Phosphorus fertilization promotes carbon cycling and negatively affects microbial carbon use efficiency in agricultural soils: Laboratory incubation experiments

IF 5.6 1区 农林科学 Q1 SOIL SCIENCE Geoderma Pub Date : 2024-09-21 DOI:10.1016/j.geoderma.2024.117038
Antonio Rafael Sánchez-Rodríguez , María Carmen del Campillo , José Torrent , Emily C. Cooledge , David R. Chadwick , Davey L. Jones
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Abstract

Soil organic carbon (SOC) loss from intensive agriculture represents a major global concern. Consequently, strategies to improve soil management to mitigate or abate SOC losses and enhance carbon (C) sequestration are urgently needed. Nutrient availability, especially nitrogen (N) and phosphorus (P), regulates soil C cycling and storage. While N effects are well studied, less is known about how soil P status and different fertilizer types affects SOC dynamics. This laboratory incubation assessed how two common P fertilizers, diammonium phosphate (DAP) and single superphosphate (SSP), affected microbial activity and C immobilization in the zone of soil directly around the fertilizer granule (prillosphere) across three contrasting agricultural soils (Inceptisol, Vertisol, Alfisol). Soils were amended with DAP or SSP granules and C turnover assessed with 14C-labeled glycine, malic acid or glucose, alongside unfertilized controls. After three weeks, soil pH, electrical conductivity (EC), Olsen-P and microbial C use efficiency (CUE) were measured. DAP increased pH in the Inceptisol (acidic soil), while SSP decreased pH in all soils. Both fertilizers increased EC and Olsen-P, but SSP enhanced Olsen-P more than DAP. Cumulative 14CO2 emissions were 19–20 % higher with P fertilizers compared to the control, with DAP stimulating faster initial C mineralization rates than SSP, except in the Alfisol. P addition reduced microbial CUE by 23–34 % across all soils and substrates versus the unfertilized control. We ascribe this reduction in CUE to an alleviation of nutrient limitation or a fertilizer-induced osmotic stress. The co-addition of N either in DAP or glycine did not alter the P-induced CUE response suggesting that P was more important than N in regulating microbial CUE in these soils. We conclude that P fertilization increased short-term C turnover and may lead to reduced C storage in soil, however, further long-term (>1 year) research is needed to identify optimum P management strategies to minimize C losses in agricultural soils.

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磷肥促进农业土壤中的碳循环,并对微生物的碳利用效率产生负面影响:实验室培养实验
集约农业造成的土壤有机碳(SOC)流失是全球关注的一个主要问题。因此,迫切需要制定改善土壤管理的战略,以减轻或减少土壤有机碳的流失,并加强碳(C)的固存。养分供应,尤其是氮(N)和磷(P),调节着土壤碳循环和储存。虽然对氮的影响进行了深入研究,但对土壤磷的状况和不同肥料类型如何影响 SOC 的动态却知之甚少。这项实验室培养研究评估了磷酸二铵(DAP)和单过磷酸钙(SSP)这两种常见的磷肥如何影响微生物活动以及肥料颗粒(绒球)直接周围土壤区域的碳固定,涉及三种不同的农业土壤(Inceptisol、Vertisol 和 Alfisol)。使用 DAP 或 SSP 颗粒对土壤进行改良,并使用 14C 标记的甘氨酸、苹果酸或葡萄糖与未施肥的对照组一起评估 C 的转化率。三周后,测量土壤 pH 值、电导率(EC)、奥尔森-P 和微生物碳利用效率(CUE)。DAP 提高了 Inceptisol(酸性土壤)的 pH 值,而 SSP 则降低了所有土壤的 pH 值。两种肥料都能提高导电率和奥尔森-磷,但 SSP 比 DAP 更能提高奥尔森-磷。与对照相比,施用磷肥的累积 14CO2 排放量高出 19-20%,其中 DAP 比 SSP 能更快地促进初始 C 矿化率,但 Alfisol 土壤除外。与未施肥的对照组相比,在所有土壤和基质中添加钾肥可使微生物的 CUE 降低 23-34%。我们认为,CUE 的降低是由于养分限制或肥料引起的渗透压力的缓解。在 DAP 或甘氨酸中同时添加氮并没有改变 P 诱导的 CUE 反应,这表明在调节这些土壤中的微生物 CUE 时,P 比 N 更重要。我们的结论是,施用磷肥会增加短期的碳周转,并可能导致土壤中的碳储量减少,但还需要进一步的长期(1 年)研究,以确定最佳的磷肥管理策略,最大限度地减少农业土壤中的碳损失。
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来源期刊
Geoderma
Geoderma 农林科学-土壤科学
CiteScore
11.80
自引率
6.60%
发文量
597
审稿时长
58 days
期刊介绍: Geoderma - the global journal of soil science - welcomes authors, readers and soil research from all parts of the world, encourages worldwide soil studies, and embraces all aspects of soil science and its associated pedagogy. The journal particularly welcomes interdisciplinary work focusing on dynamic soil processes and functions across space and time.
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