Effects of straw return and aeration on oxygen status and redox environment in flooded soil

IF 1.7 4区农林科学 Q4 SOIL SCIENCE

Soil and Water Research Pub Date : 2021-11-24 DOI:10.17221/87/2020-swr

Yunhao An, Xiyun Jiao, Zhe Gu, Chuanmeng Shi, Kaihua Liu

引用次数: 2

Abstract

To study the effects of straw return and aeration of the water layer on oxygen and redox status in the water column and at different depths in paddy field soil, a short-term incubation experiment was conducted with four treatments: (1) no straw return (NS); (2) straw return without aeration (S); (3) straw return and 30 minutes of aeration per day (SO30); and (4) straw return and 90 minutes of aeration per day (SO90). Compared to NS, S decreased dissolved oxygen (DO) and redox potential (ORP) by 23–58% and 47–53 mV, respectively, and increased active reducing substance (ARS) by 21–46% in the water and soil layers. The aeration treatments increased DO and ORP by 25–120% and 11–86 mV, respectively, and reduced ARS by 5–16% compared to S. The results indicated that straw return to paddy fields exacerbated hypoxia and reducing conditions in the soil. SO90 achieved better effects than SO30 in alleviating the negative impact of straw return by supplying more oxygen, but the effects weakened over time and with soil depth.

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秸秆还田和通气对淹水土壤氧状况和氧化还原环境的影响

为研究秸秆还田和水层曝气对水田土壤水柱及不同深度氧和氧化还原状态的影响，采用4种处理进行短期培养试验:(1)不还田(NS);(2)秸秆不曝气返回(S);(3)秸秆还田，每天曝气30分钟(SO30);(4)秸秆还田，每天曝气90分钟(SO90)。与NS相比，S使水层和土层溶解氧(DO)和氧化还原电位(ORP)分别降低23-58%和47-53 mV，活性还原性物质(ARS)增加21-46%。曝气处理使土壤DO和ORP分别提高25 ~ 120%和11 ~ 86 mV, ARS降低5 ~ 16%。结果表明，秸秆还田加重了土壤缺氧还原性。SO90通过提供更多氧气缓解秸秆还田负面影响的效果优于SO30，但随着时间和土壤深度的增加，效果减弱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Soil and Water Research Water resources, Soil Science, Agriculture-WATER RESOURCES

CiteScore

4.60

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： An international peer-reviewed journal published under the auspices of the Czech Academy of Agricultural Sciences and financed by the Ministry of Agriculture of the Czech Republic. Published since 2006. Thematic: original papers, short communications and critical reviews from all fields of science and engineering related to soil and water and their interactions in natural and man-modified landscapes, with a particular focus on agricultural land use. The fields encompassed include, but are not limited to, the basic and applied soil science, soil hydrology, irrigation and drainage of lands, hydrology, management and revitalisation of small water streams and small water reservoirs, including fishponds, soil erosion research and control, drought and flood control, wetland restoration and protection, surface and ground water protection in therms of their quantity and quality.