The potential for enhancing soil carbon levels through the use of organic soil amendments in Queensland, Australia

The potential for enhancing soil carbon levels through the use of organic soil amendments in Queensland, Australia

Application of organic amendments such as livestock manures and compost is commonly listed amongst strategies with potential to sequester soil organic carbon (SOC) in agriculture and contribute to climate change mitigation. However, quantifying this potential is hampered by the paucity of data on am...

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Bibliographic Details
Published in:Regional environmental change Vol. 21; no. 4
Main Authors: Biala, Johannes, Wilkinson, Kevin, Henry, Beverley, Singh, Shweta, Bennett-Jones, Joshua, De Rosa, Daniele
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-12-2021
Springer
Springer Nature B.V
Subjects:
Agricultural land
Agricultural wastes
Animal manures
Animal wastes
Carbon
Carbon content
Climate Change
Climate change mitigation
Climate Change/Climate Change Impacts
Collating
Composting
Composts
Continuous cropping
Development policy
Dry matter
Earth and Environmental Science
Environment
Food security
Food supply
Geography
Global temperature changes
Land application
Livestock
Modelling
Nature Conservation
Oceanography
Organic carbon
Organic farming
Organic matter
Organic soils
Original Article
Refuse and refuse disposal
Regional analysis
Regional management practices with positive effects on soil carbon to meet the goals of the 4p1000 initiative
Regional planning
Regional/Spatial Science
Soil amendment
Soil amendments
Soil dynamics
Soil organic matter
Soils
Waste management
Queensland Australia
Australia
Manure
Compost
Models
Organic soil amendments
Soil carbon sequestration
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Summary:Application of organic amendments such as livestock manures and compost is commonly listed amongst strategies with potential to sequester soil organic carbon (SOC) in agriculture and contribute to climate change mitigation. However, quantifying this potential is hampered by the paucity of data on amounts and characteristics of organic amendments applied to land, and limited understanding of the carbon dynamics during storage, processing and following land application. The objective of this study was to evaluate this potential for the State of Queensland, Australia, by collating and analysing information on organic amendments and modelling SOC sequestration in illustrative cropping locations. An estimated 2.7 million tonnes (Mt) dry matter (dm) of organic amendments has likely been land applied in Queensland in 2015/16, supplying significant quantities of carbon (C) to the soil. Simulations with Australia’s national inventory modelling tool predicted that, in a favourable location, high annual applications of manure and compost (10 t / 15 t fresh matter (fm) per hectare and year (ha −1  yr −1 ) could result in SOC increases of 0.9% and 0.55%, respectively, per year averaged over 20 years of continuous cropping, exceeding the aspirational goal of the United Nations Framework Convention on Climate Change 4 per 1000 Initiative. In less favourable conditions, C stocks may continue to decline but at a slower rate than without organic amendments. Based on regional analysis and review of current understanding of the dynamics of organic matter in soils, we identified a set of research priorities to enable more accurate assessments of the C sequestration potential to support development of policies and frameworks for use of organic amendments in agricultural soils for climate, food security and waste management benefits.
ISSN:1436-3798
1436-378X
DOI:10.1007/s10113-021-01813-y