Yan Miao-Miao, Chen Sheng-Nan, Huang Ting-Lin, Jia Jing-Yu, Liu Kai-Wen, Miao Yu-Tian, Zong Rong-Rong
Key Laboratory of Northwest Water Resource, Environment and Ecology, Ministry of Education, Shaanxi Key Laboratory of Environmental Engineering, School of Environmental and Municipal Engineering, Xi'an University of Architecture and Technology, Xi'an 710055, China.
Huan Jing Ke Xue. 2020 Jul 8;41(7):3285-3296. doi: 10.13227/j.hjkx.202001131.
Phytoplankton and bacteria are important components of the aquatic food web, and play a critical role in substance circulation and energy exchange in freshwater ecosystems. The succession of algae is closely related to the metabolism and structural succession of bacterial populations in the water column. Thus, in this study, the vertical succession characteristics of phytoplankton and bacteria community structure and their coupling with water quality were investigated during an algal bloom in the Lijiahe Reservoir using high-throughput DNA sequencing and Biolog technologies. The results showed that the Lijiahe Reservoir was in the thermal stratification stage in August, and the pH, dissolved oxygen, and NH-N of the water column gradually decreased with depth (<0.001). Algal cell concentration and chlorophyll exhibited a simultaneous trend (<0.001), and the maximum values in the surface layer were 3363.33×10 cells·L and 7.03 μg·L, respectively. The algal community structure was dominated by at water depths of 0 m and 3 m, and at 6 m water depth, replaced as the most dominant algae, with a relative abundance of 57.28%. Biolog analysis indicated that the outbreak of had a significant impact on bacterial metabolic activity and its relative abundance, but the diversity of bacterial population metabolic activity varied less. A total of 1420 operational taxonomic units were found by high-throughput sequencing, belonging to 10 bacterial phyla. Of these, Actinobacteria and Proteobacteria dominated in all water layers, and their relative abundances were more than 50%. The relative abundance of Chlorobi and Planctomycetes varied significantly with water depth, reaching their maxima at a depth of 6 m with values of 10.29% and 6.78%, respectively, which were both negatively correlated with algal density (<0.05). Firmicutes and Gemmatimonadetes were positively correlated with algal density (<0.05). A heat map fingerprint showed that the vertical distribution of the bacterial community structure of the Lijiahe Reservoir varied significantly, and with the increase in water depth, the bacterial community was more uniformly distributed and tended to diversify. Redundancy analysis (RDA) showed that the vertical distribution of the bacterial and algal community structure was regulated by different water qualities, and the difference was significant. This study investigated the coupling mechanism of algal and bacterial communities during the algal bloom in the Lijiahe Reservoir, and the results provided a scientific basis for the investigation of the molecular microecological driving mechanism of water-source algal blooms.
浮游植物和细菌是水生食物网的重要组成部分,在淡水生态系统的物质循环和能量交换中发挥着关键作用。藻类的演替与水柱中细菌种群的代谢和结构演替密切相关。因此,本研究利用高通量DNA测序和Biolog技术,对李家河水库藻类水华期间浮游植物和细菌群落结构的垂直演替特征及其与水质的耦合关系进行了研究。结果表明,李家河水库8月处于热分层阶段,水柱的pH值、溶解氧和NH-N随深度逐渐降低(<0.001)。藻类细胞浓度和叶绿素呈现同步变化趋势(<0.001),表层的最大值分别为3363.33×10个细胞·L和7.03μg·L。在水深0 m和3 m处,藻类群落结构以 为主,在水深6 m处, 取代 成为最优势藻类,相对丰度为57.28%。Biolog分析表明, 的爆发对细菌代谢活性及其相对丰度有显著影响,但细菌种群代谢活性的多样性变化较小。高通量测序共发现1420个可操作分类单元,隶属于10个细菌门。其中,放线菌门和变形菌门在所有水层中占主导地位,其相对丰度均超过50%。绿弯菌门和浮霉菌门的相对丰度随水深变化显著,在6 m深度处达到最大值,分别为10.29%和6.78%,均与藻类密度呈负相关(<0.05)。厚壁菌门和芽单胞菌门与藻类密度呈正相关(<0.05)。热图指纹显示,李家河水库细菌群落结构的垂直分布差异显著,随着水深增加,细菌群落分布更均匀且趋于多样化。冗余分析(RDA)表明,细菌和藻类群落结构的垂直分布受不同水质调控,差异显著。本研究探讨了李家河水库藻类水华期间藻类和细菌群落的耦合机制,研究结果为水源性藻类水华分子微生态驱动机制的研究提供了科学依据。
