Carbon to nitrogen stoichiometry of organic amendments influences the improvement of aggregate stability of a cropping vertisol

IF 5 3区 农林科学 Q1 SOIL SCIENCE
Mingming Du, Budiman Minasny, Sheikh M. F. Rabbi
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Abstract

Soil aggregation is one of the key processes controlling air, water and gas transport in soil. Long‐term cropping without returning organic matter in the soil can reduce the water stability of the aggregates. Microbial decomposition of organic matter plays a significant role in aggregate formation and hence can reverse the decline in the water stability of the aggregates. The inoculation of soil with beneficial microbes can improve the aggregate stability of cropping soil, potentially restoring its condition to healthy soil. However, the restoration of the aggregate stability may also be dependent on the C:N ratio of added organic matter. We hypothesize that a higher C:N ratio of added organic matter and microbial inoculation can trigger a more persistent improvement in aggregates. We treated pasture (aggregates were water‐stable) and cropping (aggregates were unstable in water) vertisols with sugarcane (C:N = 104) and lucerne (C:N = 23) residues with and without microbial inoculant that had both bacteria and fungi. After 4 months of incubation, we found that the slaking index dropped by 46% in sugarcane‐treated cropping soils, whereas the reduction was 27% in lucerne treatment. A similar reduction in the slaking index was also observed in the pasture soil but the magnitude of the reduction was lower than in the cropping soils. However, microbial inoculation did not show a statistically significant influence on reducing the slaking of cropping or pasture soils in this study. The reduction of slaking in both soils was supported by an increase in mean weight diameter (MWD), macro‐aggregates and the aggregate‐associated soil organic carbon. Our results demonstrated that organic carbon input with a high C:N ratio facilitates the restoration of water stability of the structurally unstable cropping soils.
有机添加物的碳氮比对改善种植蚯蚓聚合稳定性的影响
土壤团聚是控制土壤中空气、水和气体传输的关键过程之一。长期耕作而不返还土壤中的有机物会降低团聚体的水稳定性。有机物的微生物分解在团聚体的形成过程中起着重要作用,因此可以扭转团聚体水稳定性下降的趋势。在土壤中接种有益微生物可以改善种植土壤的团聚稳定性,使其恢复到健康土壤的状态。不过,团聚稳定性的恢复可能还取决于添加的有机物的碳氮比。我们假设,添加的有机物和微生物接种的 C:N 比值越高,聚合体的改善越持久。我们用甘蔗(C:N = 104)和苜蓿(C:N = 23)残渣处理牧草(聚集物在水中稳定)和农作物(聚集物在水中不稳定)蛭石,同时添加和不添加细菌和真菌微生物接种剂。经过 4 个月的培养后,我们发现甘蔗处理过的土壤的脆化指数下降了 46%,而苜蓿处理过的土壤的脆化指数下降了 27%。在牧场土壤中也观察到了类似的脆化指数下降,但下降幅度低于种植土壤。不过,在这项研究中,微生物接种对减少种植土和牧场土的淤泥没有显著的统计学影响。平均重量直径(MWD)、大团聚体和与团聚体相关的土壤有机碳的增加支持了这两种土壤板结现象的减少。我们的研究结果表明,高 C:N 比的有机碳输入有助于恢复结构不稳定的农田土壤的水稳定性。
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来源期刊
Soil Use and Management
Soil Use and Management 农林科学-土壤科学
CiteScore
7.70
自引率
13.20%
发文量
78
审稿时长
3 months
期刊介绍: Soil Use and Management publishes in soil science, earth and environmental science, agricultural science, and engineering fields. The submitted papers should consider the underlying mechanisms governing the natural and anthropogenic processes which affect soil systems, and should inform policy makers and/or practitioners on the sustainable use and management of soil resources. Interdisciplinary studies, e.g. linking soil with climate change, biodiversity, global health, and the UN’s sustainable development goals, with strong novelty, wide implications, and unexpected outcomes are welcomed.
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