The short-term cover crops increase soil labile organic carbon in southeastern Australia
Author(s)
Zhou, Xiaoqi
Chen, Chengrong
Lu, Shunbao
Rui, Yichao
Wu, Hanwen
Xu, Zhihong
Year published
2012
Metadata
Show full item recordAbstract
Little information is available about the effects of cover crops on soil labile organic carbon (C), especially in Australia. In this study, two cover crop species, i.e., wheat and Saia oat, were broadcast-seeded in May 2009 and then crop biomass was crimp-rolled onto the soil surface at anthesis in October 2009 in southeastern Australia. Soil and crop residue samples were taken in December 2009 to investigate the short-term effects of cover crops on soil pH, moisture, NH 4 + -N, NO 3 - -N, soluble organic C and nitrogen (N), total organic C and N, and C mineralization in comparison with a nil-crop control (CK). The soil is ...
View more >Little information is available about the effects of cover crops on soil labile organic carbon (C), especially in Australia. In this study, two cover crop species, i.e., wheat and Saia oat, were broadcast-seeded in May 2009 and then crop biomass was crimp-rolled onto the soil surface at anthesis in October 2009 in southeastern Australia. Soil and crop residue samples were taken in December 2009 to investigate the short-term effects of cover crops on soil pH, moisture, NH 4 + -N, NO 3 - -N, soluble organic C and nitrogen (N), total organic C and N, and C mineralization in comparison with a nil-crop control (CK). The soil is a Chromic Luvisol according to the FAO classification with 48.4? .2% sand, 19.5? .1% silt, and 32.1? .1% clay. An exponential model fitting was employed to assess soil potentially labile organic C (C 0) and easily decomposable organic C for all treatments based on 46-day incubations. The results showed that crop residue biomass significantly decreased over the course of 2-month decomposition. The cover crop treatments had significantly higher soil pH, soluble organic C and N, cumulative CO2-C, C 0, and easily decomposable organic C, but significantly lower NO 3 - -N than the CK. However, no significant differences were found in soil moisture, NH 4 + -N, and total organic C and N contents among the treatments. Our results indicated that the short-term cover crops increased soil labile organic C pools, which might have implications for local agricultural ecosystem managements in this region.
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View more >Little information is available about the effects of cover crops on soil labile organic carbon (C), especially in Australia. In this study, two cover crop species, i.e., wheat and Saia oat, were broadcast-seeded in May 2009 and then crop biomass was crimp-rolled onto the soil surface at anthesis in October 2009 in southeastern Australia. Soil and crop residue samples were taken in December 2009 to investigate the short-term effects of cover crops on soil pH, moisture, NH 4 + -N, NO 3 - -N, soluble organic C and nitrogen (N), total organic C and N, and C mineralization in comparison with a nil-crop control (CK). The soil is a Chromic Luvisol according to the FAO classification with 48.4? .2% sand, 19.5? .1% silt, and 32.1? .1% clay. An exponential model fitting was employed to assess soil potentially labile organic C (C 0) and easily decomposable organic C for all treatments based on 46-day incubations. The results showed that crop residue biomass significantly decreased over the course of 2-month decomposition. The cover crop treatments had significantly higher soil pH, soluble organic C and N, cumulative CO2-C, C 0, and easily decomposable organic C, but significantly lower NO 3 - -N than the CK. However, no significant differences were found in soil moisture, NH 4 + -N, and total organic C and N contents among the treatments. Our results indicated that the short-term cover crops increased soil labile organic C pools, which might have implications for local agricultural ecosystem managements in this region.
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Journal Title
Biology and Fertility of Soils
Volume
48
Issue
2
Subject
Environmental sciences
Soil chemistry and soil carbon sequestration (excl. carbon sequestration science)
Biological sciences
Agricultural, veterinary and food sciences