Lim Shen Jean, Rogers Alexandra, Rosario Karyna, Kerr Makenzie, Garrett Matt, Koester Julie, Hubbard Katherine, Breitbart Mya
College of Marine Science, University of South Florida, St. Petersburg, Florida, USA.
Florida Fish and Wildlife Conservation Commission-Fish and Wildlife Research Institute, St. Petersburg, Florida, USA.
mSphere. 2025 Apr 29;10(4):e0109024. doi: 10.1128/msphere.01090-24. Epub 2025 Mar 20.
Harmful algal blooms (HABs) caused by the dinoflagellate frequently occur in the eastern Gulf of Mexico, where they negatively impact the environment, human health, and economy. Very little is known about viruses associated with blooms, although viral infection of other HAB-forming phytoplankton species can play an important role in bloom dynamics. We used viral metagenomics to identify viruses in 11 pooled seawater samples collected from southwest Florida, USA, in 2021 during a severe, spatiotemporally dynamic bloom. Assembled viral genomes were similar to published genomes from the order , family , and genera , , and . Several of the cultured viruses from these groups infect bloom-forming diatoms ( sp. and ) and the raphidophyte . We also recovered unclassified genomes related to a positive-sense ssRNA virus sequenced from coral dinoflagellate symbionts. Reverse-transcriptase PCR assays were performed to monitor the occurrence of seven representative virus genomes in these samples from 2021 and 43 seawater samples collected during a subsequent, typical bloom between November 2022 and May 2023. Over half of the samples contained multiple viruses, and at least one viral genome was detected in 44 of the 54 samples collected across seasons and years, highlighting the ubiquity of these viruses in this region. Alpha diversity was highest in the summer months and positively correlated with cell counts. Multiple regression revealed month and the presence of unclassified sequences most similar to dinoflagellate viruses as significant predictors of cellular abundance.IMPORTANCEHarmful algal blooms caused by the dinoflagellate negatively impact the tourism, fisheries, and public health sectors. Anticipated impacts of climate change, nutrient pollution, and ocean acidification may sustain and/or exacerbate blooms in the future, underscoring the need for proactive monitoring, communication, and mitigation strategies. This study represents a pioneering effort in monitoring viruses associated with blooms. The findings lay the groundwork for studying the effects of environmental drivers on blooms and their associated viruses, as well as for exploring the roles of viruses in bloom dynamics and potential applications of viruses as biocontrol agents for blooms. Furthermore, the comparison of viral dynamics relative to local and regional bloom dynamics in this study helps inform future monitoring and modeling needs.
由该甲藻引起的有害藻华频繁发生在墨西哥湾东部,对环境、人类健康和经济产生负面影响。尽管其他形成有害藻华的浮游植物物种的病毒感染在藻华动态中可发挥重要作用,但对于与该藻华相关的病毒却知之甚少。我们利用病毒宏基因组学方法,对2021年在美国佛罗里达州西南部一次严重的、时空动态变化的藻华期间采集的11份海水混合样本中的病毒进行了鉴定。组装得到的病毒基因组与已发表的来自该目、该科以及多个属(包括某某属、某某属和某某属)的基因组相似。这些类群中一些经培养的病毒可感染形成藻华的硅藻(某某种和某某种)以及针胞藻。我们还获得了与从珊瑚甲藻共生体中测序得到的一种正义单链RNA病毒相关的未分类基因组。进行了逆转录PCR分析,以监测这些2021年样本以及在随后2022年11月至2023年5月期间一次典型藻华期间采集的43份海水样本中7种代表性病毒基因组的出现情况。超过一半的样本含有多种病毒,并且在跨季节和年份采集的54份样本中的44份中检测到至少一种病毒基因组,这突出表明这些病毒在该地区普遍存在。夏季的α多样性最高,且与该甲藻细胞计数呈正相关。多元回归分析表明月份以及与甲藻病毒最相似的未分类序列的存在是该甲藻细胞丰度的重要预测指标。
由该甲藻引起的有害藻华对旅游业、渔业和公共卫生部门产生负面影响。气候变化、营养物质污染和海洋酸化的预期影响可能会在未来维持和/或加剧该藻华,这凸显了积极监测、沟通和缓解策略的必要性。本研究是监测与该藻华相关病毒的开创性工作。这些发现为研究环境驱动因素对该藻华及其相关病毒的影响奠定了基础,也为探索病毒在藻华动态中的作用以及病毒作为该藻华生物防治剂的潜在应用奠定了基础。此外,本研究中病毒动态相对于局部和区域藻华动态的比较有助于为未来的监测和建模需求提供信息。
