Effects of UV radiation on photosynthesis of Sargassum muticum

IF 1.8 3区生物学 Q3 ECOLOGY

Journal of Experimental Marine Biology and Ecology Pub Date : 2023-10-26 DOI:10.1016/j.jembe.2023.151961

Zhiguang Xu , Baoqi Li , Lingxue Li , Ning Wang , Yu Wang , Hui Wang , Fang Yan , Menglin Bao , Shasha Zang , Hongyan Wu , Shan Sun

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引用次数: 0

Abstract

As an invasive species of macroalgae, Sargassum muticum (Yendo) Fensholt has invaded European shores and the Mediterranean, and even drifting individuals have been observed in sea area near the Canary Islands, becoming a potential species responsible for the “Sargassum golden tide”. When drifting on the sea surface, algae receive more ultraviolet radiation (UVR). However, photosynthetic responses and adaptation mechanism of S. muticum to UVR remain unclear. In this study, thalli of S. muticum were respectively exposed under two radiation treatments of 200 W m⁻² PAR (photosynthetically active radiation, 400–700 nm), and 200 W m⁻² PAR + 38 W m⁻² UVR (280–700 nm) for 120 mins, and then recovered at a low light (PAR) of 10 μmol photons m⁻² s⁻¹ for 240 mins. During this treatment, the photosynthetic properties of algae were measured, to investigate the responses and protection mechanism of S. muticum to UVR. The results showed that photosynthesis of thalli was significantly inhibited by UVR, reflected by decreased maximum photochemical quantum yield (F_v/F_m) and chlorophyll content, and changes of parameters of rapid light response curve and chlorophyll fluorescence induction curve in PAR and PAR + UVR treatments. Meanwhile, algae actively adopted several strategies to alleviate the inhibition caused by UVR, including photoprotection characterized by increased contents of UV-absorbing compounds (UVACs) and carotenoids (Car), excess light energy dissipation by elevated non-photochemical quenching (NPQ) coupled to the xanthophyll cycle, and photorepair manifested as an accelerated synthesis of D1 protein and enhanced antioxidant for scavenging ROS. Benefiting from the effects of the above several pathways, after 240 mins of low light recovery, photosynthesis was greatly restored in these two radiation treatments, with the restoration of F_v/F_m and parameters of rapid light response curve and chlorophyll fluorescence induction curve. Based on these results, we conservatively speculate that the photosynthesis of drifting S. muticum individuals may be restored in the evening with low light levels after being damaged by UVR on the surface of sea at midday, resulting in maintaining rapid growth and forming a golden tide.

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紫外线辐射对马尾藻光合作用的影响

马尾藻(Sargassum muticum, Yendo) Fensholt是大型藻类的入侵物种，已入侵欧洲海岸和地中海，在加那利群岛附近海域甚至观察到漂流个体，成为造成“马尾藻金潮”的潜在物种。当藻类在海面上漂流时，会受到更多的紫外线辐射。然而，muticum对UVR的光合响应和适应机制尚不清楚。本研究采用200 W m−2 PAR(光合有效辐射，400-700 nm)和200 W m−2 PAR + 38 W m−2 UVR (280-700 nm)两种辐射处理，分别对白葡萄的菌体进行120 min的照射，然后在10 μmol光子m−2 s−1的弱光(PAR)下恢复240 min。在此处理过程中，测定了藻类的光合特性，探讨了muticum对UVR的响应及其保护机制。结果表明，UVR显著抑制了菌体的光合作用，表现为PAR和PAR + UVR处理下最大光化学量子产率(Fv/Fm)和叶绿素含量的降低，以及快速光响应曲线和叶绿素荧光诱导曲线参数的变化。同时，藻类积极采取多种策略来缓解UVR的抑制作用，包括光保护，其特征是增加吸收紫外线的化合物(UVACs)和类胡萝卜素(Car)的含量，通过提高非光化学猝灭(NPQ)和叶黄素循环来过量耗散光能，以及光修复，其表现为加速D1蛋白的合成和增强清除ROS的抗氧化能力。得益于以上几种途径的作用，在240min的弱光恢复后，这两种辐射处理的光合作用都得到了很大的恢复，Fv/Fm得到了恢复，快速光响应曲线和叶绿素荧光诱导曲线参数得到了恢复。根据这些结果，我们保守地推测，在正午海面上受到紫外线辐射的破坏后，漂流的muticum个体的光合作用可能会在光照较弱的晚上恢复，从而保持快速生长并形成金潮。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Experimental Marine Biology and Ecology 生物-海洋与淡水生物学

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： The Journal of Experimental Marine Biology and Ecology provides a forum for experimental ecological research on marine organisms in relation to their environment. Topic areas include studies that focus on biochemistry, physiology, behavior, genetics, and ecological theory. The main emphasis of the Journal lies in hypothesis driven experimental work, both from the laboratory and the field. Natural experiments or descriptive studies that elucidate fundamental ecological processes are welcome. Submissions should have a broad ecological framework beyond the specific study organism or geographic region. Short communications that highlight emerging issues and exciting discoveries within five printed pages will receive a rapid turnaround. Papers describing important new analytical, computational, experimental and theoretical techniques and methods are encouraged and will be highlighted as Methodological Advances. We welcome proposals for Review Papers synthesizing a specific field within marine ecology. Finally, the journal aims to publish Special Issues at regular intervals synthesizing a particular field of marine science. All printed papers undergo a peer review process before being accepted and will receive a first decision within three months.