在安第斯高海拔寒冷沙漠中,痕量气体氧化土壤细菌的数量随着与波洛克雷温泉的径向距离增加而增加

Zachary K Garvin, Sebastian R Abades, Nicole Trefault, Fernando D Alfaro, Katie Sipes, Karen G Lloyd, Tullis C Onstott
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引用次数: 0

摘要

高海拔干旱地区蕴藏着微生物群落,这些群落依靠新陈代谢龛位和灵活性在生物压力条件下生存,其中包括养分限制,因此必须利用大气中的痕量气体作为电子供体。地热泉通过提供水和基质(包括还原气体),为微生物的活动、多样性和丰富性提供了 "绿洲"。然而,这些泉水是否会产生梯度效应,从而扩大对周围土壤中痕量气体氧化微生物的影响范围,目前尚不得而知。本研究评估了与周围的寒冷沙漠相比,靠近安第斯盐滩的高海拔地热泉 Polloquere 是否会改变附近土壤细菌种群的多样性和代谢结构。回收的 DNA 数量和元基因组分析表明,在这一充满挑战的环境中,泉水是微生物的绿洲,它支持近距离土壤中生物量更大、代谢功能更多样化的细菌群落,而随着与泉水的径向距离的增加,生物量急剧下降。尽管生物量急剧下降,但大气中氢(H2)和一氧化碳(CO)的潜在吸收率却在远离泉眼的地方上升。动力学估计表明,这种活动是由于高亲和性痕量气体的消耗,很可能是一种获取能量和/或碳的生存策略。这些结果表明,Polloquere 调节着各种微生物群落和新陈代谢的梯度,当泉水的影响减弱到区域盐滩环境的影响时,痕量气体氧化剂的活动会增加。这表明,在更广阔的盐滩环境中,该泉水在当地具有重要意义,并有可能成为高海拔沙漠环境中其他地热系统的示范生态系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prevalence of trace gas-oxidizing soil bacteria increases with radial distance from Polloquere hot spring within a high-elevation Andean cold desert
High-elevation arid regions harbor microbial communities reliant on metabolic niches and flexibility to survive under biologically stressful conditions, including nutrient limitation that necessitates the utilization of atmospheric trace gases as electron donors. Geothermal springs present “oases” of microbial activity, diversity, and abundance by delivering water and substrates, including reduced gases. However, it is unknown whether these springs exhibit a gradient of effects, increasing the spatial reach of their impact on trace gas-oxidizing microbes in the surrounding soils. This study assessed whether proximity to Polloquere, a high-altitude geothermal spring in an Andean salt flat, alters the diversity and metabolic structure of nearby soil bacterial populations compared to the surrounding cold desert. Recovered DNA quantities and metagenomic analyses indicate that the spring represents an oasis for microbes in this challenging environment, supporting greater biomass with more diverse metabolic functions in proximal soils that declines sharply with radial distance from the spring. Despite the sharp decrease in biomass, potential rates of atmospheric hydrogen (H2) and carbon monoxide (CO) uptake increase away from the spring. Kinetic estimates suggest that this activity is due to high-affinity trace gas consumption, likely as a survival strategy for energy and/or carbon acquisition. These results demonstrate that Polloquere regulates a gradient of diverse microbial communities and metabolisms, culminating in increased activity of trace gas-oxidizers as the influence of the spring yields to that of the regional salt flat environment. This suggests that the spring holds local importance within the context of the broader salt flat and potentially represents a model ecosystem for other geothermal systems in high-altitude desert environments.
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