Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6773345 | Soil and Tillage Research | 2017 | 8 Pages |
Abstract
Salt stress has been increasingly constraining crop productivity in arid lands of the world and there is some evidence that a combination of straw layer burial and plastic film mulching alleviates salt stress and increases microflora diversity in a saline soil. However, their impacts on soil organic C (SOC), especially its active fraction are not well documented. We studied the combined effects of burying straw layer and plastic mulching on SOC, microbial biomass C (MBC) and dissolved organic C (DOC) using the following four treatments: deep ploughing with no plastic film mulching (CK); deep ploughing with plastic film mulching (PM); buried maize straw layer with no mulching (SL); and buried maize straw layer plus plastic film mulching (PMÂ +Â SL). Compared with CK and PM, the PMÂ +Â SL and SL treatments significantly enhanced the allocation of SOC to the 20-40Â cm soil layer, due to an adequate supply of organic carbon from straw incorporation; the SOC value under PMÂ +Â SL significantly decreased in the topsoil (0-20Â cm) after 4 years, while that under CK and SL was little altered. After 4 years, the SOC under PMÂ +Â SL and SL treatments increased by 5.84 and 10.78% (PÂ <Â 0.05) in the 0-40Â cm soil layer but that under PM decreased 6.79% (PÂ <Â 0.05) while that under CK changed little. Although PMÂ +Â SL and SL had much higher SOC at the 30-40Â cm layer than CK and PM, the straw effect on soil layers greater than 40Â cm was not significant. The increase in SOC within the entire 60Â cm soil layer (from 5.01% in 2013 to 10.64% in 2014) under PMÂ +Â SL was more pronounced. PMÂ +Â SL also showed the highest contents of MBC and DOC due to the combined effect of plastic mulching and straw layer. The effect of straw burial on the MBC and DOC was more significant than that of plastic mulching, but the increase in MBC under PMÂ +Â SL, SL and PM decreased with time, possibly because of the combined effects of water, heat and salinity as well as the increased stability of soil aggregates. The DOC under PMÂ +Â SL and SL was basically stable compared with that under CK and PM. Significant positive correlations (PÂ <Â 0.01) were observed between SOC and MBC and between SOC and DOC. Soil temperature and the difference in salt content at sowing and maturity had significant (PÂ <Â 0.01) positive correlations with SOC and MBC, but soil water showed significant (PÂ <Â 0.01) negative correlations with all the carbon fractions. Overall, the combined use of buried straw layer with plastic mulching could be a practical option for increasing the SOC in an arid saline soil.
Keywords
Related Topics
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Renewable Energy, Sustainability and the Environment
Authors
Long Huo, Huancheng Pang, Yonggan Zhao, Jing Wang, Chuang Lu, Yuyi Li,