Accelerated straw decomposition and mitigated methane emissions via autumn puddling incorporation enhances soil health and yield stability in cold-region rice systems of China
Bing He, Yonglin Si, Chao Li, Limin Wang

TL;DR
Autumn puddling incorporation of straw in cold-region rice systems improves decomposition, reduces methane emissions, and supports soil health and yield stability.
Contribution
Autumn puddling incorporation is shown to be a novel sustainable strategy for straw management in cold-region rice systems.
Findings
Autumn puddling increased straw decomposition by 2.9% and reduced methane emissions by 32.3%.
T2 improved soil nutrients and root activity while stabilizing yields compared to other treatments.
T1 caused a 12.7% reduction in grain yield, highlighting the benefits of autumn over spring incorporation.
Abstract
This study discusses two challenges to rice production in China’s cold growing regions: the slow decomposition of straw due to low temperatures in the winter, and the environmental threats—concentrated methane emissions and soil reduction stress—associated with incorporation in the spring. To address these issues, a field experiment was conducted over two years (2022–2023) in paddy fields in central Jilin Province. The outcomes of three treatments were compared: no straw return (CK), puddling with water to promote straw incorporation in the spring (T1), and puddling with water to promote straw incorporation in the autumn (T2). The results demonstrated that T2 significantly enhanced the straw decomposition rate compared to T1 by extending the decomposition period, resulting in a 2.9% increase in straw weight loss after incorporation and a reduction in total methane emissions by 32.3%. T2…
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Taxonomy
TopicsRice Cultivation and Yield Improvement · Soil Carbon and Nitrogen Dynamics · Plant responses to water stress
