Papadopoulou Sofia, Linkhorst Annika, Balmonte John Paul, Csitári Bianka, Felföldi Tamás, Márton Zsuzsanna, Mershad Maliheh, Szabó Attila, Torstensson Anders, Bertilsson Stefan, Székely Anna J
Department of Ecology and Genetics/Limnology, Uppsala University, Uppsala, Sweden.
Department of Environmental Radioactivity and Monitoring, Federal Institute of Hydrology (BfG), Koblenz, Germany.
Environ Microbiol Rep. 2025 Jun;17(3):e70099. doi: 10.1111/1758-2229.70099.
In the Boreal region, extreme seasonal variations in day-night length expose communities to dynamic light and temperature fluctuations. Freshwater bacterioplankton, representing key ecosystem components, faces climate-driven shifts; yet the fixed day-length patterns determined by latitude underscore the importance of studying light's role in predicting ecosystem responses. We investigated bacterial community composition in a brown peat bog and a clear oligotrophic lake across seasons with contrasting light regimes: the summer solstice (> 20 h of daylight) and the autumn equinox (equal day-night length). Using amplicon sequencing of 16S rRNA transcripts, alongside measurements of physicochemical parameters, organic matter characterisation and dissolved carbon dioxide and methane gas measurements, we found no diel cycling in the lake during either period or in the peat bog near the summer solstice. However, the structure of bacterial peat bog communities exhibited cyclic changes over diel cycles at the autumn equinox. Twelve amplicon sequence variants, including both phototrophic and heterotrophic taxa, increased in abundance at all measured morning sampling times. These findings provide valuable insights into the diel patterns of boreal lentic habitats and their bacterioplankton communities, highlighting the absence of diel fluctuations in some systems and seasons, while revealing cyclic dynamics in others, driven by conditionally rare taxa.
在北方地区,昼夜长度的极端季节性变化使群落暴露于动态的光照和温度波动之中。淡水浮游细菌作为关键的生态系统组成部分,面临着气候驱动的变化;然而,由纬度决定的固定日长模式凸显了研究光照在预测生态系统响应中作用的重要性。我们调查了一个棕色泥炭沼泽和一个清澈的贫营养湖泊中细菌群落组成随季节的变化情况,这两个地点的光照条件形成对比:夏至(日照时长超过20小时)和秋分(昼夜长度相等)。通过对16S rRNA转录本进行扩增子测序,并结合物理化学参数测量、有机质特征分析以及溶解二氧化碳和甲烷气体测量,我们发现,在这两个时期的湖泊中以及夏至附近的泥炭沼泽中均未出现昼夜循环。然而,在秋分时节,泥炭沼泽细菌群落的结构在昼夜周期中呈现出周期性变化。包括光合营养和异养类群在内的12个扩增子序列变体,在所有测量的早晨采样时间丰度均有所增加。这些发现为北方静水栖息地及其浮游细菌群落的昼夜模式提供了有价值的见解,突出了某些系统和季节中不存在昼夜波动的情况,同时揭示了其他系统中由条件性稀有类群驱动的循环动态。
