Hatam Ido, Charchuk Rhianna, Lange Benjamin, Beckers Justin, Haas Christian, Lanoil Brian
Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada.
FEMS Microbiol Ecol. 2014 Oct;90(1):115-25. doi: 10.1111/1574-6941.12377. Epub 2014 Jul 29.
Bacterial communities in Arctic sea ice play an important role in the regulation of nutrient and energy dynamics in the Arctic Ocean. Sea ice has vertical gradients in temperature, brine salinity and volume, and light and UV levels. Multiyear ice (MYI) has at least two distinct ice layers: old fresh ice with limited permeability, and new saline ice, and may also include a surface melt pond layer. Here, we determine whether bacterial communities (1) differ with ice depth due to strong physical and chemical gradients, (2) are relatively homogenous within a layer, but differ between layers, or (3) do not vary with ice depth. Cores of MYI off northern Ellesmere Island, NU, Canada, were subsectioned in 30-cm intervals, and the bacterial assemblage structure was characterized using 16S rRNA gene pyrotag sequencing. Assemblages clustered into three distinct groups: top (0-30 cm); middle (30-150 cm); and bottom (150-236 cm). These layers correspond to the occurrence of refrozen melt pond ice, at least 2-year-old ice, and newly grown first-year ice at the bottom of the ice sheet, respectively. Thus, MYI houses multiple distinct bacterial assemblages, and in situ conditions appear to play a less important role in structuring microbial assemblages than the age or conditions of the ice at the time of formation.
北极海冰中的细菌群落对北冰洋营养物质和能量动态的调节起着重要作用。海冰在温度、盐水盐度和体积以及光照和紫外线水平上存在垂直梯度。多年冰(MYI)至少有两个不同的冰层:渗透率有限的陈旧淡水冰和新的咸冰,还可能包括一个表面融池塘层。在此,我们确定细菌群落是否(1)由于强烈的物理和化学梯度而随冰深度不同,(2)在一层内相对均匀,但在不同层之间存在差异,或者(3)不随冰深度变化。在加拿大努纳武特地区埃尔斯米尔岛北部采集的多年冰岩芯以30厘米的间隔进行分段,并使用16S rRNA基因焦磷酸测序对细菌组合结构进行表征。组合聚类为三个不同的组:顶部(0 - 30厘米);中部(30 - 150厘米);和底部(150 - 236厘米)。这些层分别对应于重新冻结的融池塘冰、至少有两年历史的冰以及冰盖底部新生长的一年生冰的出现。因此,多年冰包含多个不同的细菌组合,并且与形成时冰的年龄或条件相比,原位条件在构建微生物组合中似乎发挥的作用较小。
