南安达曼岛布莱尔港湾浮游植物生物量的粒度分布:空间变化与环境控制

Biraja Kumar Sahu, Prasun Goswami, Sanjiba Kumar Baliarsingh, Nambali Valsalan Vinithkumar, Gopal Dharani
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摘要

岛屿海湾由于与公海相连且汇水面积小,因此具有不同的物理化学特征,生物形态也是如此。浮游植物的大小结构对浮游食物网的功能有重大影响,并受环境营养浓度的控制。为了量化热带岛屿海湾中这两者之间的关系并了解其控制因素,我们分析了安达曼群岛两个季节观测到的叶绿素-a 浓度,并将其分为三个大小等级(0.2-2.0 微米、2.0-20.0 微米和 > 20.0 微米)。冬季以纳米浮游植物(2.0-20.0 微米)为主,而春季则以微型浮游植物(20.0 微米)为主。据观察,海湾冬季营养物质丰富,但叶绿素 a 浓度较低,而春季则相反。内海湾和外海湾的浮游植物群落表现出明显的季节性差异。内海湾冬季以纳米浮游植物为主,春季以微型浮游植物为主,而外海湾则以纳米浮游植物和微微浮游植物为主。微浮游植物有明显的季节性变化,而其他两个功能群则没有。在冬季,微浮游植物与营养物质硅酸有很好的相关性,而纳米浮游植物与亚硝酸盐、硝酸盐、硅酸盐和 TN(总氮)有相关性,这表明纳米浮游植物对包括有机营养物质在内的大多数营养物质都有依赖性。在春季,微浮游植物与营养物硝酸盐相关,而纳米浮游植物与有机营养物总氮(TN)相关,这意味着纳米浮游植物依赖有机营养物。
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Size-Fractionated Phytoplankton Biomass in Port Blair Bay, South Andaman Island: Spatial Variability and Environmental Control

Island bays show different physico-chemical characteristics due to their connection with open ocean water and small catchment area, and the same is expected with the biological forms. Phytoplankton size structure significantly influences the function of pelagic food webs and is controlled by the ambient nutrient concentrations. To quantify the relationship between these two in a tropical island bay and to understand the controlling factors, we analyzed the chlorophyll-a concentration by partitioning into three size classes (0.2—2.0 µm, 2.0—20.0 µm and > 20.0 µm) for two seasonal observations in the Andaman Islands. During winter, the nano-phytoplankton (2.0 – 20.0 µm) dominated, while in spring, micro-phytoplankton (> 20.0 µm) dominated. It was observed that the bay had abundant nutrients, but low chlorophyll a concentrations in winter, whereas the scenario reversed in spring. The phytoplankton community exhibited significant seasonal differences between the inner and outer bay areas. The inner bay was dominated by the nano-phytoplankton in winter and micro-phytoplankton in spring, while nano-phytoplankton and pico-phytoplankton dominated the outer bay. The micro-phytoplankton showed a significant seasonal variation, while the other two functional groups did not. During winter, the micro-phytoplankton showed a good correlation with the nutrient silicic acid, and the nanoplankton correlated with nitrite, nitrate, silicate and TN (Total Nitrogen) implying nano-phytoplankton’s reliance on most of the nutrients including organic nutrient. During spring, micro-phytoplankton correlated with the nutrient nitrate, and the nano-phytoplankton correlated with the organic nutrient total nitrogen (TN) implying its reliance on the organic nutrient.

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