leaves (90 s to perform measurements) at each point (vine) and seven points ha(-1) was identified as the optimal sample size to capture vineyard heterogeneity. The suitability of the method for use in commercial vineyard conditions opens new opportunities for optimizing water management in vineyards.

KW - 3D canopy architecture

KW - Campbell's ellipsoidal distribution

KW - Leaf angle

KW - PocketPlant3D

KW - Stomatal conductance

KW - Vitis vinifera

KW - 3D canopy architecture

KW - Campbell's ellipsoidal distribution

KW - Leaf angle

KW - PocketPlant3D

KW - Stomatal conductance

KW - Vitis vinifera

UR - http://hdl.handle.net/10807/300859

U2 - 10.1016/j.biosystemseng.2024.01.004

DO - 10.1016/j.biosystemseng.2024.01.004

M3 - Article

SN - 1537-5110

VL - 238

SP - 89

EP - 93

JO - Biosystems Engineering

JF - Biosystems Engineering

ER -

Quantifying water stress in vineyards using a smartphone

Abstract

Keywords

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