气候变化领域集成服务门户(CCPortal): Linking terrestrial and benthic estuarine ecosystems: organic matter sources supporting the high secondary production of a non-indigenous bivalve

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DOI	10.1007/s10530-014-0655-8
	Linking terrestrial and benthic estuarine ecosystems: organic matter sources supporting the high secondary production of a non-indigenous bivalve
	Dias, Ester 1,2; Morais, Pedro 2,3; Antunes, Carlos 2,4,5; Hoffman, Joel C.6
发表日期	2014-10-01
ISSN	1387-3547
卷号	16 期号:10 页码:2163-2179
英文摘要	The Asian clam, Corbicula fluminea, is among the most pervasive invasive species in freshwater ecosystems worldwide. Our objective was to study C. fluminea's functional response in terms of feeding behavior and food selectivity, using the natural variation in organic matter (OM) sources that occur in estuarine environments. Using C and N stable isotopes, we identified and quantified the contribution of different OM sources supporting the production of C. fluminea along the salinity gradient occupied in the Minho River estuary (NW-Iberian Peninsula, Europe), where this species presently dominates the benthic macrofauna biomass. We observed a pronounced shift in the quality of OM available for C. fluminea along the estuarine mixing zone. Stable isotope analysis, POM C/N, and phytoplankton contribution estimates based on C:Chl a revealed that POM was largely comprised of terrestrial-derived OM in tidal freshwater stations (TFW) and was increasingly comprised of phytoplankton, a more palatable food source, towards the polyhaline estuary. A similar shift in the isotopic composition along the estuarine mixing zone was observed in C. fluminea, suggesting a shift in food resources. Accordingly, based on a Bayesian stable isotope mixing model, there was an upstream-downstream counter gradient in the contribution to C. fluminea biomass from terrestrial-derived OM (41-64 % in TFW) and phytoplankton (29-55 % in the brackish estuary). Although the majority of the food sources identified were filtered from the water column (70-80 %), reliance on sediment OM and microphytobenthos provided evidence for deposit feeding by C. fluminea. We conclude that C. fluminea has the ability to adapt to environments with low food quality because it can consume terrestrial-derived OM. This can be a competitive adaptation in systems with perennial low food quality such as the Minho River estuary. Moreover, its ability to couple benthic and pelagic environments and terrestrial ecosystems demonstrates a strong potential to alter food web flows in aquatic ecosystems.
英文关键词	Corbicula fluminea;Stable isotopes;Benthic food web;Minho estuary
语种	英语
WOS记录号	WOS:000341782600012
来源期刊	BIOLOGICAL INVASIONS
来源机构	美国环保署
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/60023
作者单位	1.Univ Porto, ICBAS, P-4050313 Oporto, Portugal; 2.Univ Porto, CIIMAR CIMAR, Ctr Interdisciplinar Invest Marinha & Ambiental, P-4050123 Oporto, Portugal; 3.Univ Algarve, CIMA, P-8005139 Faro, Portugal; 4.Aquamuseu Rio Minho, P-4920290 Vila Nova De Cerveira, Portugal; 5.ESG, P-4920 Vila Nova De Cerveira, Portugal; 6.US EPA, Natl Hlth & Environm Effects Res Lab, Mid Continent Ecol Div, Duluth, MN 55804 USA
推荐引用方式 GB/T 7714	Dias, Ester,Morais, Pedro,Antunes, Carlos,et al. Linking terrestrial and benthic estuarine ecosystems: organic matter sources supporting the high secondary production of a non-indigenous bivalve[J]. 美国环保署,2014,16(10):2163-2179.
APA	Dias, Ester,Morais, Pedro,Antunes, Carlos,&Hoffman, Joel C..(2014).Linking terrestrial and benthic estuarine ecosystems: organic matter sources supporting the high secondary production of a non-indigenous bivalve.BIOLOGICAL INVASIONS,16(10),2163-2179.
MLA	Dias, Ester,et al."Linking terrestrial and benthic estuarine ecosystems: organic matter sources supporting the high secondary production of a non-indigenous bivalve".BIOLOGICAL INVASIONS 16.10(2014):2163-2179.