地中海的热带异育单胞藻:当西大西洋在南爱琴海遇到印度洋-太平洋地区时

Akis Angelidis, George Polyzoulis, Chrysoula Gubili
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引用次数: 0

摘要

双壳类动物 Isognomon bicolor 和 Isognomon aff. legumen 在南爱琴海,特别是在 Chalki 岛和 Alimia 岛的引入和定居标志着一个重大的生态事件。这些物种原产于世界不同地区,现已通过 DNA 条形码和系统发育分析证实在地中海出现。这些方法对于准确鉴定 Isognomon 属中的物种至关重要,因为这些双壳类动物的贝壳形状多变且与栖息地有关,因此传统的形态鉴定具有挑战性。Isognomon bicolor 来自西大西洋,而 Isognomon aff. legumen 来自印度洋-太平洋地区。它们出现在地中海,特别是潮间带和浅潮下带,表明它们在新环境中找到了合适的栖息地。在为期四年的实地观察中,研究人员收集了宝贵的生态数据,注意到了该物种的栖息地偏好及其建立动态。2024 年 7 月,研究人员在乔其和阿利米亚的沿海岩石上观察到入侵的 I. bicolor 形成了新的、大范围的密集聚集,或称为海床。这些海床的形成清楚地表明了入侵的进展,对本地生态系统构成了严重威胁。I. bicolor 和 I. aff. legumen 的建立可能会破坏当地的生物多样性,取代本地物种,并改变这些地区的生态平衡。这种情况凸显了持续监测和使用 DNA 条形码等先进识别技术跟踪和管理入侵物种的重要性。这些努力对于减轻入侵影响和保护本地海洋生态系统至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tropical Isognomonids in the Mediterranean Sea: When the West Atlantic Met the Indo-Pacific Region in the South Aegean Sea

Tropical Isognomonids in the Mediterranean Sea: When the West Atlantic Met the Indo-Pacific Region in the South Aegean Sea

The introduction and establishment of the bivalves Isognomon bicolor and Isognomon aff. legumen in the South Aegean Sea, specifically on the islands of Chalki and Alimia, marks a significant ecological event. These species, native to different parts of the world, have now been confirmed in the Mediterranean through DNA barcoding and phylogenetic analyses. These methods are crucial for accurate identification within the genus Isognomon, as traditional morphological identification is challenging due to the variable and habitat-dependent shell shapes of these bivalves. Isognomon bicolor is originally from the West Atlantic, while Isognomon aff. legumen hails from the Indo-Pacific region. Their presence in the Mediterranean, specifically in the intertidal and shallow subtidal zones, indicates they have found suitable habitats in their new environment. Over a four-year period of field observations, researchers gathered valuable ecological data, noting the species’ habitat preferences and their establishment dynamics. In July 2024, researchers observed the formation of new, extensive dense aggregations, or beds, of the invasive I. bicolor on the coastal rocks of Chalki and Alimia. The formation of these beds is a clear indicator of a progressing invasion, which poses a significant threat to the native ecosystem. The establishment of I. bicolor and I. aff. legumen could disrupt local biodiversity, outcompete native species, and alter the ecological balance in these regions. This situation underscores the importance of continuous monitoring and the use of advanced identification techniques like DNA barcoding to track and manage invasive species. Such efforts are essential to mitigate the impacts of these invasions and protect native marine ecosystems.

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