Subtypes I and II of Ulva prolifera O.F. Müller: Dominant Green Tide Species in the Southern Yellow Sea and Their Responses to Natural Light and Temperature Conditions.

IF 3.6 3区生物学 Q1 BIOLOGY

Biology-Basel Pub Date : 2025-06-15 DOI:10.3390/biology14060702

Shuang Zhao, Jinlin Liu, Zhangyi Xia, Jingyi Sun, Jianheng Zhang, Peimin He

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Abstract

This study systematically investigated two ecotypes of Ulva prolifera, the dominant species responsible for green tides in the Yellow Sea, classified as Subtype I (strain I08-1) and Subtype II (strain QD-7). Both subtypes produce positively phototactic biflagellate gametes with oval/pear-shaped morphology but exhibit distinct cellular dimensions. Subtype I gametes demonstrated significantly larger cell sizes, with long and short axes measuring 6.55 μm and 4.62 μm, respectively, compared to Subtype II's dimensions of 6.46 μm (long axis) and 3.03 μm (short axis). Developmental analysis revealed striking morphological divergence at the 6-day germling stage: Subtype I attained an average length of 1301.14 μm, more than doubling Subtype II's 562.25 μm. Superior growth kinetics were observed in Subtype I, exhibiting enhanced specific growth rates (SGRs) across multiple parameters-main stem length (8.58% vs. 3.55%), primary branch elongation (19.17% vs. 12.59%), main stem width expansion (17.29% vs. 5.00%), and biomass accumulation (41.90% vs. 40.96% fresh weight). Chlorophyll quantification confirmed significantly higher pigment content in Subtype I. Pre-co-culture photosynthetic profiling demonstrated Subtype I's superior quantum efficiency (α = 0.077 vs. 0.045) with marked differences in regulated energy dissipation (YNPQ) and non-photochemical quenching (NPQ). Post-co-culture physiological adaptation was evident in Subtype II, showing significant elevation of non-regulated energy dissipation quantum yield (YNO) and eventual surpassing of maximum electron transport rate (ETRmax) compared to Subtype I. These findings establish that U. prolifera employs robust photoprotective and thermal adaptation strategies under natural photothermal conditions. Crucially, YNO-based analysis revealed Subtype II's enhanced high-light protection mechanisms and superior adaptability to intense irradiance environments. This research elucidates ecotype-specific environmental adaptation mechanisms in U. prolifera, providing critical insights for optimizing green tide mitigation strategies and advancing ecological understanding of algal bloom dynamics.

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南黄海绿潮优势种增殖Ulva prolifera O.F. m ller I和II亚型及其对自然光照和温度条件的响应

本研究系统调查了黄海绿潮的优势种增殖Ulva （Ulva prolifera）的2个生态型，将其分类为I亚型（菌株I08-1）和II亚型（菌株QD-7）。这两种亚型都产生正趋光双毛配子，卵形/梨形形态，但具有不同的细胞尺寸。子型配子的长轴和短轴尺寸分别为6.55 μm和4.62 μm，而子型配子的长轴和短轴尺寸分别为6.46 μm和3.03 μm。发育分析显示，在6天的胚期，形态差异显著：亚型I的平均长度为1301.14 μm，是亚型II的562.25 μm的两倍多。在I型中观察到优越的生长动力学，在多个参数上表现出更高的特定生长率（sgr），包括主茎长（8.58% vs. 3.55%）、一次枝伸长（19.17% vs. 12.59%）、主茎宽扩张（17.29% vs. 5.00%）和生物量积累（41.90% vs. 40.96%鲜重）。叶绿素定量分析证实，亚型I色素含量显著高于亚型I。共培养前的光合谱分析表明，亚型I具有更高的量子效率（α = 0.077 vs. 0.045），在调节能量耗散（YNPQ）和非光化学猝灭（NPQ）方面存在显著差异。与亚型i相比，亚型II共培养后的生理适应明显，表现出非调节能量耗散量子产率（YNO）的显著提高，并最终超过了最大电子传递速率（ETRmax）。这些研究结果表明，在自然光热条件下，增菌U. prolifera具有强大的光保护和热适应策略。关键是，基于yno的分析揭示了亚型II增强的强光保护机制和对强辐照环境的优越适应性。本研究阐明了藻华特定生态型的环境适应机制，为优化绿潮减缓策略和推进对藻华动态的生态学理解提供了重要见解。

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来源期刊

Biology-Basel Biological Science-Biological Science

CiteScore

5.70

自引率

4.80%

发文量

1618

审稿时长

11 weeks

期刊介绍： Biology (ISSN 2079-7737) is an international, peer-reviewed, quick-refereeing open access journal of Biological Science published by MDPI online. It publishes reviews, research papers and communications in all areas of biology and at the interface of related disciplines. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material.