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2019年4月在海南岛冯家湾潮间带的野外调查过程中采集到一种仙掌藻, 利用传统形态分类学与分子系统分类学结合的方法, 将该种鉴定为未氏仙掌藻Halimeda velasquezii W.R. Taylor。该种的形态特征为藻体呈绿色钙化, 直立生长, 固着器单一较小, 由横卵形或肾形节片连接形成, 节片表面观形态为近圆形, 内部为管状髓丝, 节点处髓丝多发生侧面成对融合, 皮层下髓丝末端无囊状膨大。1,5-二磷酸核酮羧化酶/氧化酶大亚基基因(ribulose-1,5-bisphosphate carboxylase/oxygenase large subunit, rbcL)的序列分析结果显示, 在系统发育树上, 本研究样本与印度洋-太平洋地区产的未氏仙掌藻处于同一分支, 且自展支持值为100, 碱基基因差异为9bp (0.69%)。该种在海南岛海域首次被发现, 为新记录种。本研究同时首次提取并分析了中国种群的rbcL基因序列, 丰富了该种的中国种群的生态学知识, 扩展了其地理分布范围, 对了解海南岛海域海藻资源的生物多样性及其分布特征具有重要意义。 相似文献
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为探讨海洋酸化和光照强度变化对海洋钙化生物的影响,本文选用广泛分布在热带珊瑚礁区的大型钙化海藻仙掌藻(Halimeda opuntia)为研究对象,在室内通过CO2加富(pH=7.50、7.80和8.10)和调控光照强度(30和180μmol photons m2·s-1)的方式,探究其生长、钙化作用和光合作用等生理特征对海洋酸化和光照强度变化的响应。结果表明:海水酸化可以显著抑制仙掌藻的生长率、钙化速率和光合效率,且随酸化程度的加深而加强。酸化条件下(p H 7.50~7.80),生长率、钙化速率和Fv/Fm分别下降了48.29%~58.80%、51.78%~62.29%和2.37%~13.79%;光照强度的增加可以缓解这一抑制作用,高光照下生长率、钙化速率和Fv/Fm分别升高了2.01%~44.55%、29.61%~40.68%和1.68%~6.92%。酸化处理和光照强度变化对色素含量、丙二醛(MDA)和脯氨酸含量影响显著(P 0.01);酸化处理组中的Chl-a含量下降了32.69%~43.44%;而实验第20-28天,低光条件下的类胡萝卜素含量比高光照组高出12.12%~57.45%;酸化胁迫下,MDA在组织中逐渐积累;同时脯氨酸明显升高,以增加藻体自身的抗逆性,缓解胁迫带来的损伤。此外,组织中总碳(TC)和总氮(TN)含量在酸化条件下显著增加(P 0.05),光照强度的增加也一定程度上有利于提高TC和TN含量。通过分析可知,海洋酸化对仙掌藻的威胁是多方面的,对其生长、钙化作用和光合作用等生理过程的抑制作用随着酸化程度的加深而增加,而光照强度的增加一定程度上可以缓解酸化带来的负面效应。这些结果可以为预测未来海洋酸化对钙质生物的影响和珊瑚礁生物的多样性保护提供理论参考。 相似文献
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PAUL S. KENCH 《Sedimentology》2012,59(3):830-842
The generation and composition of carbonate sediment within tropical carbonate settings is controlled by the skeletal production of CaCO3 in conjunction with physical, biological and chemical processes which act to break down and disperse skeletal remains. Using the results of detailed tumbling barrel experiments, this paper discusses the role the physical durability of common constituents of reef sediment plays in the composition of coral reef deposits. The durability of the skeletal remains of six reef sediment constituents was determined experimentally using tumbling barrels. Results indicate that constituent durability varies considerably amongst common reef sediment constituents. Calcareous algae Halimeda was the least durable constituent tested, followed by larger benthic foraminifera Baculogypsina sphaerulata and Marginopora vertebralis and the pelecypod Fragum fragum. Two species of branching coral (Acropora sarmentosa and Acropora nasuta) were found to be the most resistant to physical destruction. These findings provide increased power to interpret reef and island deposits and the potential role skeletal durability plays in the retention of constituent skeletons within coral reef associated sedimentary systems. 相似文献
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The benthic fauna on reefs around the Glorieuses Islands, a small and protected Indian Ocean archipelago northwest of Madagascar, was surveyed in November 2015, focusing particularly on the orders Alcyonacea (soft corals and gorgonians) and Scleractinia (stony corals). The species richness of both groups was rather low for a protected, relatively pristine environment in the region. Though certain soft ‘fugitive’ alcyonacean species were noticeably abundant, other soft corals were rare. Sediment-tolerant faviid corals were abundant among the scleractinians. The sediment around the reefs was fine-grained and white, and appeared to be derived from abundant green macroalgae Halimeda and coralline seaweeds. The abundance of these, in turn, might have been attributable to nutrient enrichment from guano deposited on one of the islands by migratory seabirds, causing the aforementioned anomalies in coral biodiversity and abundance. 相似文献
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