Combining lime and organic amendments based on titratable alkalinity for efficient amelioration of acidic soils

IF 5.8 2区农林科学 Q1 SOIL SCIENCE

Soil Pub Date : 2024-01-15 DOI:10.5194/soil-10-33-2024

Birhanu Iticha, Luke M. Mosley, Petra Marschner

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引用次数: 0

Abstract

Abstract. Ameliorating soil acidity using a combination of lime and organic amendments (OAs) can be an alternative to lime alone, but determining the appropriate OA rates can be difficult. We developed a new method for calculating the combined application rate of lime and OAs (wheat straw, faba bean straw, blended poultry litter, biochar, and compost) that is based on the titratable alkalinity of OAs and the equilibrium lime buffer capacity (LBCeq) of acidic soils. The effect of calculated soil amendment rates on soil pH was validated at soil water contents of 60 %, 100 %, and 150 % of field capacity (FC). The soil used to develop and validate the method was a sandy loam with a soil pH in deionised water (pHW) of 4.84 and a soil pH in 0.01 M CaCl2 solution (pHCa) of 4.21. The LBCeq of the soil was 1657 mg CaCO3 kg−1 pH−1 (where “CaCO3 kg−1 pH−1” denotes the amount of lime required to raise the pH of 1 kg of soil by one unit). The titratable alkalinity of the OAs ranged from 11.7 cmol Heq+ kg−1 for wheat straw to 357 cmol Heq+ kg−1 for compost. At 60 % FC, faba bean and wheat straw amendment increased the soil pHW to 6.48 and 6.42, respectively, but lower pH values were reached in soil amended with less biodegradable or resistant OAs (ROAs) (i.e. blended poultry litter, biochar, and compost). At 150 % FC, the two straws increased the soil pHW to only 5.93 and 5.75, respectively, possibly due to slower decomposition under submerged conditions, resulting in limited alkalinity production, whereas amendment with ROAs produced pHW values close to 6.5. With an increasing lime-equivalent value (LEV) of the OA, from 5.8 g CaCO3 kg−1 (wheat straw) to 179 g CaCO3 kg−1 (compost), the lime requirement to reach pHW 6.5 in lime–OA combinations decreased from 2.72 to 0.09 g CaCO3 kg−1. The developed method was shown to be effective in determining the appropriate rates of OAs (with or without additional lime) for the management of acidic sandy loam soils in this study and highlights the importance of the soil water content with respect to its acid-neutralising effect.

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根据可滴定碱度将石灰和有机添加剂结合起来，有效改善酸性土壤

摘要。使用石灰和有机改良剂（OA）的组合来改善土壤酸度可以替代单独使用石灰，但确定适当的 OA 施用量可能比较困难。我们开发了一种新方法来计算石灰和有机添加剂（小麦秸秆、蚕豆秸秆、混合家禽粪便、生物炭和堆肥）的综合施用率，该方法基于有机添加剂的可滴定碱度和酸性土壤的平衡石灰缓冲能力（LBCeq）。在土壤含水量为田间容量（FC）的 60%、100% 和 150% 时，验证了计算出的土壤改良率对土壤 pH 值的影响。用于开发和验证该方法的土壤为砂壤土，去离子水中的土壤 pH 值（pHW）为 4.84，0.01 M CaCl2 溶液中的土壤 pH 值（pHCa）为 4.21。土壤的 LBCeq 为 1657 mg CaCO3 kg-1 pH-1（其中 "CaCO3 kg-1 pH-1 "表示将 1 kg 土壤的 pH 值提高一个单位所需的石灰量）。OA 的可滴定碱度从小麦秸秆的 11.7 cmol Heq+ kg-1 到堆肥的 357 cmol Heq+ kg-1 不等。在 60% FC 条件下，蚕豆和小麦秸秆改良剂分别将土壤 pHW 提高到 6.48 和 6.42，但生物降解性或抗性较低的 OA（即混合家禽粪便、生物炭和堆肥）改良土壤的 pH 值较低。在 FC 值为 150% 时，两种秸秆分别只将土壤 pHW 值提高到 5.93 和 5.75，这可能是由于在浸没条件下分解较慢，导致碱度产生有限，而使用 ROAs 改良土壤时，pHW 值接近 6.5。随着 OA 石灰当量（LEV）的增加，从 5.8 g CaCO3 kg-1（小麦秸秆）到 179 g CaCO3 kg-1（堆肥），石灰-OA 组合达到 pHW 6.5 所需的石灰从 2.72 g CaCO3 kg-1 降至 0.09 g CaCO3 kg-1。在这项研究中，所开发的方法被证明能有效确定治理酸性砂质壤土所需的适当的 OA（添加或不添加石灰）用量，并强调了土壤含水量对其酸性中和效果的重要性。

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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来源期刊

Soil Agricultural and Biological Sciences-Soil Science

CiteScore

10.80

自引率

2.90%

发文量

审稿时长

30 weeks

期刊介绍： SOIL is an international scientific journal dedicated to the publication and discussion of high-quality research in the field of soil system sciences. SOIL is at the interface between the atmosphere, lithosphere, hydrosphere, and biosphere. SOIL publishes scientific research that contributes to understanding the soil system and its interaction with humans and the entire Earth system. The scope of the journal includes all topics that fall within the study of soil science as a discipline, with an emphasis on studies that integrate soil science with other sciences (hydrology, agronomy, socio-economics, health sciences, atmospheric sciences, etc.).