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The influence of hypo‐osmotic stress on the regenerative capacity of the invasive polychaete Marenzelleria viridis from its native range 
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下载免费PDF全文 The euryhaline polychaete Marenzelleria viridis is a notorious invader of the Baltic region and while many studies have focused on the effects of osmotic stress on larval development of the species, few have assessed its effect on adult specimens. This study investigated the effects of low salinity on the physiology of M. viridis by using its regenerative capacity as a proxy for physiologic performance. Specimens were collected in spring 2015 on sandy flats in Hempstead Bay (Long Island, New York), a site that falls within its native range. Worms were ablated between the 14th and 20th chaetigers and cultured at five different salinity treatments (24psu, 15psu, 10psu, 5psu and 0psu) that reflected the broad salinity regimes of its distributional range. Data for anterior regeneration were analysed and presented. Morphogenesis during anterior regeneration was characterized by the formation of a blastema from which the major anatomic structures emerged. All specimens cultured at 5–24psu successfully completed regeneration whereas 75% of specimens cultured at 0psu died and the survivors were unable to proceed beyond the blastema stage. Salinity did not have an effect on regeneration time (14.5–15.1 days) but did have an effect on the percentage of chaetigers regenerated (lowest – 77% at 5psu, highest – 97.5% at 15‰). The post‐regeneration phase was characterized by variability in pigmentation patterns in the regenerated anterior structures, which appear to be independent of salinity treatments. In conclusion, adult M. viridis appears to exhibit high tolerance to low salinity environments, which may have been inherited from its larval stages. In addition, the different pigmentation patterns observed in regenerated structures may allude to the variability of this feature in spionids. 相似文献
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聚球藻是一类分布广泛、数量巨大的微微型浮游植物, 作为蓝藻的代表类群之一, 广泛分布于海洋以及河口区域, 并且具有丰富的色素多样性和遗传多样性。聚球藻根据盐度适应能力可划分为严格海洋型聚球藻和广盐型聚球藻。文章对分离自珠江口的聚球藻K1和南海寡营养海域的聚球藻YX02-1在不同盐度条件下的生长状况进行对比, 并根据ropC1标记基因分析K1和YX02-1的分类地位, 发现K1为广盐型聚球藻, 其在不同盐度下(10‰、13‰、18‰、25‰、33‰)均能生长; 而YX02-1为严格海洋型聚球藻, 在低于13‰的盐度下无法存活, 与其在河口的分布特征相一致。转录组分析显示, 低盐条件下广盐型聚球藻中合成渗透压调节分子的基因(ggpS、SPS、stpA)表达量明显下调, 而膜通道蛋白glzT基因的表达显著上调, 说明广盐型聚球藻耐低盐机制主要是通过减少细胞内渗透压相关小分子合成和增加膜通道蛋白, 提高小分子物质外排来达到细胞内外渗透压平衡。此外, 盐度也会影响广盐型聚球藻的光合作用和代谢水平, 其中参与光合作用的产能基因(ATPF0B、ATPF0A、ATPF1D、ATPF1A)和色素蛋白基因(cpcA、cpcB)表达量在低盐条件下均显著下降, 同时无机氮利用相关基因表达上调。低盐条件下, 渗透压相关小分子的需求减少, 可以使更多的碳源用于支持生长, 同时无机氮的吸收增强, 这两者可能是低盐条件下广盐型聚球藻具有较高生长的原因。 相似文献
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