Paper Mill Biosolids and Forest-Derived Liming Materials Applied on Cropland: Residual Effects on Soil Properties and Metal Availability

IF 2.9 Q2 SOIL SCIENCE

Soil Systems Pub Date : 2023-04-19 DOI:10.3390/soilsystems7020040

Bernard Gagnon, N. Ziadi

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Abstract

Combined paper mill biosolids (PB) and forest-derived liming by-products improve soil properties, but their residual effects following several years of application have hardly been investigated. A 13-year (2009–2021) field study was initiated at Yamachiche, QC, Canada, to assess the residual effects of PB and liming materials on the properties of a loamy soil. The PB was applied during nine consecutive years (2000–2008) at 0, 30, 60, and 90 Mg wet·ha−1, whereas the 30 Mg PB·ha−1 rate also received one of three liming materials (calcitic lime, lime mud, wood ash) at 3 Mg wet·ha−1. No amendment was applied during residual years. Past liming materials continued to increase soil pH but their effect decreased over time; meanwhile, past PB applications caused a low increase in residual soil NO3-N. Soil total C, which represented 40% of added organic C when PB applications ceased, stabilized to 15% after six years. Soil Mehlich-3-extractable contents declined over the thirteen residual years to be not significant for P, K, and Cu, while they reached half the values of the application years for Zn and Cd. Conversely, Mehlich-3 Ca was little affected by time. Therefore, land PB and liming material applications benefited soil properties several years after their cessation.

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造纸厂生物固体和林源石灰材料在农田上的应用:对土壤性质和金属有效性的残留影响

造纸厂生物固体（PB）和森林衍生的石灰副产品联合使用可以改善土壤性质，但经过几年的应用，其残留效应几乎没有得到研究。在加拿大QC Yamachiche启动了一项为期13年（2009-2011）的实地研究，以评估PB和石灰材料对壤土性质的残余影响。在连续九年（2000-2008年）中，在0、30、60和90 Mg湿·ha−1的条件下施用PB，而30 Mg PB·ha−-1的速率也在3 Mg湿·ha−1条件下施用三种石灰材料中的一种（石灰、石灰泥、木灰）。剩余年份未适用任何修正案。过去的石灰材料继续增加土壤pH值，但其影响随着时间的推移而减弱；同时，过去施用PB导致土壤残留NO3-N的增加较低。停止施用PB时，土壤总碳占添加有机碳的40%，六年后稳定在15%。土壤Mehlich-3可提取物含量在13个残留年内下降，对P、K和Cu没有显著影响，而对Zn和Cd的含量达到施用年的一半。相反，Mehlich-3Ca几乎不受时间的影响。因此，土地PB和石灰材料的应用在停止几年后有益于土壤性质。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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