Straw mineralization and carbon dioxide emissions in soils with different salinity levels

二氧化碳 环境科学 矿化(土壤科学) 土壤水分 环境化学 盐度 稻草 负二氧化碳排放 环境工程 环境保护 固碳 农学 化学 土壤科学 海洋学 地质学 生物 有机化学
作者
Cailing Shi,Jing Zhang,Haibo Zhang,Lei Xu,Wenjun Xie,Weiming Li,Lichang Zhang,Yu Sun
出处
期刊:Environmental Science: Processes & Impacts [Royal Society of Chemistry]
卷期号:27 (3): 794-803 被引量:3
标识
DOI:10.1039/d4em00698d
摘要

Straw application is widely used to reclaim saline soils. However, the characteristics of straw mineralization and its induced priming effects (PE) in saline soil are largely unknown. Thus, we conducted a 180-day saline soil incubation experiment to observe the characteristics of straw mineralization and CO2 emissions. Four salinity levels, i.e., 3.0 g kg-1 (BS), 5.0 g kg-1 (LS), 10.0 g kg-1 (MS), and 15.0 g kg-1 (HS), were established, to which 13C-labeled maize straw was added at a rate of 5.0%. Results showed that the straw mineralization rate and the amount of potentially mineralized straw significantly decreased with increasing salinity (p < 0.05). Compared with BS, the cumulative CO2 emissions, PE, and the amount of mineralized straw in LS, MS, and HS decreased by 3.6%-26.8%, 3.4%-26.5%, and 2.7%-15.6%, respectively. Simultaneously, increasing soil salinity prompted the earlier occurrence of the peak straw mineralization and PE. The contribution of straw mineralization to CO2 emissions on the 1st day significantly decreased with rising salinity levels (p < 0.05), while the opposite change was observed from 5 days to 120 days. Although PE significantly decreased with increasing salinity, the duration of the effect of straw input on soil organic matter mineralization increased substantially in high-salinity soils. These findings reveal the influence of soil salinity levels on the straw mineralization process and CO2 emission, which will help us assess and boost carbon sequestration in saline soils under straw input conditions.
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