Polain, Katherine; Knox, Oliver; Wilson, Brian; Guppy, Christopher; Lisle, Leanne; Nachimuthu, Gunasekhar; Osanai, Yui; Siebers, Nina

Author(s)

Polain, Katherine

Knox, Oliver

Wilson, Brian

Guppy, Christopher

Lisle, Leanne

Nachimuthu, Gunasekhar

Osanai, Yui

Siebers, Nina

Publication Date

2021

Abstract

Soils provide the substrate for important microbial mechanisms that moderate a variety of processes in both managed and natural terrestrial ecosystems. Australian soils are particularly 'stressed' and are considered to be highly weathered and nutrient deficient. This places increased pressure on the Australian cotton industry to sustainably increase productivity to support the fibre demands of a growing global population. We explored Vertosol subsoi ls (>30 cm) under rotational cotton crops, measuring the distribution of soil microbial activity (SMA) and bion1ass (SMB) to 100 cm depth, as influenced by crop system and time, using respiration-based experiments. Seasonal SMA fluctuations were considered by capturing the long-term SMA between systems using stable oxygen isotope methodology. Our results indicate that subsoils contributed 47% of SMA, regardless of system, but subsoil SMB (26%) was constrained by resource availability. Long-tenn SMA was not significantly influenced by depth and system, presu111ably as a consequence of the shrink - swell nature of Vertosols facilitating organic matter movement down the profile. The impact of this organic matter on the activity of indigenous microorganisms below the top 30 cm of the profile highlights a need to consider deeper soil when unravelling the potential microbial benefits to our cropping systems.

Citation

Soil Research, 59(6), p. 547-558

ISSN

1838-6768

1446-568X

1838-675X

0004-9573

Link

https://hdl.handle.net/1959.11/30258

Publisher

CSIRO Publishing

Rights

Attribution-NonCommercial-NoDerivatives 4.0 International

Title

Distribution of subsoil microbial activity and biomass under Australian rotational cotton as influenced by system, crop status and season

Type of document

Journal Article

Entity Type

Publication

Author(s)	Polain, Katherine Knox, Oliver Wilson, Brian Guppy, Christopher Lisle, Leanne Nachimuthu, Gunasekhar Osanai, Yui Siebers, Nina
Publication Date	2021
Abstract	Soils provide the substrate for important microbial mechanisms that moderate a variety of processes in both managed and natural terrestrial ecosystems. Australian soils are particularly 'stressed' and are considered to be highly weathered and nutrient deficient. This places increased pressure on the Australian cotton industry to sustainably increase productivity to support the fibre demands of a growing global population. We explored Vertosol subsoi ls (>30 cm) under rotational cotton crops, measuring the distribution of soil microbial activity (SMA) and bion1ass (SMB) to 100 cm depth, as influenced by crop system and time, using respiration-based experiments. Seasonal SMA fluctuations were considered by capturing the long-term SMA between systems using stable oxygen isotope methodology. Our results indicate that subsoils contributed 47% of SMA, regardless of system, but subsoil SMB (26%) was constrained by resource availability. Long-tenn SMA was not significantly influenced by depth and system, presu111ably as a consequence of the shrink - swell nature of Vertosols facilitating organic matter movement down the profile. The impact of this organic matter on the activity of indigenous microorganisms below the top 30 cm of the profile highlights a need to consider deeper soil when unravelling the potential microbial benefits to our cropping systems.
Citation	Soil Research, 59(6), p. 547-558
ISSN	1838-6768 1446-568X 1838-675X 0004-9573
Link	https://hdl.handle.net/1959.11/30258
Publisher	CSIRO Publishing
Rights	Attribution-NonCommercial-NoDerivatives 4.0 International
Title	Distribution of subsoil microbial activity and biomass under Australian rotational cotton as influenced by system, crop status and season
Type of document	Journal Article
Entity Type	Publication

Distribution of subsoil microbial activity and biomass under Australian rotational cotton as influenced by system, crop status and season

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