横向和纵向海洋梯度上虹吸器的全球分布模式。

Open research Europe Pub Date : 2024-08-13 eCollection Date: 2024-01-01 DOI:10.12688/openreseurope.18226.1
Cristina Claver, Naiara Rodríguez-Ezpeleta, Xabier Irigoien, Oriol Canals
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引用次数: 0

摘要

背景:虹吸虫是种类繁多、分布全球的水螅类动物,在全球海洋营养网中发挥着核心作用。然而,它们仍然是开阔大洋胶状类群中研究不足的一部分,这主要是由于虹吸器取样和鉴定方面的挑战,导致对其多样性、分布和丰度的普遍认识不足。方法:在 MALASPINA-2010 环游考察期间,我们在大西洋、太平洋和印度洋沿岸四个不同深度范围(0-200 米、200-500 米、500-1000 米、1000-3000 米)采集了 77 个大体积中生浮游生物样本,利用这些样本的 DNA 代谢编码数据,对虹吸虫的大洋垂直分布进行了全球概述:我们共发现了 44 种虹吸器(约占已描述的虹吸器种类的四分之一),其中 26 种属于萼片虹吸器,14 种属于 Physonectae,2 种属于 Cystonectae。我们的研究结果表明,虹吸器物种的水平和垂直分布范围比以前描述的更广,包括某些物种在某些大洋盆地的新记录。此外,我们还对分布广泛的物种的种内变异提供了见解。最后,我们显示了虹吸器在水体中的垂直结构;鳞虹吸器(无气生虹吸器)在上深海层(从海面到 200 米深处)和中深海上层(从 200 米到 500 米深处)占主导地位,而 Physonectids(有气生虹吸器)的比例在 500 米以下显著增加,并在深海层(>1000 米深处)占主导地位:我们的研究结果表明,虹吸器群落的组成是垂直结构的。结论:我们的研究结果表明,虹吸藻群落的组成是垂直结构的。同时,我们还揭示了某些物种内部可能存在的遗传变异,这些物种在某些海盆或深度范围内占主导地位。据我们所知,这是首次利用 DNA 代谢编码数据来研究虹吸器的分布模式,这项研究证明了分子技术在研究在网状取样中经常被破坏的胶状生物分布方面的潜力。
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Global distribution patterns of siphonophores across horizontal and vertical oceanic gradients.

Background: Siphonophores are diverse, globally distributed hydrozoans that play a central role in marine trophic webs worldwide. However, they still constitute an understudied fraction of the open ocean gelatinous taxa, mainly due to challenges related to siphonophore sampling and identification, which have led to a general knowledge gap about their diversity, distribution and abundance.

Methods: Here, we provide a global overview of the oceanic vertical distribution of siphonophores using DNA metabarcoding data from 77 bulk mesozooplankton samples collected at four different depth ranges (0-200, 200-500, 500-1000, 1000-3000 m depth) along the Atlantic, Pacific, and Indian Oceans during the MALASPINA-2010 circumnavigation expedition.

Results: We detected a total of 44 siphonophore species (which represents about one quarter of the described siphonophore species) from which 26 corresponded to Calycophores, 14 to Physonectae and 2 to Cystonectae. Our results suggest wider horizontal and vertical distributions of siphonophore species than previously described, including novel records of some species in certain oceanic basins. Also, we provide insights into the intraspecific variation of widely distributed species. Finally, we show a vertical structuring of siphonophores along the water column; Calycophores (siphonophores without pneumatophores) dominated the epipelagic (from the surface to 200 m depth) and upper mesopelagic layers (from 200 to 500 m depth), while the proportion Physonectids (siphonophores with pneumatophore) notably increased below 500 meters and were dominant at bathypelagic depths (>1000 m depth).

Conclusions: Our results support that the siphonophore community composition is vertically structured. Also, we provide insights into the potential existence of genetic variations within certain species that dominate some ocean basins or depth ranges. To our knowledge, this is the first time that DNA metabarcoding data is retrieved to study siphonophore distribution patterns, and the study provides evidence of the potential of molecular techniques to study the distribution of gelatinous organisms often destroyed in net sampling.

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