生态化学计量学、生物地球化学循环、入侵物种和水生食物网:旧金山河口和比较系统

P. Glibert, D. Fullerton, J. Burkholder, J. Cornwell, T. Kana
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引用次数: 156

摘要

富营养化已经改变了整个水生系统的食物网,但营养化学计量(不同的营养比例)对生态系统结构和功能的影响却很少受到关注。一个普遍的假设是,除非营养物的浓度仅限于浮游植物,否则营养物与生态无关。然而,营养化学计量的变化从根本上影响食物网各个层次的食物质量。本文研究了旧金山河口(海湾三角洲)30年的氮磷浓度和比值、浮游植物、浮游动物、大型无脊椎动物和鱼类的记录,在生态化学计量学的框架内共同解释了生态系统的变化。随着时间的推移,营养浓度和营养比例的变化从根本上影响生物地球化学营养动态,从而导致有利于生根大型植物和双壳类软体动物以及有害的蓝藻微囊藻入侵的条件。这里考虑的其他几个水生生态系统在食物网中也表现出与化学计量变化有关的类似变化。因此,营养化学计量学通过改变食物质量和生物地球化学动力学,被认为是海湾三角洲食物网的重要驱动力。由于氮磷比随着时间的推移而增加,总体而言,旧金山河口鱼类种群的修复将需要大量减少氮,以恢复历史上的生态化学计量平衡和食物网。
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Ecological Stoichiometry, Biogeochemical Cycling, Invasive Species, and Aquatic Food Webs: San Francisco Estuary and Comparative Systems
Eutrophication has altered food webs across aquatic systems, but effects of nutrient stoichiometry (varying nutrient ratios) on ecosystem structure and function have received less attention. A prevailing assumption has been that nutrients are not ecologically relevant unless concentrations are limiting to phytoplankton. However, changes in nutrient stoichiometry fundamentally affect food quality at all levels of the food web. Here, 30-year records of nitrogen and phosphorus concentrations and ratios, phytoplankton, zooplankton, macroinvertebrates, and fish in the San Francisco Estuary (Bay Delta) were examined to collectively interpret ecosystem changes within the framework of ecological stoichiometry. Changes in nutrient concentrations and nutrient ratios over time fundamentally affect biogeochemical nutrient dynamics that can lead to conditions conducive to invasions of rooted macrophytes and bivalve molluscs, and the harmful cyanobacterium Microcystis. Several other aquatic ecosystems considered here have exhibited similar changes in food webs linked to stoichiometric changes. Nutrient stoichiometry is thus suggested to be a significant driver of food webs in the Bay Delta by altering food quality and biogeochemical dynamics. Since nitrogen-to-phosphorus ratios have increased over time, an overall implication is that remediation of fish populations in the San Francisco Estuary will require significant nitrogen reductions to restore the historic ecological stoichiometric balance and the food web.
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Reviews in Fisheries Science
Reviews in Fisheries Science 农林科学-渔业
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