Liming legacy effects associated with the world's largest soil liming and regreening program in Sudbury, Ontario, Canada

Liming legacy effects associated with the world's largest soil liming and regreening program in Sudbury, Ontario, Canada

Limestone is a common amendment used to counteract soil acidity and metal pollution. Understanding the legacy effects of a one-time soil limestone application and subsequent afforestation is needed to evaluate the long-term success of remediation efforts. In this study, soil and tree chemistry were...

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Bibliographic Details
Published in:The Science of the total environment Vol. 805; p. 150321
Main Authors: Kellaway, Edward J., Eimers, M. Catherine, Watmough, Shaun A.
Format: Journal Article
Language:English
Published: Elsevier B.V 20-01-2022
Subjects:
Afforestation
Limestone
Metals
Nutrient
Soil amendment
Sudbury
Limestone
Nutrient
Afforestation
Metals
Soil amendment
Sudbury
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Summary:Limestone is a common amendment used to counteract soil acidity and metal pollution. Understanding the legacy effects of a one-time soil limestone application and subsequent afforestation is needed to evaluate the long-term success of remediation efforts. In this study, soil and tree chemistry were measured across 15 limed sites that were treated and planted 14 to 37 years ago in Sudbury, Ontario, along with two untreated sites. Soil pH and exchangeable base cation (calcium (Ca) and magnesium (Mg)) concentrations were generally elevated especially in surface organic [FH] horizons up to 37-years post limestone treatment. High site-to-site variation however, obscured clear patterns over time and base cation mass budgets were generally unable to account for the mass of added Ca and Mg. Metal partitioning (Kd) in soil was most influenced by soil pH rather than organic matter (OM) showing that metal availability increases as liming effects fade. This study shows that the legacy effects of soil liming can persist for several decades and are most apparent in the forest floor (FH), but legacy effects are quite modest, and it is likely that a considerable amount of limestone has been lost through erosion. [Display omitted] •Soil liming followed by afforestation increased pH and reduced metal availability.•Metal partitioning was most strongly influenced by soil pH.•Lime budgets failed to account for the Ca and Mg added to soils during liming.•Large portions of limestone were lost due to erosion following treatment.•Limestone was evident in soils up to 37 years post liming in all limed sites.
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ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2021.150321