Abstract
AbstractLarge‐scale ecosystem disturbances can alter the flow of energy through food webs, but such processes are not well defined for Gulf of Mexico saltmarsh ecosystems vulnerable to multiple interacting stressors. The 2010 Deepwater Horizon (DWH) oil spill significantly affected the composition of terrestrial saltmarsh communities in Louisiana, and thus had the potential to alter energy pathways through terrestrial and aquatic food webs, with direct consequences for higher trophic‐level species restricted to these habitats. The Seaside Sparrow (Ammodramus maritimus) is endemic to saltmarshes and relies completely on the habitat and resources they provide; thus, the sparrows can serve as indicators of ecological change in response to disturbances. We analyzed food web pathways for birds residing in oiled and unoiled saltmarshes for the four years following the oil spill by quantifying the bulk carbon and nitrogen stable isotopes and fatty acid profiles of liver tissues, in addition to primary producers (e.g., marsh grasses) and invertebrate consumers representing the major energy resources in these systems. The stable isotope values of primary producers and most invertebrate consumers did not differ between oiled and unoiled sites, suggesting that the energy pathways within the food web were stable in spite of observed declines in these populations following the spill. The tracer profiles of the Seaside Sparrows confirmed that there was a nominal effect of oil on resource use or trophic position (TP). However, we detected significant inter‐annual variation in resource use by these birds; the sparrows occupied a lower TP and exhibited greater assimilation of resources derived from benthic–aquatic relative to terrestrial pathways in 2013 compared to other years. This distinction is likely attributable to the effects of Hurricane Isaac in 2012, whose significant storm surge extensively inundated the saltmarsh landscape. Despite widespread concern for the saltmarsh ecosystem after the DWH event, the significant effects noted at the population level translated into only subtle differences to the flow of energy through this food web. These results demonstrate varying responses to different degrees of landscape‐level disturbance, such as oil and hurricanes, and establish the need to better understand food web dynamics in these saltmarsh ecosystems.
Highlights
Modifications in community composition and species abundance can alter interaction patterns within food webs (Paine 1980, Polis and Strong 1996, Thebault and Loreau 2003, Petchey et al 2008)
We found that saltmarsh consumers, in general, obtained the majority of their energy from C4 plant-based pathways, rather than from either C3 plant or phytoplankton-based pathways, confirming that Spartina alterniflora is an important energetic source for the Gulf of Mexico (GOM) terrestrial saltmarsh food web
Our findings contribute to the maturing understanding of the energy pathways supporting food webs in the coastal saltmarsh landscape, and illustrate the inherent complexity of understanding the effects of potential stressors in these systems
Summary
Modifications in community composition and species abundance can alter interaction patterns within food webs (Paine 1980, Polis and Strong 1996, Thebault and Loreau 2003, Petchey et al 2008). Along the Pacific northwest coast of North America, for example, a shift in the foraging ecology of the Glaucous-winged Gull (Larus glaucescens) from a marine- to terrestrial-based diet was attributable to declining populations of its preferred fish prey resulting from harvesting activities (Blight et al 2015). These changes to gull diets were correlated with the declining egg volume and reproductive potential in their populations (Blight 2011)
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