Groningen Institute for Evolutionary Life Sciences, University of Groningen, P.O. Box 11103, Groningen, 9700 CC, The Netherlands.
Faculty of Geosciences, Department of Earth Sciences, Utrecht University, Utrecht, 3508 TA, The Netherlands.
Ecology. 2017 Jun;98(6):1498-1512. doi: 10.1002/ecy.1837.
Coastal food webs can be supported by local benthic or pelagic primary producers and by the import of organic matter. Distinguishing between these energy sources is essential for our understanding of ecosystem functioning. However, the relative contribution of these components to the food web at the landscape scale is often unclear, as many studies lack good taxonomic and spatial resolution across large areas. Here, using stable carbon isotopes, we report on the primary carbon sources for consumers and their spatial variability across one of the world's largest intertidal ecosystems (Dutch Wadden Sea; 1460 km intertidal surface area), at an exceptionally high taxonomic (178 species) and spatial resolution (9,165 samples from 839 locations). The absence of overlap in δ C values between consumers and terrestrial organic matter suggests that benthic and pelagic producers dominate carbon input into this food web. In combination with the consistent enrichment of benthic primary producers (δ C -16.3‰) relative to pelagic primary producers (δ C -18.8) across the landscape, this allowed the use of a two-food-source isotope-mixing model. This spatially resolved modelling revealed that benthic primary producers (microphytobenthos) are the most important energy source for the majority of consumers at higher trophic levels (worms, molluscs, crustaceans, fish, and birds), and thus to the whole food web. In addition, we found large spatial heterogeneity in the δ C values of benthic primary producers (δ C -19.2 to -11.5‰) and primary consumers (δ C -25.5 to -9.9‰), emphasizing the need for spatially explicit sampling of benthic and pelagic primary producers in coastal ecosystems. Our findings have important implications for our understanding of the functioning of ecological networks and for the management of coastal ecosystems.
沿海食物网可以由当地的底栖或浮游初级生产者以及有机物的输入来支持。区分这些能源对于我们理解生态系统功能至关重要。然而,由于许多研究在大区域内缺乏良好的分类学和空间分辨率,因此这些成分对景观尺度上食物网的相对贡献往往不清楚。在这里,我们使用稳定的碳同位素,报告了消费者的主要碳源及其在世界上最大的潮间带生态系统之一(荷兰瓦登海;1460 公里潮间带表面积)中的空间变异性,具有极高的分类学分辨率(178 个物种)和空间分辨率(来自 839 个位置的 9165 个样本)。消费者和陆地有机物之间 δ C 值没有重叠表明,底栖和浮游生产者主导着这个食物网的碳输入。结合景观上底栖初级生产者(δ C-16.3‰)相对于浮游初级生产者(δ C-18.8)的持续富集,这允许使用两种食物源同位素混合模型。这种空间分辨率的建模表明,底栖初级生产者(微型底栖藻类)是大多数高营养级消费者(蠕虫、软体动物、甲壳类动物、鱼类和鸟类)的最重要能源,因此也是整个食物网的最重要能源。此外,我们发现底栖初级生产者(δ C-19.2 至-11.5‰)和初级消费者(δ C-25.5 至-9.9‰)的 δ C 值存在很大的空间异质性,这强调了在沿海生态系统中需要对底栖和浮游初级生产者进行空间明确的采样。我们的发现对我们理解生态网络的功能和管理沿海生态系统具有重要意义。
