Crops use inorganic and labile organic phosphorus from both high- and low-availability layers in no-till compost-amended soils

IF 5 3区 农林科学 Q1 SOIL SCIENCE
Xue Li, Moritz Hallama, Joan Romanyà
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Abstract

Organic fertilization in no-till soils increases soil organic matter and nutrient pools primarily in surface soils. However, little is known about how microbial activity affects crop access to phosphorus (P) forms at the surface, where the organic fertilizer is applied, and the subsurface, the main rooting zone. We aimed to study the changes in organic and inorganic P (Po; Pi) forms and compounds in no-till compost amended surface (0–5 cm) and subsurface (5–15 cm) soils growing a crop rotation for 2 years in pots. Crops were grown in pots with compost amended to the soil surface, while unamended and compost-amended pots without crops were used as controls. We measured changes in microbial C (carbon), soluble C, total Po and Pi forms, the moderately accessible EDTA-NaOH-Pi (-Po), and labile NaHCO3-Pi (-Po). P compounds in the EDTA-NaOH extract were measured by 31P-NMR. Compost addition increased the levels of total Pi and although it had no effect on total Po, increases of inositol, other phosphate monoesters and orthophosphate diesters could be observed. After the application of compost, the amount of total organic C, soluble carbon and all P forms increased in surface soil, while in the subsurface soil, there was a reduction in organic C and an increase in soluble C, total Pi, EDTA-NaOH-Pi and NaHCO3-Pi and the EDTA-NaOH-Po and labile NaHCO3-Po. Growing crops reduced all measured Pi forms and labile NaHCO3-Po, increased EDTA-NaOH-Po in surface soils and had no observable impact on total Po in either organic C-enriched surface or organic C-reduced subsurface soils. Crops mostly used Pi from the low P availability C-reduced subsurface layer, where NaHCO3-Po pools also decreased. Large reductions in NaHCO3-Po and increased levels of IHP and other-monoesters in crop-growing organic C-enriched surface layers may suggest microbial formation of monoesters Po and crop use of labile Po pools. In summary, Po formation in C-enriched surface layers and the mobilization of all Pi forms throughout the soil profile are particularly important findings for the understanding of P dynamics in compost-amended no-till systems.
农作物利用免耕堆肥改良土壤中高利用率层和低利用率层的无机磷和易变有机磷
在免耕土壤中施用有机肥可增加土壤有机质,并主要增加表层土壤的养分库。然而,人们对微生物活动如何影响作物获取地表(施用有机肥的地方)和地下(主要生根区)磷(P)的形式知之甚少。我们的目的是研究在盆栽轮作 2 年的免耕堆肥改良地表(0-5 厘米)和地表下(5-15 厘米)土壤中有机和无机磷(Po;Pi)形态和化合物的变化。作物生长在土壤表面施用堆肥的花盆中,未施用堆肥的花盆和施用堆肥但未种植作物的花盆作为对照。我们测量了微生物C(碳)、可溶性C、总Po和Pi形式、适度易得的EDTA-NaOH-Pi (-Po)以及易变的NaHCO3-Pi (-Po)的变化。通过 31P-NMR 测量了 EDTA-NaOH 提取物中的 P 化合物。堆肥增加了总 Pi 的含量,虽然对总 Po 没有影响,但可以观察到肌醇、其他磷酸盐单酯和正磷酸盐二酯的增加。施用堆肥后,表层土壤中的总有机碳、可溶性碳和所有形式的钾都有所增加,而在地下土壤中,有机碳减少,可溶性碳、总钾、乙二胺四乙酸-NaOH-钾和 NaHCO3-钾以及乙二胺四乙酸-NaOH-钾和易变 NaHCO3-钾有所增加。在富含有机碳的地表土壤或有机碳减少的地下土壤中,种植作物减少了所有测得的π形式和易变 NaHCO3-π,增加了乙二胺四乙酸-NaOH-π,但对总π没有明显影响。农作物主要利用低 P 可利用性 C 还原的次表层土壤中的 Pi,NaHCO3-Po 池也在减少。在作物生长的富含 C 的有机表层中,NaHCO3-Po 大量减少,而 IHP 和其他单酯的含量增加,这可能表明微生物形成了单酯 Po,作物使用了易变的 Po 池。总之,富碳表层中 Po 的形成和整个土壤剖面中所有 Pi 形式的调动对于了解堆肥改良免耕系统中 P 的动态变化尤为重要。
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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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