AI Article Synopsis
- Landfill soil covers can help reduce methane emissions from landfills, but the characteristics of the soil may limit the effectiveness of methanotrophs (methane-eating microbes).
- A study tested various methods like inorganic fertilisation, soil decompaction, and adding compost to enhance the soil's ability to eliminate methane, finding that compost was the most effective, boosting methane elimination capacity from 55 to 189 g/m²/day.
- Improved air capacity, nutrient levels, and the number of methanotrophs due to compost were key factors, while other methods only provided short-term benefits; thus, adding compost could be a good strategy for managing methane in old landfill covers.
Article Abstract
Landfill soil covers and methanotrophs therein have potential to act as final sinks of the greenhouse gas methane (CH) generated in landfills, but soil characteristics in landfills might not support methanotrophic activity due to poor soil material selection or mineralisation over time. Hence, our aim was to determine the performance of mineral landfill soil under simulated CH flux and screen methods for elevating the CH elimination capacity (EC) of soil. The methods tested during the column experiment were inorganic fertilisation (nitrate, phosphate, sulphate, copper), decompaction and amelioration of the soil with compost. The addition of compost proved to be the most effective method for increasing the CH EC of soil, increasing from 55 to 189 g m d relative to the untreated control soil. This increase could be attributed to increased air capacity, concentration of soil nutrients and number of cultivable methanotrophs. Also, soil water-holding capacity was identified as a more crucial factor for methanotrophic activity than total porosity. Inorganic fertilisation and decompaction induced only a temporary increase in CH EC, likely resulting from the temporary supply of fertiliser to the nutrient-deprived soil. In conclusion, we suggest that compost amelioration (22 w-%) could be useful for restoring CH EC of old landfill covers as an aftercare action to control environmental impacts of closed landfills.
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| http://dx.doi.org/10.1016/j.wasman.2018.10.015 | DOI Listing |
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