Transoceanic ships as a source of alien dinoflagellate invasions of inland freshwater ecosystems

IF 5.5 1区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Lixia Shang , Zhangxi Hu , Yunyan Deng , Jing Li , Yuyang Liu , Xiaoying Song , Xinyu Zhai , Zifeng Zhan , Wen Tian , Jinxiang Xu , Yangchun Han , Hao Shen , Hua Ding , Ying Zhong Tang
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Abstract

Ships' ballast water and sediments have long been linked to the global transport and expansion of invasive species and thus have become a hot research topic and administrative challenge in the past decades. The relevant concerns, however, have been mainly about the ocean-to-ocean invasion and sampling practices have been almost exclusively conducted onboard. We examined and compared the dinoflagellate cysts assemblages in 49 sediment samples collected from ballast tanks of international and domestic routes ships, washing basins associated with a ship-repair yard, Jiangyin Port (PS), and the nearby area of Yangtze River (YR) during 2017–2018. A total of 43 dinoflagellates were fully identified to species level by metabarcoding, single-cyst PCR-based sequencing, cyst germination and phylogenetic analyses, including 12 species never reported from waters of China, 14 HABs-causing, 9 toxic, and 10 not strictly marine species. Our metabarcoding and single-cyst sequencing also detected many OTUs and cysts of dinoflagellates that could not be fully identified, indicating ballast tank sediments being a risky repository of currently unrecognizable invasive species. Particularly important, 10 brackish and fresh water species of dinoflagellate cysts (such as Tyrannodinium edax) were detected from the transoceanic ships, indicating these species may function as alien species potentially invading the inland rivers and adjacent lakes if these ships conduct deballast and other practices in fresh waterbodies. Significantly higher numbers of reads and OTUs of dinoflagellates in the ballast tanks and washing basins than that in PS and YR indicate a risk of releasing cysts by ships and the associated ship-repair yards to the surrounding waters. Phylogenetic analyses revealed high intra-species genetic diversity for multiple cyst species from different ballast tanks. Our work provides novel insights into the risk of bio-invasion to fresh waters conveyed in ship's ballast tank sediments and washing basins of shipyards.

Abstract Image

跨洋船舶是外来甲藻入侵内陆淡水生态系统的来源之一
船舶压舱水和沉积物长期以来一直与入侵物种的全球迁移和扩展相关联,因此在过去几十年中已成为一个热门研究课题和管理挑战。然而,相关的关注点主要集中在从海洋到海洋的入侵上,而且采样工作几乎都是在船上进行的。我们研究并比较了2017-2018年期间从国际和国内航线船舶压载舱、修船厂相关洗舱池、江阴港(PS)以及长江(YR)附近区域采集的49份沉积物样品中甲藻胞囊的组合。通过代谢编码、基于单胞PCR的测序、孢囊萌发和系统进化分析,共对43种甲藻进行了完整的物种鉴定,其中包括12种从未在中国水域报道过的物种、14种导致HABs的物种、9种有毒物种和10种不严格意义上的海洋物种。我们的代谢编码和单胞测序还发现了许多无法完全鉴定的甲藻OTU和胞囊,这表明压载水舱沉积物是目前无法识别的入侵物种的风险库。尤为重要的是,从跨洋船舶中检测到了 10 种咸水和淡水甲藻胞囊(如 Tyrannodinium edax),这表明如果这些船舶在淡水水体中进行除碴和其他操作,这些物种可能会作为外来物种入侵内陆河流和邻近湖泊。压载舱和清洗池中甲藻的读数和 OTU 数量明显高于 PS 和 YR,这表明船舶和相关修船厂有向周围水域释放孢囊的风险。系统发育分析表明,来自不同压载舱的多个孢囊物种具有很高的种内遗传多样性。我们的工作为了解船舶压载舱沉积物和造船厂清洗池中的生物入侵淡水的风险提供了新的视角。
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来源期刊
Harmful Algae
Harmful Algae 生物-海洋与淡水生物学
CiteScore
12.50
自引率
15.20%
发文量
122
审稿时长
7.5 months
期刊介绍: This journal provides a forum to promote knowledge of harmful microalgae and macroalgae, including cyanobacteria, as well as monitoring, management and control of these organisms.
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