中国土壤团粒结构和团粒相关氮对秸秆还田的响应:来自荟萃分析和盆栽实验的证据

IF 3.6 2区 农林科学 Q2 ENVIRONMENTAL SCIENCES
Sainan Geng, Lantao Li, Yuhong Miao, Duo Zhang, Qirui Yang, Yilun Wang
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引用次数: 0

摘要

提高土壤结构和土壤氮的可利用性是全球耕作制度中农业可持续发展的关键。秸秆还田可影响土壤团聚,但近年来关于秸秆还田对土壤团聚影响的研究结果并不一致,秸秆衍生氮在土壤中的分布和可利用性也尚不清楚。本文基于近 10 年来中国发表的 57 项研究,对秸秆还田对土壤团聚作用的影响进行了荟萃分析。此外,结合盆栽试验,在中国小麦主产区采用 15N 示踪法研究了两种主要小麦(Triticum aestivum L.)前茬作物、玉米(Zea mays L.)和大豆(Glycine max L.)秸秆衍生氮在土壤中的分布和转移特征。将 15N 标记的秸秆分别以土壤干重的 0.3% 和 0.5% 的比例引入盆栽土壤,并在小麦整个生长期(220 天)内以田间水容量的 60%-70% 进行培养。荟萃分析表明,秸秆还田显著提高了大颗粒团聚体(LM%)和小颗粒团聚体(SM%)的质量比,但显著降低了微团聚体(MI%)和淤泥加粘土颗粒(CS%)的质量比,平均效应大小分别为 36.27%、9.06%、-8.26% 和 -21.32%。平均重量直径(MWD)和几何平均直径(GMD)也分别增加了 21.48% 和 15.64%。与 SM% 相比,LM% 对土壤团聚体稳定性的贡献更大。此外,只有 LM% 与相应的团聚体相关氮含量呈显著正相关,这也是秸秆还田后土壤氮素利用率提高的重要原因。当土壤 pH 值接近 6.5-7.5、年平均气温高于 15℃、年平均降雨量接近 800-1000 毫米时,秸秆还田对土壤团聚的积极影响最大。盆栽试验结果表明,>2 毫米团聚体中的秸秆衍生氮比例分别是 0.25-2、0.053-0.25 和 <0.053毫米团聚体中的 1.21-1.28、1.50-2.23 和 1.34-1.74 倍。此外,不同粒径集料的秸秆衍生氮含量比例显示,秸秆用量达到土壤干重 0.5%的比例大于 0.3%,是 0.3%的 1.09-1.66 倍,大豆秸秆的比例明显大于玉米秸秆,是玉米秸秆的 1.50-2.28 倍。在施用量为 60 g pot-1 和 100 g pot-1 的情况下,小麦对大豆秸秆衍生氮素的吸收率分别是玉米秸秆衍生氮素的 1.83 倍和 2.15 倍。总之,秸秆还田能有效提高土壤团粒稳定性和氮素利用率,这与土壤LM%的提高密切相关。大豆秸秆比玉米秸秆更能稳定土壤团聚体,其秸秆衍生氮是后续小麦作物的重要氮源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Responses of soil aggregation and aggregate-associated nitrogen to straw return in China: Evidence from a meta-analysis and a pot experiment

Enhancing soil structure and soil nitrogen availability is the key to sustainable agricultural development in global cropping systems. Straw return can affect soil aggregation, but the results of recent studies on the influence of straw return on soil aggregation are not consistent, and the distribution and availability of straw-derived nitrogen in soils are still unclear. Here, a meta-analysis of the effects of straw return on soil aggregation was conducted based on 57 studies published in China over the past 10 years. Moreover, combined with a pot experiment, the distribution and transfer characteristics of the two main wheat (Triticum aestivum L.)-preceding crops, corn (Zea mays L.) and soybean (Glycine max L.) straw-derived nitrogen in the soils were studied by using the 15N-tracer method in the main wheat-producing areas of China. 15N-labeled straw was introduced into soils in pots at rates of 0.3% and 0.5% of the soil dry mass and incubated 60%–70% of the field water capacity throughout the entire growth period of wheat (220 days). A meta-analysis revealed that straw return significantly improved the mass ratio of large macro-aggregates (LM%) and small macro-aggregates (SM%) but significantly decreased the mass ratio of micro-aggregates (MI%) and silt plus clay-size particles (CS%), with mean effect sizes of 36.27%, 9.06%, −8.26%, and −21.32%, respectively. The mean weight diameter (MWD) and geometric mean diameter (GMD) also increased by 21.48% and 15.64%, respectively. Compared with SM%, LM% made a greater contribution to the stability of soil aggregates. Moreover, only LM% showed a significant positive correlation with the corresponding aggregate-associated nitrogen content, which was an important reason for the improvement in soil nitrogen availability after straw return. The positive effect of straw return on soil aggregation was greatest when the soil pH was close to 6.5–7.5, the average annual temperature was greater than 15°C, and the average annual rainfall was close to 800–1000 mm. The results of the pot experiment revealed that the proportions of straw-derived nitrogen in >2 mm aggregates were 1.21–1.28, 1.50–2.23, and 1.34–1.74 times greater than those in 0.25–2, 0.053–0.25, and <0.053 mm aggregates, respectively. Moreover, the proportion of straw-derived nitrogen content of aggregates of different particle sizes showed that the proportion of straw used to reach 0.5% of the soil dry weight was greater than 0.3%, which was 1.09–1.66 times greater, and that of soybean straw was significantly greater than that of corn straw, which was 1.50–2.28 times greater. At application rates of 60 g pot−1 and 100 g pot−1 straw, the absorption of soybean straw-derived nitrogen by wheat was 1.83 and 2.15 times greater than that of corn straw-derived nitrogen, respectively. In conclusion, straw return effectively improved soil aggregate stability and nitrogen availability, which was closely related to the increase in soil LM%. Soybean straw can stabilize soil aggregates better than corn straw, and its straw-derived nitrogen is an important nitrogen source for subsequent wheat crops.

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来源期刊
Land Degradation & Development
Land Degradation & Development 农林科学-环境科学
CiteScore
7.70
自引率
8.50%
发文量
379
审稿时长
5.5 months
期刊介绍: Land Degradation & Development is an international journal which seeks to promote rational study of the recognition, monitoring, control and rehabilitation of degradation in terrestrial environments. The journal focuses on: - what land degradation is; - what causes land degradation; - the impacts of land degradation - the scale of land degradation; - the history, current status or future trends of land degradation; - avoidance, mitigation and control of land degradation; - remedial actions to rehabilitate or restore degraded land; - sustainable land management.
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