Impact of bacterial and fungal processes on ¹⁴C-hexadecane mineralisation in weathered hydrocarbon contaminated soil
Date
2012
Authors
Adetutu, E.M.
Ball, A.S.
Weber, J.
Aleer, S.
Dandie, C.E.
Juhasz, A.L.
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Journal article
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Science of the Total Environment, 2012; 414:585-591
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Abstract
In this study, the impact of bacterial and fungal processes on 14C-hexadecane mineralisation was investigated in weathered hydrocarbon contaminated soil. The extent of 14C-hexadecane mineralisation varied depending on the bioremediation strategy employed. Under enhanced natural attenuation conditions, 14C-hexadecane mineralisation after 98 days was 8.5 ± 3.7% compared to < 1.2% without nitrogen and phosphorus additions.
14C-hexadecane mineralisation was further enhanced through Tween 80 amendments (28.9 ± 2.4%) which also promoted the growth of a Phanerochaete chyrsosporium fungal mat. Although fungal growth in weathered hydrocarbon contaminated soil could be promoted through supplementing additional carbon sources (Tween 80, sawdust, compost, pea straw), fungal 14C-hexadecane mineralisation was negligible when sodium azide was added to soil microcosms to inhibit bacterial activity.
In contrast, when fungal activity was inhibited through nystatin additions, 14C-hexadecane mineralisation ranged from 6.5 ± 0.2 to 35.8 ± 3.8% after 98 days depending on the supplied amendment. Bacteria inhibition with sodium azide resulted in a reduction in bacterial diversity (33–37%) compared to microcosms supplemented with nystatin or microcosms without inhibitory supplements. However, alkB bacterial groups were undetected in sodium azide supplemented microcosms, highlighting the important role of this bacterial group in 14C-hexadecane mineralisation.
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Copyright 2011 Elsevier