School of Science, RMIT University, Melbourne, VIC, Australia.
Personalised Oncology Division, The Walter and Eliza Hall Institute of Medical Research, Parkville, VIC, Australia.
BMC Ecol Evol. 2021 Feb 15;21(1):27. doi: 10.1186/s12862-021-01745-5.
Dinoflagellates are a ubiquitous and ecologically important component of marine phytoplankton communities, with particularly notable species including those associated with harmful algal blooms (HABs) and those that bioluminesce. High-throughput sequencing offers a novel approach compared to traditional microscopy for determining species assemblages and distributions of dinoflagellates, which are poorly known especially in Australian waters.
We assessed the composition of dinoflagellate assemblages in two Australian locations: coastal temperate Port Phillip Bay and offshore tropical waters of Davies Reef (Great Barrier Reef). These locations differ in certain environmental parameters reflecting latitude as well as possible anthropogenic influences. Molecular taxonomic assessment revealed more species than traditional microscopy, and it showed statistically significant differences in dinoflagellate assemblages between locations. Bioluminescent species and known associates of HABs were present at both sites. Dinoflagellates in both areas were mainly represented by the order Gymnodiniales (66%-82% of total sequence reads). In the warm waters of Davies Reef, Gymnodiniales were equally represented by the two superclades, Gymnodiniales sensu stricto (33%) and Gyrodinium (34%). In contrast, in cooler waters of Port Phillip Bay, Gymnodiniales was mainly represented by Gyrodinium (82%). In both locations, bioluminescent dinoflagellates represented up to 0.24% of the total sequence reads, with Protoperidinium the most abundant genus. HAB-related species, mainly represented by Gyrodinium, were more abundant in Port Phillip Bay (up to 47%) than at Davies Reef (28%), potentially reflecting anthropogenic influence from highly populated and industrial areas surrounding the bay. The entire assemblage of dinoflagellates, as well as the subsets of HAB and bioluminescent species, were strongly correlated with water quality parameters (R = 0.56-0.92). Significant predictors differed between the subsets: HAB assemblages were explained by salinity, temperature, dissolved oxygen, and total dissolved solids; whereas, bioluminescent assemblages were explained only by salinity and dissolved oxygen, and had greater variability.
High-throughput sequencing and genotyping revealed greater diversity of dinoflagellate assemblages than previously known in both subtropical and temperate Australian waters. Significant correlations of assemblage structure with environmental variables suggest the potential for explaining the distribution and composition of both HAB species and bioluminescent species.
甲藻是海洋浮游植物群落中无处不在且具有重要生态意义的组成部分,特别是与有害藻华 (HAB) 和生物发光有关的物种。与传统显微镜相比,高通量测序为确定甲藻的物种组合和分布提供了一种新方法,而这在澳大利亚水域尤其知之甚少。
我们评估了两个澳大利亚地点的甲藻组合组成:沿海温带菲利普港和近海热带大堡礁的戴维斯礁。这些地点在反映纬度和可能的人为影响的某些环境参数上有所不同。分子分类学评估显示,与传统显微镜相比,物种更多,而且在地点之间的甲藻组合存在统计学上的显著差异。在这两个地点都存在生物发光物种和已知的 HAB 相关物种。两个地区的甲藻主要由旋沟藻目 (Gymnodiniales) 组成 (总序列读数的 66%-82%)。在温暖的戴维斯礁水域,旋沟藻目同样由两个超科代表,旋沟藻目 (Gymnodiniales) 狭义 (33%) 和 Gyrodinium (34%)。相比之下,在菲利普港湾较冷的水域,旋沟藻目主要由 Gyrodinium 组成 (82%)。在这两个地点,生物发光的甲藻占总序列读数的 0.24%,Protoperidinium 是最丰富的属。与 HAB 相关的物种主要由 Gyrodinium 组成,在菲利普港湾的丰度更高 (高达 47%),而在戴维斯礁的丰度更低 (28%),这可能反映了来自环绕该湾的人口众多和工业化地区的人为影响。整个甲藻组合以及 HAB 和生物发光物种的亚组与水质参数高度相关 (R=0.56-0.92)。不同的子集有不同的显著预测因子:HAB 组合由盐度、温度、溶解氧和总溶解固体解释;而生物发光组合仅由盐度和溶解氧解释,并且具有更大的可变性。
高通量测序和基因分型揭示了亚热带和温带澳大利亚水域中甲藻组合的多样性比以前已知的要高。组合结构与环境变量的显著相关性表明,有潜力解释 HAB 物种和生物发光物种的分布和组成。
