红树林
甲藻
浮游植物
生物
营养物
有机质
优势(遗传学)
生态学
根瘤科
生态系统
植物
浮游生物
环境化学
生物量(生态学)
叶绿素a
营养循环
藻类
海洋学
微生物种群生物学
初级生产者
红树属
丰度(生态学)
叶绿素
作者
James L. Pinckney,Michelle Zimberlin,Dianne I. Greenfield
摘要
Bioluminescent bays (biobays) are uncommon coastal ecosystems featuring dense populations of dinoflagellates, often found in mangrove-ringed lagoons with long water retention times and high organic matter (OM) levels. Although mangroves are associated with high dinoflagellate abundance, it remains uncertain how inorganic nutrients compare with mangrove-derived organic matter in shaping phytoplankton communities. We performed short-term in situ bioassays in Mangrove Lagoon, St. Croix, U.S. Virgin Islands, to compare phytoplankton community responses to additions of inorganic nutrients (N and P) and senescent mangrove leaf additions. Phytoplankton composition was assessed using high-performance liquid chromatography (HPLC) pigment analysis combined with CHEMTAX, and data were analyzed with compositional and centered log-ratio principal component analyses (CLR-PCAs). Nutrient additions primarily increased total phytoplankton biomass and favored diatom-dominated communities, consistent with N limitation, but did not significantly alter community composition. Conversely, adding senescent mangrove leaves consistently shifted the community toward higher abundances of peridinin-containing dinoflagellates, without significantly increasing the abundance of other phytoplankton groups. Multivariate analysis showed that leaf additions shifted the community along a continuous compositional spectrum rather than creating distinct assemblages. These findings suggest that OM (leachate) from senescent mangrove leaves, rather than inorganic N and P enrichment alone, is a plausible mechanism for promoting dinoflagellate dominance in Mangrove Lagoon. Our results underscore the potential role of mangrove OM input in sustaining dinoflagellate-dominated environments in some tropical lagoons, demonstrating a mechanism by which mangroves may regulate phytoplankton community composition in adjacent waters.
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