Linking Resource Quality and Biodiversity to Benthic Ecosystem Functions Across a Land-to-Sea Gradient

IF 3.4 2区 环境科学与生态学 Q2 ECOLOGY
Saara Mäkelin, Aleksandra M. Lewandowska, Iván F. Rodil, Agnes M. L. Karlson, Christoph Humborg, Anna Villnäs
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Abstract

Benthic macrofauna modifies carbon and nutrient retention and recycling processes in coastal habitats. However, the contribution of benthic consumers to carbon and nutrient storage and recycling shows variation over spatial scales, as the benthic community composition changes in response to differences in environmental conditions. By sampling both shallow sandy and deep muddy sediments across a land-to-sea gradient in the northern Baltic Sea, we explored if benthic community composition, stoichiometry and process rates change in response to alterations in environmental conditions and food sources. Our results show that benthic faunal biomass, C, N, and P stocks, respiration rate and secondary production increase across the land-to-sea gradient in response to higher resource quality towards the open sea. The seston δ13C indicated terrestrial runoff and δ15N sewage input at the innermost study sites, whereas more fresh marine organic matter towards the open sea boosted benthic faunal carbon storage, respiration rate, and secondary production, that is, the generation of consumer biomass, which are essential processes for carbon turnover in this coastal ecosystem. Also, biological factors such as increasing species richness and decreasing biomass dominance of the clam Macoma balthica were significant in predicting benthic faunal C, N, and P stocks and process rates, especially at sandy sites. Interestingly, despite the variation in food sources, the benthic faunal C:N:P ratios remained stable across the gradient. Our results prove that human activities in the coastal area can influence the important links between biodiversity, structure, and process rates of benthic communities by modifying the balance of available resources, therefore hampering the functioning of coastal ecosystems.

Abstract Image

将资源质量和生物多样性与跨越陆地到海洋梯度的底栖生态系统功能联系起来
底栖大型动物改变了沿岸生境中碳和营养盐的储存和循环过程。然而,随着环境条件的不同,底栖生物群落的组成也会发生变化,因此底栖生物对碳和营养物质的储存和循环所起的作用在空间尺度上也存在差异。通过对波罗的海北部从陆地到海洋梯度的浅层沙质和深层泥质沉积物进行取样,我们探讨了底栖生物群落组成、化学计量学和加工率是否会随着环境条件和食物来源的改变而发生变化。我们的研究结果表明,在从陆地到海洋的梯度上,底栖动物群落生物量、C、N、P 储量、呼吸速率和二次生产量都会随着向公海方向资源质量的提高而增加。最内侧研究地点的沉积物δ13C 表明有陆地径流和δ15N 的污水输入,而更多的新鲜海洋有机物向公海流动,促进了底栖动物的碳储存、呼吸速率和次级生产,即消费生物量的产生,这些是该沿岸生态系统碳周转的重要过程。此外,生物因素,如物种丰富度的增加和蛤蜊(Macoma balthica)生物量优势的减弱,对预测底栖动物碳、氮、磷储量和过程速率也有重要意义,特别是在沙地。有趣的是,尽管食物来源不同,底栖动物的 C:N:P 比率在整个梯度上保持稳定。我们的研究结果证明,人类在沿海地区的活动可以通过改变可用资源的平衡来影响底栖生物群落的生物多样性、结构和过程速率之间的重要联系,从而阻碍沿海生态系统功能的发挥。
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来源期刊
Ecosystems
Ecosystems 环境科学-生态学
CiteScore
8.20
自引率
2.70%
发文量
71
审稿时长
1.7 months
期刊介绍: The study and management of ecosystems represent the most dynamic field of contemporary ecology. Ecosystem research bridges fundamental ecology and environmental ecology and environmental problem-solving, and spans boundaries of scale, discipline and perspective. Ecosystems features a distinguished team of editors-in-chief and an outstanding international editorial board, and is seen worldwide as a vital home for publishing significant research as well as editorials, mini-reviews and special features.
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