Straw residue incorporation promotes soil organic carbon accumulation and enhances the effect of subsoiling on plant growth

IF 3.3 2区农林科学 Q2 SOIL SCIENCE

Geoderma Regional Pub Date : 2025-08-20 DOI:10.1016/j.geodrs.2025.e01000

Weijun Zhang , Xu Liu , Lars J. Munkholm , Tingting An , Hongdan Li , Xiaoqian Xu , Shuangyi Li , Chang Peng , Jingkuan Wang

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引用次数: 0

Abstract

Subsoiling tillage (SubT) is an effective strategy for improving soil structure in the agricultural management. However, little is known about the response of soil organic carbon (SOC) accumulation and plant nutrient uptake to SubT and subsoiling with straw residue incorporation (SubTS). We conducted a one-year field experiment in the Mollisol region of northeastern China, including three treatments: (1) conventional tillage (ConT); (2) SubT; (3) SubTS. Soil samples were collected from topsoil (0–20 cm) and subsoil (20–35 cm) to determine contents of SOC fractions, soil nutrients and soil microbial community structure. Crop biomass components and plant nutrient concentration as well as uptake were determined at maturity. SubTS increased particulate and mineral-associated organic carbon (POC and MAOC) contents and soil microbial biomass in the whole soil profile relative to ConT during days 30–150, and significantly (P < 0.05) for subsoil (averagely by 18.8 %, 13.2 % and 76.7 %, respectively). However, SubT was only conducive to POC and MAOC formation and soil microbial activities in the topsoil but not for the subsoil during days 60–150. Nonetheless, SubT and especially SubTS substantially increased harvest index and plant nutrient uptake. Moreover, the stronger relationships among SOC pool, aggregate stability, soil microorganisms and soil nutrients were observed in the subsoil than those in the topsoil. These results demonstrated that soil structure improvement and exogenous organic materials input performed pivotal functions in SOC accumulation, soil nutrients preservation and plant nutrition absorption. Accordingly, SubTS was recommended as a sustainable agriculture practice to promote SOC accumulation and plant growth in Northeast China.

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秸秆还田促进了土壤有机碳的积累，增强了深土对植物生长的影响

深埋耕作是农业经营中改善土壤结构的一种有效策略。然而，土壤有机碳（SOC）积累和植物养分吸收对SubT和秸秆还田（SubTS）的响应尚不清楚。在中国东北Mollisol地区进行了为期一年的田间试验，包括三种处理：(1)常规耕作（ConT）；(2) SubT;(3) SubTS。采集表层土壤（0 ~ 20 cm）和底土（20 ~ 35 cm）土壤样品，测定土壤有机碳组分含量、土壤养分和土壤微生物群落结构。测定作物成熟期生物量组成、植物养分浓度和吸收量。在30 ~ 150 d，与对照相比，SubTS增加了全土壤剖面颗粒和矿物相关有机碳（POC和MAOC）含量以及土壤微生物生物量，其中下层土壤显著增加（P < 0.05）（平均分别增加18.8%、13.2%和76.7%）。在60 ~ 150 d， SubT只对表层土壤POC和MAOC的形成和土壤微生物活性有促进作用，对底土没有促进作用。然而，SubT，尤其是SubTS显著提高了作物的收获指数和养分吸收量。土壤有机碳库、团聚体稳定性、土壤微生物和土壤养分之间的关系在底土中强于表层土。结果表明，土壤结构改善和外源有机物质输入对土壤有机碳积累、土壤养分保存和植物营养吸收起着关键作用。因此，推荐SubTS作为促进东北地区有机碳积累和植物生长的可持续农业实践。

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来源期刊

Geoderma Regional Agricultural and Biological Sciences-Soil Science

CiteScore

6.10

自引率

7.30%

发文量

122

审稿时长

76 days

期刊介绍： Global issues require studies and solutions on national and regional levels. Geoderma Regional focuses on studies that increase understanding and advance our scientific knowledge of soils in all regions of the world. The journal embraces every aspect of soil science and welcomes reviews of regional progress.