4.4 Article

Response of stream ecosystem structure to heavy metal pollution: context-dependency of top-down control by fish

Journal

AQUATIC SCIENCES
Volume 84, Issue 2, Pages -

Publisher

SPRINGER BASEL AG
DOI: 10.1007/s00027-022-00849-4

Keywords

Barbus meridionalis; Trophic cascades; Biotic interactions; Grazing pressure; Macroinvertebrates; Periphyton biomass

Funding

  1. Spanish Ministry of Science, Innovation and Universities (AEI/FEDER/EU) [CGL2013-43822-R, CGL2016-80820-R]
  2. Government of Catalonia [2017 SGR 548]
  3. CERCA Programme
  4. University of Girona [IFUdG2017]
  5. Agency for Management of University and Research Grants (AGAUR) of the Government of Catalonia [2016 FI-B 00284]
  6. CRUE-CSIC

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Heavy metal pollution can affect the impacts of predatory fish on ecosystem structure, but the extent of this influence depends on environmental stress and functional traits. Top predators exert strong top-down control on periphytic algae, mainly through their foraging behavior causing bioturbation. Heavy metal pollution can also alter grazer-periphyton interactions.
The stress-gradient hypothesis predicts that biotic interactions within food webs are context dependent, since environmental stressors can attenuate consumer-prey interactions. Yet, how heavy metal pollution influences the impacts of predatory fish on ecosystem structure is unknown. This study was conducted in the Osor stream (Spain), which features a metal (mainly Zn) pollution gradient. We aimed to determine how the responses of benthic communities to the presence and absence of predatory fish interact with environmental stress and to test whether the top-down control of top predators is context dependent. To address these questions, periphyton biomass and macroinvertebrate densities were determined throughout an exclosure/enclosure mesocosm experiment using the Mediterranean barbel (Barbus meridionalis) as a top predator. The monitoring study showed that metal accumulation in periphyton and macroinvertebrates reflected patterns observed in water. The mesocosm study showed that fish predation effects on larval chironomids were not context-dependent and that periphyton biomass was markedly lower in the presence of fish regardless of metal pollution levels. This strong top-down control on periphytic algae was attributed to the foraging behaviour of fish causing bioturbation. In contrast, the top predator removal revealed grazer-periphyton interactions, which were mediated by heavy metal pollution. That is, periphyton benefitted from a lower grazing pressure in the metal-polluted sites. Together, our results suggest that the top-down control by fishes depends more on functional traits (e.g. feeding behaviour) than on feeding guild, and demonstrate the capacity of top predators to modify anthropogenic stressor effects on stream food-web structure.

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