Please use this identifier to cite or link to this item: https://hdl.handle.net/1959.11/58241
Title: Carbon and nutrient mineralisation dynamics in aggregate-size classes from different tillage systems after input of canola and wheat residues
Contributor(s): Sarker, Jharna Rani  (author); Singh, Bhupinderpal Pal  (author); Cowie, Annette L  (author); Fang, Yunying (author); Collins, Damian (author); Dougherty, Warwick J (author); Singh, Brajesh K (author)
Publication Date: 2018-01
DOI: 10.1016/j.soilbio.2017.09.030
Handle Link: https://hdl.handle.net/1959.11/58241
Abstract: 

Aggregate-size classes may have different microbial accessibility and therefore different decomposability of aggregate-associated soil organic matter (SOM). However, processes and mechanisms of soil organic carbon (SOC) mineralisation and availability of nutrients [nitrogen (N), phosphorus (P) and sulphur (S)] in different aggregate-size classes, and particularly, the interaction of aggregates with tillage intensity and crop residue type in contrasting soils is poorly understood. Soil samples from conventional tillage (CT) and reduced tillage (RT) systems under mixed wheat–pasture farming, and no-till (NT) under continuous cereal–cover cropping in a Luvisol, and from CT and NT under continuous wheat cropping in a Vertisol, were separated into three dry aggregate classes of different sizes [mega-aggregates (> 2–6.5 mm), macro-aggregates (0.25–2 mm) and microaggregates (< 0.25 mm)]. Two residue types (canola and wheat stem; δ13C 124 and 460‰, respectively) were added into each of the three aggregate class samples from Luvisol (δ13C −24.7‰) and Vertisol (δ13C −18.5‰). Total CO2-C, δ13C in CO2-C, microbial biomass C (MBC), and plant available N, P and S were measured periodically during the 126-day incubation. The results showed that crop residue input increased native SOC mineralisation (via positive priming), MBC and microbial metabolic quotient in all three aggregate-size classes from different tillage systems in both soils. Native SOC mineralisation was 1.5–3.7 and 0.6–2.8 times higher in the canola and wheat residue-amended (cf. control, non-amended) aggregates, respectively. Native SOC mineralisatiion and MBC were higher in the macro- and micro- than mega-aggregates in both soils. However, priming of native SOC mineralisation, relative to the control, was similar across the aggregates, except for the CT in the Luvisol where priming was higher in the macro- than micro- and mega-aggregates. Native SOC mineralisation among the aggregate-size classes was 26–114% higher under CT or RT cf. NT in the Luvisol but was similar under CT and NT in the Vertisol. Net available N was significantly higher in the residue-amended than the control aggregates, particularly in the CT and/or RT versus the NT at day 30 only, and mainly in the Luvisol. Further, substantial amounts of available P and S were released from the residue-amended versus the control aggregates at day 126, with Vertisol releasing 2–3 times more available P than Luvisol. In conclusion, our findings showed the importance of returning crop residues to enhance nutrient availability from all aggregate-size classes in different soils and farming systems. In particular, the tillage (versus no-till) and canola (versus wheat) residue induced a greater release of nutrients, generally in the pattern of micro- ≥ macro- > mega-aggregates. Clearly, the input of crop residues enhanced the release of SOM-bound nutrients, possibly via positive priming, and may have mobilised mineral-bound nutrients, such as P and S in each aggregate-size class, with tillage intensity and soil type modulating these processes.

Publication Type: Journal Article
Source of Publication: Soil Biology and Biochemistry, v.116, p. 22-38
Publisher: Elsevier Ltd
Place of Publication: United Kingdom
ISSN: 1879-3428
0038-0717
Fields of Research (FoR) 2020: 4101 Climate change impacts and adaptation
Socio-Economic Objective (SEO) 2020: TBD
Peer Reviewed: Yes
HERDC Category Description: C1 Refereed Article in a Scholarly Journal
Appears in Collections:Journal Article
School of Environmental and Rural Science

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