The impact of periodic waterlogging on biochemical characteristics and mineralization of soil organic carbon in straw-return farmland

The impact of periodic waterlogging on biochemical characteristics and mineralization of soil organic carbon in straw-return farmland

Periodic waterlogging is more common due to more frequent extreme precipitation but its impact on soil organic carbon (SOC) loss is obscure in straw-return farmland. We compared soil properties and biochemical characteristics of SOC (compositions of non-cellulosic and amino polysaccharides) in adjac...

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Bibliographic Details
Main Authors: Yunxi Peng, Wenyu Shi, Ningning Zhao
Format: Article
Language:English
Published: Czech Academy of Agricultural Sciences 2025-04-01
Series:Soil and Water Research
Subjects:
amino sugars
non-cellulosic sugars
periodic waterlogging
soc mineralization
soil aggregate stability
straw return
Online Access:https://swr.agriculturejournals.cz/artkey/swr-202502-0006_the-impact-of-periodic-waterlogging-on-biochemical-characteristics-and-mineralization-of-soil-organic-carbon-in.php
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Summary:Periodic waterlogging is more common due to more frequent extreme precipitation but its impact on soil organic carbon (SOC) loss is obscure in straw-return farmland. We compared soil properties and biochemical characteristics of SOC (compositions of non-cellulosic and amino polysaccharides) in adjacent periodic waterlogged farmland (PWF) and non-waterlogged farmland (NWF) in a semi-humid warm temperate region. SOC mineralization was also measured at 60% (aerobic) or 100% (anaerobic) of field capacity at 25 °C for 82 days. The negative effect of periodic waterlogging on SOC contents and soil aggregate stability were observed in the 20-80 cm depth but were offset in topsoil (0-20 cm) due to straw-return. Periodic waterlogging increased the non-cellulosic sugar content and amino sugar content in SOC and the mass ratio of (galactose plus mannose) to (arabinose plus xylose) at 40-80 cm depth except at 0-40 cm depth. By the end of 82 days' incubation, when aeration status changed from anaerobic to aerobic conditions, total C loss as CO2 increased similarly (123.9%) in PWF and NWF soils in the top 40 cm, but more C loss occurred under PWF than under NWF (78.9% vs. 46.9%) in the 40-80 cm depth, which was probably ascribed to its higher non-cellulosic sugar and amino sugar content. Our result emphasized the importance of straw-return for maintaining soil quality under periodic waterlogged farmland.
ISSN:1801-5395
1805-9384

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