对阿萨巴斯卡冰川沉积有机物内微生物群落的初步调查

IF 3.5 Q3 ENGINEERING, ENVIRONMENTAL
Milena Esser, Phillip Ankley, Caroline Aubry-Wake, Yuwei Xie, Helen Baulch, Cameron Hoggarth, Markus Hecker, Henner Hollert, John P. Giesy, John W. Pomeroy and Markus Brinkmann
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引用次数: 0

摘要

由于气候的变化,冰川生态系统正在加速萎缩,同源碳和自源碳的暗化也在加剧,导致光吸收、相关热量和微生物群落随之发生变化。在这项研究中,结合对营养物质和多环芳烃(PAHs)的测量,利用代谢条形码和扫描电子显微镜对阿萨巴斯卡冰川(加拿大阿尔伯塔省加拿大落基山脉)表面微生物群落的组成进行了测量和表征。研究人员对冰川冰、冰冻洞和冰川上表面沉积物这三种基质进行了分析,以初步了解阿萨巴斯卡冰川上的微生物群落。真核微生物和原核微生物的生物多样性与苯并[a]芘、茚并[123-cd]芘、菊烯、苯并[ghi]苝和二苯并[ah]蒽等多环芳烃的浓度呈正相关。此外,在阿萨巴斯卡冰川上发现的多环芳烃的主要来源是石油燃烧。这项研究中观察到的大量沉积物和营养物质可能会导致微生物活动和生长的增加,从而进一步降低表面反照率,加速冰川融化。要了解微生物活动和生物多样性对地表反照率的影响及其在全球气候变化背景下对冰川融水的影响,还需要进行更多的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A preliminary investigation of microbial communities on the Athabasca Glacier within deposited organic matter†

A preliminary investigation of microbial communities on the Athabasca Glacier within deposited organic matter†

Glacier ecosystems are shrinking at an accelerating rate due to changes in climate and also increased darkening from allochthonous and autochthonous carbon leading to subsequent changes in the absorption of light, associated heat, and microbial communities. In this study, in combination with measurement of nutrients and polycyclic aromatic hydrocarbons (PAHs), compositions of microbial communities on surfaces of the Athabasca Glacier (Canadian Rockies, Alberta, Canada) were measured and characterized by use of metabarcoding and scanning electron microscopy. Three matrices, glacier ice, cryoconite hole, and supraglacial surface sediment, were analyzed to gain a first insight into microbial communities on the Athabasca Glacier. Both, eukaryotic and prokaryotic microbial biodiversity was positively correlated with PAH concentrations of Benzo[a]pyrene, Indeno[123-cd]pyrene, Chrysene, Benzo[ghi]perylene, and Dibenz[ah]anthracene. Furthermore, the combustion of petroleum was identified as a major source of PAHs found on the Athabasca Glacier. The high levels of deposition and nutrients observed in this study may lead to an increase in microbial activity and growth that could accelerate glacier melting by further reducing surface albedo. More research is needed to understand the impacts of microbial activity and biodiversity on surface albedo and its effects on glacier meltwater, in the context of global climate change.

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