A new compartmentalised rhizotron system for root phenotyping

Riccardo Sartoni; Walter Zegada-Lizarazu; Andrea Monti

doi:10.4081/ija.2015.645

A new compartmentalised rhizotron system for root phenotyping

Riccardo Sartoni, Walter Zegada-Lizarazu, Andrea Monti

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Although roots are the key organs for plant fitness, studies on root phenotyping and dynamics of water uptake are difficult and costly. Here we present a new compartimentalised rhizotron system that attempts to integrate some positive features of conventional methods for assessing root patterns at field and laboratory scale. The system has a petrolatum/paraffin hydrophobic film, which allows the com-partmentalisation of soil layers along the cylinder profile, thus roots and soil moisture content are split into completely independent segments. In this preliminary study, we tested the system by creating a top-bottom split root arrangement that mimic the fluctuating levels of a water table to determine the dynamic interrelationship of canopy water conservation and root water acquisition from both shallow and deep roots of giant reed. Thanks to its versatility, the system enabled us to perform a root phenotyping study within distinct and independent soil portions.

Original language	English
Pages (from-to)	53-58
Number of pages	6
Journal	Italian Journal of Agronomy
Volume	10
Issue number	2
DOIs	https://doi.org/10.4081/ija.2015.645
State	Published - 1 Jan 2015
Externally published	Yes

Keywords

Arundo donax
Biomass
Drought
Giant reed
Root
Root length density
Water use

ASJC Scopus subject areas

Agronomy and Crop Science

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10.4081/ija.2015.645

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title = "A new compartmentalised rhizotron system for root phenotyping",

abstract = "Although roots are the key organs for plant fitness, studies on root phenotyping and dynamics of water uptake are difficult and costly. Here we present a new compartimentalised rhizotron system that attempts to integrate some positive features of conventional methods for assessing root patterns at field and laboratory scale. The system has a petrolatum/paraffin hydrophobic film, which allows the com-partmentalisation of soil layers along the cylinder profile, thus roots and soil moisture content are split into completely independent segments. In this preliminary study, we tested the system by creating a top-bottom split root arrangement that mimic the fluctuating levels of a water table to determine the dynamic interrelationship of canopy water conservation and root water acquisition from both shallow and deep roots of giant reed. Thanks to its versatility, the system enabled us to perform a root phenotyping study within distinct and independent soil portions.",

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AU - Sartoni, Riccardo

AU - Zegada-Lizarazu, Walter

AU - Monti, Andrea

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PY - 2015/1/1

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N2 - Although roots are the key organs for plant fitness, studies on root phenotyping and dynamics of water uptake are difficult and costly. Here we present a new compartimentalised rhizotron system that attempts to integrate some positive features of conventional methods for assessing root patterns at field and laboratory scale. The system has a petrolatum/paraffin hydrophobic film, which allows the com-partmentalisation of soil layers along the cylinder profile, thus roots and soil moisture content are split into completely independent segments. In this preliminary study, we tested the system by creating a top-bottom split root arrangement that mimic the fluctuating levels of a water table to determine the dynamic interrelationship of canopy water conservation and root water acquisition from both shallow and deep roots of giant reed. Thanks to its versatility, the system enabled us to perform a root phenotyping study within distinct and independent soil portions.

AB - Although roots are the key organs for plant fitness, studies on root phenotyping and dynamics of water uptake are difficult and costly. Here we present a new compartimentalised rhizotron system that attempts to integrate some positive features of conventional methods for assessing root patterns at field and laboratory scale. The system has a petrolatum/paraffin hydrophobic film, which allows the com-partmentalisation of soil layers along the cylinder profile, thus roots and soil moisture content are split into completely independent segments. In this preliminary study, we tested the system by creating a top-bottom split root arrangement that mimic the fluctuating levels of a water table to determine the dynamic interrelationship of canopy water conservation and root water acquisition from both shallow and deep roots of giant reed. Thanks to its versatility, the system enabled us to perform a root phenotyping study within distinct and independent soil portions.

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KW - Water use

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A new compartmentalised rhizotron system for root phenotyping

Abstract

Keywords

ASJC Scopus subject areas

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