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Forest‐derived liming by‐products: Potential benefits to remediate soil acidity and increase soil fertility
Author(s) -
Gag Bernard,
Ziadi Noura
Publication year - 2020
Publication title -
agronomy journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.752
H-Index - 131
eISSN - 1435-0645
pISSN - 0002-1962
DOI - 10.1002/agj2.20421
Subject(s) - lime , wood ash , soil ph , biochar , soil water , environmental science , agronomy , soil fertility , chemistry , soil acidification , nutrient , environmental chemistry , biology , soil science , paleontology , organic chemistry , pyrolysis
Soil acidification is an important cause of declining crop yields in many countries, including Canada and the United States. Meanwhile, alkaline by‐products from forest resources are widely available but underused in agriculture despite their expected benefits on soil pH and fertility. The aim of this study was to determine the effects, throughout a 40‐wk laboratory incubation, of six different forest‐derived liming materials on soil pH and Mehlich‐3–extractable major nutrients in two acidic soils. Lime mud, two wood ashes (papermill biosolids and wood bark), two biochars (maple and pine), and a de‐inking paper sludge (DPS) were applied at calcium carbonate equivalence–based rates, according to the amount of lime required to achieve a target pH of 6.5 on each soil. A calcitic lime (CL) was used as a reference. All forest‐derived materials except pine biochar were equally effective as CL in increasing the pH of the two acidic soils after 40 wk of incubation. Lime mud quickly raised the pH after soil incorporation, and then the pH progressively declined. By contrast, DPS upon decomposition gradually increased soil pH over time. In terms of liming value based on dry mass of each material, lime mud was needed at the lowest amount (0.8 CL unit) to increase pH to the target value. Wood ash, particularly from wood combustion, was a significant direct source of P, K, and Mg, whereas maple biochar supplied large amounts of available K and Mg. This study demonstrated that forest‐derived alkaline by‐products can efficiently remediate soil acidity and improve soil fertility.

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