Review
Restoration of soil quality using biochar and brown coal waste: A review

https://doi.org/10.1016/j.scitotenv.2020.137852Get rights and content
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Highlights

  • Organic wastes mitigate degradation, improve soil quality and food security.

  • Sustainable soil quality benefits from organic amendment take many years to build.

  • Most organic wastes degrade quickly and can be problematic for long-term use.

  • Biochar and brown coal waste (BCW) improve soil quality and are stable in soil.

  • In-situ technologies can lower production and processing costs of biochar and BCW.

Abstract

Soils in intensively farmed areas of the world are prone to degradation. Amendment of such soils with organic waste materials attempts to restore soil quality. Organic amendments are heterogeneous media, which are a source of soil organic matter (SOM) and maintain or restore chemical, physical, biological and ecological functionality. More specifically, an increase in SOM can influence the soil microclimate, microbial community structure, biomass turnover and mineralisation of nutrients. The search is on-going for locally sourced alternatives as many forms may be costly or geographically limiting. The present review focuses on a heterogeneous group of amendments i.e. biochar and brown coal waste (BCW). Both biochar (made from a variety of feedstocks at various temperatures) and BCW (mined extensively) are options that have worldwide applicability.

These materials have very high C contents and soil stability, therefore can be used for long-term C sequestration to abate greenhouse gas emissions and as conditioners to improve soil quality. However, biochar is costly for large-scale applications and BCW may have inherently high moisture and pollutant contents. Future studies should focus on the long-term application of these amendments and determine the physicochemical properties of the soil, bioavailability of soil contaminants, diversity of soil communities and productivity of selected crops. Furthermore, the development of in situ technologies to lower production and processing costs of biochar and BCW would improve their economic feasibility for large-scale application.

Keywords

Soil organic matter
Biochar
Brown coal waste
Soil quality
Quality indicators

Abbreviations

Soil quality
SQ
heavy metal(s)
HM(s)
soil organic matter
SOM
soil organic carbon
SOC
brown coal waste
BCW
organic matter
OM
bulk density
BD
specific surface area
SSA
quality indicator(s)
QI(s)
compression index
CI
humic acid(s)
HA(s)
humic substance(s)
HSs.
organic carbon
OC
greenhouse gas
GHG

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