Abstract
Abstract Omnivory is widespread in food webs, with an important stabilising effect. The strength of omnivorous trophic interactions may change considerably with changes in the local environment. Shallow temporary waters are often characterised by high levels of inorganic turbidity that may directly limit the food uptake of filter‐feeding organisms, but there is little evidence on how it might affect omnivorous species. Anostracans are key species of temporary waters and recent evidence suggests that these organisms are omnivorous consumers of both phyto‐ and zooplankton. Using Branchinecta orientalis as a model species, our aim was to test how turbidity affects the feeding of an omnivorous anostracan. To do this, we used short‐term feeding experiments and stable isotope analyses, with animals collected from soda pans in eastern Austria. In the feeding experiments, algae and zooplankton were offered as food either separately or in combination. The prey type treatments were crossed with turbidity levels in a factorial design. There was a pronounced decrease in the ingested algal biomass with increasing turbidity. Conversely, ingestion rates on zooplankton were less affected by turbidity. Stable isotope analyses from field material supported our experimental results by showing a positive relationship of the trophic position of anostracans and the trophic niche of the communities with turbidity. Our results show that turbidity modulates the intraguild trophic relationship between anostracans and their prey by shifting the diet of anostracans from more herbivorous in transparent to more carnivorous in turbid waters. Thus, inorganic turbidity might also have a community‐shaping role in plankton communities of temporary waters through altering trophic relationships.
Highlights
Omnivory, that is feeding on multiple trophic levels (Coll & Guershon, 2002; Pimm & Lawton, 1978), is a very frequent com‐ ponent of all food webs (Holt & Polis, 1997; Kratina, LeCraw, Ingram, & Anholt, 2012; Thompson, Hemberg, Starzomski, & Shurin, 2007)
Our results show that turbidity probably does not affect the predation efficiency of anostracans on the intraguild prey (IG prey) considerably, but it rather decreases competition for the shared resource
Our results show that inorganic turbidity can alter trophic relation‐ ships through the feeding of an IG predator
Summary
That is feeding on multiple trophic levels (Coll & Guershon, 2002; Pimm & Lawton, 1978), is a very frequent com‐ ponent of all food webs (Holt & Polis, 1997; Kratina, LeCraw, Ingram, & Anholt, 2012; Thompson, Hemberg, Starzomski, & Shurin, 2007). Compared to cladocerans and copepods, we know much less about the feeding mechanism of anostracans These flagship species of temporary waters play several key roles in their ecosystems, for example, it is suggested that they inter‐ act strongly with zooplankton with consequences for the trophic structure (Waterkeyn, Grillas, Anton‐Pardo, Vanschoenwinkel, & Brendonck, 2011), and are important as food source for waterbirds (Horváth, Vad, Vörös, & Boros, 2013b; Sánchez, Green, & Castellanos, 2006). Gradient of turbidity in nine soda pans based on carbon and nitro‐ gen stable isotope analysis
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