Department of Life Science, Sangmyung University, Seoul, 03016, Republic of Korea.
J Microbiol. 2023 Jun;61(6):615-626. doi: 10.1007/s12275-023-00055-3. Epub 2023 May 25.
Ship biofouling is one of the main vectors for the introduction and global spread of non-indigenous organisms. Diatoms were the early colonizers of ship hulls; however, their community composition on ships is poorly understood. Herein, we investigated the diatom community on the hull samples collected from two Korean research vessels Isabu (IRV) and Onnuri (ORV) on September 2 and November 10, 2021, respectively. IRV showed low cell density (345 cells/cm) compared to ORV (778 cells/cm). We morphologically identified more than 15 species of diatoms from the two research vessels (RVs). The microalgae in both RVs were identified as Amphora, Cymbella, Caloneis, Halamphora, Navicula, Nitzschia, and Plagiogramma. Of them, the genus Halamphora was found to be predominant. However, both RVs had a varied dominant species with a significant difference in body size; Halamphora oceanica dominated at IRV, and Halamphora sp. at ORV, respectively. Molecular cloning showed similar results to morphological analysis, in which Halamphora species dominated in both RVs. The hull-attached species were distinct from species found in the water column. These results revealed diatoms communities that are associated with ship hull-fouling at an early stage of biofilm formation. Moreover, ships arriving from different regions could show some variation in species composition on their hull surfaces, with the potential for non-indigenous species introduction.
船舶生物污损是外来生物引入和全球扩散的主要载体之一。硅藻是船体的早期殖民者;然而,它们在船舶上的群落组成却知之甚少。在此,我们调查了 2021 年 9 月 2 日和 11 月 10 日分别从两艘韩国研究船 Isabu(IRV)和 Onnuri(ORV)采集的船体样本上的硅藻群落。IRV 的细胞密度(345 个细胞/cm)低于 ORV(778 个细胞/cm)。我们从这两艘研究船中鉴定出了超过 15 种硅藻。两艘 RV 中的微藻被鉴定为 Amphora、Cymbella、Caloneis、Halamphora、Navicula、Nitzschia 和 Plagiogramma。其中,Halamphora 属占优势。然而,两艘 RV 的优势种有明显差异,体型大小也有显著差异;Halamphora oceanica 在 IRV 中占优势,而 Halamphora sp.在 ORV 中占优势。分子克隆与形态分析结果相似,在这两个 RV 中均以 Halamphora 种为主。附着在船体上的物种与水柱中发现的物种不同。这些结果揭示了与生物膜形成早期船舶污损相关的硅藻群落。此外,来自不同地区的船舶在其船体表面的物种组成上可能会有所不同,这可能会导致外来物种的引入。
