Geochemically induced shifts in catabolic energy yields explain past ecological changes of diffuse vents in the East Pacific Rise 9°50'N area

IF 0.9 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Michael Hentscher, Wolfgang Bach
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引用次数: 15

Abstract

The East Pacific Rise (EPR) at 9°50'N hosts a hydrothermal vent field (Bio9) where the change in fluid chemistry is believed to have caused the demise of a tubeworm colony. We test this hypothesis and expand on it by providing a thermodynamic perspective in calculating free energies for a range of catabolic reactions from published compositional data. The energy calculations show that there was excess H2S in the fluids and that oxygen was the limiting reactant from 1991 to 1997. Energy levels are generally high, although they declined in that time span. In 1997, sulfide availability decreased substantially and H2S was the limiting reactant. Energy availability dropped by a factor of 10 to 20 from what it had been between 1991 and 1995. The perishing of the tubeworm colonies began in 1995 and coincided with the timing of energy decrease for sulfide oxidizers. In the same time interval, energy availability for iron oxidizers increased by a factor of 6 to 8, and, in 1997, there was 25 times more energy per transferred electron in iron oxidation than in sulfide oxidation. This change coincides with a massive spread of red staining (putative colonization by Fe-oxidizing bacteria) between 1995 and 1997.

For a different cluster of vents from the EPR 9°50'N area (Tube Worm Pillar), thermodynamic modeling is used to examine changes in subseafloor catabolic metabolism between 1992 and 2000. These reactions are deduced from deviations in diffuse fluid compositions from conservative behavior of redox-sensitive species. We show that hydrogen is significantly reduced relative to values expected from conservative mixing. While H2 concentrations of the hydrothermal endmember fluids were constant between 1992 and 1995, the affinities for hydrogenotrophic reactions in the diffuse fluids decreased by a factor of 15 and then remained constant between 1995 and 2000. Previously, these fluids have been shown to support subseafloor methanogenesis. Our calculation results corroborate these findings and indicate that the 1992-1995 period was one of active growth of hydrogenotrophic communities, while the system was more or less at steady state between 1995 and 2000.

Abstract Image

地球化学诱导的分解能产生的变化解释了东太平洋隆起9°50′n地区弥漫性喷口过去的生态变化
东太平洋隆起(EPR)在北纬9°50°处拥有一个热液喷口(Bio9),在那里流体化学的变化被认为是导致管虫群落死亡的原因。我们测试了这一假设,并通过提供热力学的角度来扩展它,从已发表的成分数据中计算一系列分解代谢反应的自由能。能量计算表明,1991 ~ 1997年流体中存在过量的H2S,氧为极限反应物。能量水平普遍较高,尽管在那段时间内有所下降。1997年,硫化物的可用性大幅下降,H2S是限制反应物。与1991年至1995年间相比,能源供应下降了10到20倍。管虫群落的消亡始于1995年,与硫化物氧化剂能量下降的时间一致。在同一时间间隔内,铁氧化剂的能量可用性增加了6到8倍,并且,在1997年,铁氧化中每个转移电子的能量是硫化物氧化的25倍。这种变化与1995年至1997年间红色染色的大规模传播(假定是铁氧化细菌的定植)相吻合。对于EPR 9°50′n区域(管蜗杆柱)的另一组喷口,使用热力学模型来检查1992年至2000年间海底分解代谢的变化。这些反应是从扩散流体成分偏离氧化还原敏感物质的保守行为推导出来的。我们表明,相对于保守混合的预期值,氢显著减少。1992年至1995年间,热液端元流体的H2浓度保持不变,而扩散流体中氢营养反应的亲和度下降了15倍,然后在1995年至2000年间保持不变。此前,这些流体已被证明支持海底甲烷生成。计算结果证实了上述结论,表明1992 ~ 1995年是富氢营养化群落的活跃增长期,1995 ~ 2000年则基本处于稳定状态。
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来源期刊
Geochemical Transactions
Geochemical Transactions 地学-地球化学与地球物理
CiteScore
3.70
自引率
4.30%
发文量
2
审稿时长
>12 weeks
期刊介绍: Geochemical Transactions publishes high-quality research in all areas of chemistry as it relates to materials and processes occurring in terrestrial and extraterrestrial systems.
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