Limited effect of wood ash application on soil quality as indicated by a multisite assessment of soil organic matter attributes

Ruth Joseph; Amanda Diochon; Dave Morris; Lisa Venier; Caroline E. Emilson; Nathan Basiliko; Nicolas Bélanger; Trevor Jones; John Markham; Michael P. Rutherford; Emily Smenderovac; Ken Van Rees; Paul Hazlett

doi:10.1111/gcbb.12928

GCB Bioenergy (May 2022)

Limited effect of wood ash application on soil quality as indicated by a multisite assessment of soil organic matter attributes

Ruth Joseph,
Amanda Diochon,
Dave Morris,
Lisa Venier,
Caroline E. Emilson,
Nathan Basiliko,
Nicolas Bélanger,
Trevor Jones,
John Markham,
Michael P. Rutherford,
Emily Smenderovac,
Ken Van Rees,
Paul Hazlett

Affiliations

Ruth Joseph: Department of Geology Lakehead University Thunder Bay Ontario Canada
Amanda Diochon: Department of Geology Lakehead University Thunder Bay Ontario Canada
Dave Morris: Ontario Ministry of Northern Development Mines Natural Resources and Forestry Centre for Northern Forest Ecosystem Research Thunder Bay Ontario Canada
Lisa Venier: Natural Resources Canada Great Lakes Forestry Centre Sault Ste. Marie Ontario Canada
Caroline E. Emilson: Natural Resources Canada Great Lakes Forestry Centre Sault Ste. Marie Ontario Canada
Nathan Basiliko: Department of Biology and the Vale Living with Lakes Centre Laurentian University Sudbury Ontario Canada
Nicolas Bélanger: Département Science et Technologie Université TÉLUQ Montréal Quebec Canada
Trevor Jones: Natural Resources Canada Canadian Wood Fibre Centre Sault Ste. Marie Ontario Canada
John Markham: Department of Biological Sciences University of Manitoba Winnipeg Manitoba Canada
Michael P. Rutherford: University of Northern British Columbia Prince George British Columbia Canada
Emily Smenderovac: Ontario Ministry of Northern Development Mines Natural Resources and Forestry Centre for Northern Forest Ecosystem Research Thunder Bay Ontario Canada
Ken Van Rees: Department of Soil Science University of Saskatchewan Saskatchewan Canada
Paul Hazlett: Natural Resources Canada Great Lakes Forestry Centre Sault Ste. Marie Ontario Canada

DOI: https://doi.org/10.1111/gcbb.12928
Journal volume & issue: Vol. 14, no. 5
pp. 500 – 521

Abstract

Read online

Abstract In Canada, the combustion of forest biomass for bioenergy production has been increasing with an associated increase in residual wood ash. Wood ash is typically landfilled as waste but there is growing interest in applying wood ash to the soils of commercial forests. Ideally, wood ash supplies nutrients that may have been removed through biomass harvesting, increases soil pH, which improves nutrient availability, and potentially improves site productivity, but there is also potential for detrimental effects, such as toxicity, that impair soil functions. The objective of this study was to investigate the effects of wood ash application on soil organic matter attributes at eight experimental sites across Canada that are examining the effects of wood ash application on site fertility, productivity, and soil biodiversity. Wood ash application had an effect on total carbon (TC) and total nitrogen, microbial biomass carbon (MBC), hot water extractable carbon (HWEC), mineralizable C, sand size C, and HWEC and MBC normalized to TC, but changes were typically restricted to single sites or differed in their direction, that is, positive or negative. Based on the limited and inconsistent effects of ash on established indictors of soil quality measured in this study, there does not appear to be any advantageous or detrimental effects of adding wood ash to forest soil quality.

Published in GCB Bioenergy

ISSN: 1757-1693 (Print); 1757-1707 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Technology: Mechanical engineering and machinery: Renewable energy sources; Social Sciences: Industries. Land use. Labor: Special industries and trades: Energy industries. Energy policy. Fuel trade
Website: http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1757-1707

About the journal

Abstract

Keywords