Marcie G. Towell scite author profile

This study investigated the microbial degradation of (14)C-labelled hexadecane, octacosane, phenanthrene and pyrene and considered how degradation might be optimised in three genuinely hydrocarbon-contaminated soils from former petroleum refinery sites. Hydrocarbon mineralisation by the indigenous microbial community was monitored over 23 d. Hydrocarbon mineralisation enhancement by nutrient amendment (biostimulation), hydrocarbon degrader addition (bioaugmentation) and combined nutrient and degrader amendment, was also explored. The ability of indigenous soil microflora to mineralise (14)C-target hydrocarbons was appreciable; ≥ 16% mineralised in all soils. Generally, addition of nutrients or degraders increased the rates and extents of mineralisation of (14)C-hydrocarbons. However, the addition of nutrients and degraders in combination had a negative effect upon (14)C-octacosane mineralisation and resulted in lower extents of mineralisation in the three soils. In general, the rates and extents of mineralisation will be dependent upon treatment type, nature of the contamination and adaptation of the ingenious microbial community.

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The biodegradation of cable oil components: Impact of oil concentration, nutrient addition and bioaugmentation

Towell

Paton

Semple

2011

Environmental Pollution

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Temporal changes in the extractability, bioaccessibility and biodegradation of target hydrocarbons in soils from former refinery facilities

Towell

Vázquez-Cuevas

Bellarby

et al. 2021

International Biodeterioration & Biodegradation

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Marcie G. Towell

Biodegradation of PAHs in soil: Influence of chemical structure, concentration and multiple amendment

Impact of carbon nanomaterials on the behaviour of 14C-phenanthrene and 14C-benzo-[a] pyrene in soil

Mineralisation of target hydrocarbons in three contaminated soils from former refinery facilities

The biodegradation of cable oil components: Impact of oil concentration, nutrient addition and bioaugmentation

Temporal changes in the extractability, bioaccessibility and biodegradation of target hydrocarbons in soils from former refinery facilities

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