Function of maxillipeds and first oostegites in bopyrid isopods inferred from behavioural observations of Bopyrus crangorum infesting Palaemon serrifer

IF 1.1 4区 生物学 Q3 MARINE & FRESHWATER BIOLOGY Journal of the Marine Biological Association of the United Kingdom Pub Date : 2024-08-01 DOI:10.1017/s0025315424000596
Lorelie A. Burgos, Gyo Itani
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Abstract

The morphology of female bopyrids is adapted to parasitism, but understanding the function of their thoracic and mouth appendages is hindered by their small size and cryptic lifestyle, limiting detailed examination. This study aimed to clarify the function of the first oostegites and maxillipeds in bopyrid isopods infesting the branchial chamber of caridean shrimp through behavioural observations and morphological examination. We tested whether the movement of these structures was exclusive to ovigerous female parasites during brood ventilation. The results revealed that the beating of the maxillipeds and flapping of the first oostegites were not restricted to ovigerous females. However, the frequency of these movements was significantly higher in ovigerous females than in non-ovigerous females. The frequency of maxilliped beating increased with embryonic development, whereas that of flapping the first oostegites exhibited the opposite trend. Microscopic observation using dye showed that the movements of the maxillipeds and the first oostegites expelled residual dye from the female brood chamber through the dorsal surface or beneath the first oostegites. The dye was then transported by the water current generated by the scaphognathite of the host shrimp. These findings suggest that these structures not only facilitate ventilation but also serve as a grooming mechanism for female parasites, which is critical for embryonic survival. The results of the present study represent the first observation of embryo grooming in bopyrid isopods. This study also provides new information on the functional morphology of bopyrid isopods, which is important for understanding their ecological dynamics and adaptation to parasitism.

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通过观察蟋蟀等脚类动物侵扰蚕蛹的行为,推断栉水母等脚类动物的上鳃和第一鳃的功能
雌性栉水母的形态适应寄生,但由于其体型较小,生活方式隐蔽,限制了对其胸部和口部附肢功能的详细检查。本研究旨在通过行为观察和形态学检查,弄清寄生在卡氏对虾鳃腔内的栉水母等脚类动物的第一口附肢和上颚附肢的功能。我们测试了这些结构的运动是否为卵生雌性寄生虫在育雏通风期间所独有。结果发现,上颚的跳动和第一节口的拍打并不局限于卵生雌虫。然而,有卵雌虫的这些运动频率明显高于无卵雌虫。随着胚胎的发育,上唇跳动的频率增加,而拍打第一节口的频率则呈现出相反的趋势。利用染料进行的显微观察表明,上鳃和第一节口的运动会将残留染料从雌性育雏室的背面或第一节口下方排出。然后,染料被宿主虾的鳞栉产生的水流带走。这些研究结果表明,这些结构不仅有利于通风,还可作为雌性寄生虫的梳理机制,这对胚胎的存活至关重要。本研究结果是首次观察到栉水母等脚类动物的胚胎梳理机制。本研究还提供了有关栉水母等脚类动物功能形态的新信息,这对了解其生态动态和对寄生的适应性非常重要。
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来源期刊
CiteScore
2.30
自引率
8.30%
发文量
68
审稿时长
3-8 weeks
期刊介绍: JMBA is an international journal, publishing original research on all aspects of marine biology. It includes pioneering work taking place today on major issues concerning marine organisms and their environment. Subjects covered include: ecological surveys and population studies of marine communities; physiology and experimental biology; taxonomy, morphology and life history of marine animals and plants; and chemical and physical oceanographic work. Included with 2010 online subscriptions: Marine Biodiversity Records.
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