Mass Mortality of the Invasive Sea Urchin Diadema setosum in Türkiye, Eastern Mediterranean Possibly Reveals Vibrio Bacteria Infection

Marine Ecology Pub Date : 2024-09-09 DOI:10.1111/maec.12837
Ezgi Dinçtürk, Fikret Öndes, Vahit Alan, Emre Dön
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Abstract

The invasive Diadema setosum (Leske, 1778) long‐spined sea urchin has been in the Mediterranean Sea since 2006, and then, it has been known that its population density has reached high values on the southern Aegean coasts of Türkiye. This study aimed to report the mass mortality event of D. setosum with the determined agent on the Aegean coast of Türkiye. In addition, it was targeted to provide information on the current status of its density based on seasonal SCUBA diving observations for the period between January 2023 and November 2023. The results showed that the mass mortality of D. setosum was determined in Muğla, Aegean Sea, in August 2023. Spine loss, the mucoid layer at the bottom of the appendages, and the outer body surface were observed as the clinical symptoms of the diseased samples. Bacterial growth was detected on Vibrio‐selected TCBS agar plates, while no other parasitic agents were determined in the coelomic fluid of sea urchins. The results of the biochemical (API 20E) and molecular tests confirmed the isolated bacteria as Vibrio spp. The density of D. setosum showed statistically significant temporal changes, and the highest and lowest mean density values were recorded in autumn and spring, respectively. Environmental stressors, such as increasing sea temperature levels, affect the marine ecosystem and lead to opportunistic pathogens. Long‐term monitoring of disease outbreaks is necessary to understand the interactions between species and the ecosystem.
东地中海蒂尔基耶入侵海胆 Diadema setosum 的大量死亡可能揭示了弧菌感染问题
自 2006 年以来,外来入侵的 Diadema setosum(Leske,1778 年)长棘海胆一直出现在地中海,据了解,其在土耳其南部爱琴海沿岸的种群密度已达到很高的数值。本研究旨在报告 D. setosum 在土耳其爱琴海海岸的大规模死亡事件。此外,该研究还旨在根据 2023 年 1 月至 2023 年 11 月期间的季节性 SCUBA 潜水观察结果,提供有关其密度现状的信息。结果显示,2023 年 8 月,爱琴海穆格拉海域出现了 D. setosum 大量死亡的情况。病害样本的临床症状为脊柱脱落、附肢底部出现粘液层以及体表外侧出现粘液层。在 Vibrio-selected TCBS 琼脂平板上检测到细菌生长,而在海胆的肠液中未检测到其他寄生病原体。生化(API 20E)和分子检测结果证实分离出的细菌为弧菌属。 D. setosum 的密度在统计学上有显著的时间变化,最高和最低的平均密度值分别出现在秋季和春季。海温升高等环境压力会影响海洋生态系统,并导致机会性病原体的产生。有必要对疾病爆发进行长期监测,以了解物种与生态系统之间的相互作用。
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