Application of stable isotopic analyses for fish host–parasite systems: an evaluation tool for parasite-mediated material flow in aquatic ecosystems

Parasites potentially have important roles in aquatic ecosystems, although relatively little is known about their contributions to the complexity of food web structure. In this study, stable carbon and nitrogen isotope analyses ( δ 13 C and δ 15 N) were applied for fish host–parasite systems in a sh...

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Bibliographic Details
Published in:Aquatic ecology 2019-06, Vol.53 (2), p.217-232
Main Authors: Kanaya, Gen, Solovyev, Mikhail M., Shikano, Shuichi, Okano, Jun-ichi, Ponomareva, Natalia M., Yurlova, Natalia I.
Format: Article
Language:English
Subjects:
Absorption
Amino acids
Ammonia
Aquatic crustaceans
Aquatic ecosystems
Aquatic plants
Biomedical and Life Sciences
Complexity
Crustaceans
Ecosystem assessment
Ecosystems
Evaluation
Fish
Fish parasites
Food
Food chains
Food webs
Foods
Fractionation
Freshwater & Marine Ecology
Isotope fractionation
Lakes
Life Sciences
Linkages
Macrophytes
Mineral nutrients
Niches
Nitrogen isotopes
Nutrients
Organic matter
Parasites
Shellfish
Stable isotopes
Swamps
Systems analysis
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Summary:Parasites potentially have important roles in aquatic ecosystems, although relatively little is known about their contributions to the complexity of food web structure. In this study, stable carbon and nitrogen isotope analyses ( δ 13 C and δ 15 N) were applied for fish host–parasite systems in a shallow swamp–lake ecosystem to assess the validity of stable isotope technics to reveal the parasite-mediated trophic linkages in the food web. Forty host–parasite pairs, including seven parasite taxa (cestodes, trematodes, crustaceans, and hirudinids), found on six host fish species (cyprinids and percids) were examined. The parasites showed unusual δ 15 N fractionation, with an overall average of − 1.9‰, suggesting the intake of 14 N-rich ammonia for amino acid synthesis and/or selective absorption of 15 N-depleted amino acids in the host fluid. The isotopic signatures of fish hosts and their parasites were positively correlated, suggesting the absorption and transfer of host-derived nutrients during infection. A δ 13 C-based isotope mixing model showed that each host fish species exhibited unique dependencies on POM, land-derived organic matter, and macrophytes, suggesting the host-specific trophic niche of the associated parasites in the lake–swamp food web. These emphasized that parasites are potential pathways of material and energy flows in aquatic ecosystems, contributing substantially to the food web complexity. Stable isotope analyses are the useful tools to elucidate the host–parasite trophic linkages, and case-specific isotopic fractionation factors are the mandatory information for a better understanding of the parasite-mediated material flow in ecosystems.
ISSN:1386-2588
1573-5125
DOI:10.1007/s10452-019-09684-6