Bacterial populations and processes in sediments containing gas hydrates (ODP Leg 146: Cascadia Margin)

被引:75
作者
Cragg, BA
Parkes, RJ
Fry, JC
Weightman, AJ
Rochelle, PA
Maxwell, JR
机构
[1] UNIV BRISTOL,DEPT GEOL,BRISTOL BS8 1RJ,AVON,ENGLAND
[2] UNIV WALES COLL CARDIFF,SCH PURE & APPL BIOL,CARDIFF CF1 3TL,S GLAM,WALES
[3] UNIV BRISTOL,DEPT CHEM,BRISTOL BS8 1RJ,AVON,ENGLAND
关键词
ODP Site 888; ODP Site 889/890; ODP Site 892; bacteria; gas hydrates;
D O I
10.1016/0012-821X(95)00246-9
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
Bacterial populations and activity were quantified at three sites in the Cascadia Margin accretionary wedge, off the West Canadian/American coast (ODP Leg 146). At two sites sediments contained gas hydrates, Site 889/890 had a discrete zone of hydrate approximately 10 m above a bottom simulating reflector (BSR) at 225 m below sea floor (mbsf) and Site 892 had disseminated hydrate in the upper 20 mbsf and a BSR at 74 mbsf. Site 888 was a control site without gas hydrates. The control site (888) and top approximately 90 mbsf of Site 889/890 had bacterial distributions similar to previous Pacific Ocean sites. In the upper approximately 30 m of Site 892, however, bacterial populations were much lower, suggesting inhibition by the high concentrations of H2S within the hydrate zone. Below this depth bacterial populations rose to concentrations consistent with other sites. The control site was dominated by SO4 reduction and rates of CH4 oxidation in the top 90 m were low (0.002-0.033 nmol cm(-3) d(-1)). At Site 889/890 bacterial populations and activity were stimulated in the discrete hydrate zone. CH4 oxidation rates increased in the middle of this zone to 134.5 nmol cm(-3) d(-1) (ca. 9 times the average rate at other depths), resulting in a significant (x 10) increase in the total bacterial population. The anaerobic process(es) responsible for this oxidation remain unclear, despite SO4-reducing bacteria, previously associated with CH4 oxidation, also being stimulated in this zone. Fluid flux into accretionary wedge sediments may be an important process in providing electron accepters to maintain these relatively high rates of CH4 oxidation. This first microbiological study of gas hydrates indicates that bacterial processes are influenced by gas and fluid venting, and they play a major role in geochemical changes within these deep (> 200 mbsf) sediments.
引用
收藏
页码:497 / 507
页数:11
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