Symbiodiniaceae-Derived Fatty Acids Are Stored Differentially Across Giant Clam Species and Organs

IF 1.5 4区生物学 Q3 MARINE & FRESHWATER BIOLOGY

Marine Ecology-An Evolutionary Perspective Pub Date : 2024-10-08 DOI:10.1111/maec.12845

Júlia R. Neves, Satie Taniguchi, Márcia C. Bícego, Paulo Y. G. Sumida, Miguel Mies

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引用次数: 0

Abstract

Giant clams are invertebrates that form mutualistic associations with Symbiodiniaceae dinoflagellates. Despite their ecological significance, gaps persist regarding our understanding of their trophic ecology. Specifically, it is unknown whether Symbiodiniaceae-derived photosynthates are metabolized differently according to species and organ. Therefore, we maintained Tridacna derasa and T. noae for 3 months in a well-lit recirculated system without food supply. Samples were taken from eight organs and underwent lipid extraction and fatty acid esterification before analysis of three symbiont-derived fatty acids (stearidonic acid, docosapentaenoic acid, and docosahexaenoic acid—SDA, DPA, and DHA, respectively) using gas chromatography. Results show considerable variation in fatty acids concentration among species and organs. SDA was found in higher concentrations in T. noae, especially in the adductor muscle. DPA was detected in low concentrations across T. noae organs and absent for T. derasa. DHA did not vary significantly among species and organs. Our findings indicate that Symbiodiniaceae supply clams with fatty acids, which are stored differentially according to species and organs. This demonstrates that these compounds are translocated to multiple organs throughout the complex giant clam anatomical system, in contrast to simpler hosts like corals. These results advance our understanding of the physiological dynamics of the mollusk-algae association.

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不同砗磲物种和器官储存的共生藻衍生脂肪酸各不相同

巨蛤是一种与共生藻科甲藻形成互生关系的无脊椎动物。尽管巨蛤具有重要的生态意义，但我们对其营养生态学的了解仍然存在差距。具体来说，我们还不知道不同物种和器官对从共生双鞭毛目甲藻中提取的光合产物的代谢是否有所不同。因此，我们在没有食物供应的情况下，在光照充足的循环系统中饲养了德氏砗磲和诺氏砗磲3个月。从八个器官取样，进行脂质提取和脂肪酸酯化，然后使用气相色谱法分析共生生物衍生的三种脂肪酸（分别为硬脂二十二酸、二十二碳五烯酸和二十二碳六烯酸-SDA、DPA 和 DHA）。结果显示，不同物种和器官的脂肪酸浓度差异很大。黑尾鲃体内的 SDA 含量较高，尤其是内收肌。在 T. noae 的各个器官中检测到的 DPA 浓度较低，而在 T. derasa 中则没有检测到。DHA 在物种和器官之间没有明显差异。我们的研究结果表明，共生藻科植物为蛤蜊提供了脂肪酸，这些脂肪酸在不同物种和器官中的储存量不同。这表明这些化合物在整个复杂的砗磲解剖系统中被转运到多个器官，这与珊瑚等较简单的寄主不同。这些结果加深了我们对软体动物与藻类结合的生理动态的理解。

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来源期刊

Marine Ecology-An Evolutionary Perspective 生物-海洋与淡水生物学

CiteScore

2.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Marine Ecology publishes original contributions on the structure and dynamics of marine benthic and pelagic ecosystems, communities and populations, and on the critical links between ecology and the evolution of marine organisms. The journal prioritizes contributions elucidating fundamental aspects of species interaction and adaptation to the environment through integration of information from various organizational levels (molecules to ecosystems) and different disciplines (molecular biology, genetics, biochemistry, physiology, marine biology, natural history, geography, oceanography, palaeontology and modelling) as viewed from an ecological perspective. The journal also focuses on population genetic processes, evolution of life histories, morphological traits and behaviour, historical ecology and biogeography, macro-ecology and seascape ecology, palaeo-ecological reconstruction, and ecological changes due to introduction of new biota, human pressure or environmental change. Most applied marine science, including fisheries biology, aquaculture, natural-products chemistry, toxicology, and local pollution studies lie outside the scope of the journal. Papers should address ecological questions that would be of interest to a worldwide readership of ecologists; papers of mostly local interest, including descriptions of flora and fauna, taxonomic descriptions, and range extensions will not be considered.