Phosphorus Sorption Capacity and Its Relationships With Soil Properties Under Podzolic Soils of Atlantic Canada

IF 2.1 Q3 SOIL SCIENCE
A. J. Kedir, J. Nyiraneza, K. Hawboldt, D. B. McKenzie, Adrian Unc
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Abstract

Repetitive long-term fertilizer application leads to phosphorus (P) accumulation in agricultural soils. This can pose environmental risks if the soil’s phosphorus storage capacity is not well understood and considered when planning nutrient management. We investigated the P sorption capacity (PSC) in the surface (0-20 cm, n = 23) and subsurface (20-40 cm, n = 23) of long-term managed podzolic soils in Newfoundland (Nfld), Canada, through batch adsorption using two P concentrations of 150 and 500 mg P L-1, and developed pedotransfer functions to estimate PSC using selected soil properties. Also, the correlation between actual PSC, soil properties, and estimated Phosphorus saturation index (PSI) and soil P sorption capacity (SPSC) both from standard soil test were evaluated. The surface and subsurface soils provided similar median PSC (1.34 and 1.32 mg g-1, respectively, p = 0.16) when examined with the 150 mg P L-1 solution. With 500 mg P L-1 solution, the subsurface soils had significantly higher median PSC than the surface soils of the same fields (2.74 and 2.27 mg g-1, respectively, p = 0.02); and had a better linear relationship (R2 >0.40, p <0.05) with SPSC than at the lower P concentration. The surface soils had significantly higher extractable median P in water, citric acid, and Mehlich-3, higher soil organic matter (SOM), moisture content, Mehlich-3-Fe, -Ca, and -K, PSI, electrical conductivity, silt, and clay contents, while Mehlich-3-Al, Mehlich-3-Al : Fe ratio, SPSC, and sand were lower than those in the subsurface soils. All soils had comparable pH (~6.3). Pedotransfer function revealed that the PSC could be predicted using SOM, Mehlich-3-Al, and Mehlich-3-PICP and thus may be employed for developing testable hypotheses relevant to environmentally and economically viable P management strategies for acidic soils in boreal regions.
加拿大大西洋地区灰化土磷吸附量及其与土壤性质的关系
长期重复施肥导致农业土壤中磷的积累。如果在规划养分管理时没有很好地了解和考虑土壤的磷储存能力,这可能会造成环境风险。研究了加拿大纽芬兰(Nfld)长期管理的灰化土在表层(0-20 cm, n = 23)和地下(20-40 cm, n = 23)的磷吸附能力(PSC),采用150和500 mg P -1两种浓度的磷进行批量吸附,并利用选定的土壤性质建立了土壤传递函数来估算PSC。此外,还评价了土壤实际磷含量与土壤性质、磷饱和指数(PSI)和土壤磷吸收量(SPSC)之间的相关性。当使用150 mg L-1溶液检测时,表层和地下土壤的PSC中值相似(分别为1.34和1.32 mg g-1, p = 0.16)。在500 mg L-1溶液下,地下土壤PSC中值显著高于表层土壤(分别为2.74和2.27 mg g-1, P = 0.02);且与SPSC呈较好的线性关系(R2 >0.40, p <0.05)。表层土壤水、柠檬酸、迈赫里克-3中可提取磷含量显著高于表层土壤,土壤有机质(SOM)、含水量、迈赫里克-3-Fe、-Ca、-K、PSI、电导率、粉土和粘土含量显著高于表层土壤,而迈赫里克-3- al、迈赫里克-3- al: Fe比、SPSC和砂土含量均低于地下土壤。所有土壤的pH值(~6.3)相当。土壤传递函数表明,土壤磷含量可以用SOM、Mehlich-3-Al和Mehlich-3-PICP预测,因此可以用于开发与环境和经济上可行的北方地区酸性土壤磷管理策略相关的可测试假设。
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CiteScore
1.90
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