Importance of consumptive and non-consumptive prey mortality in a coupled predator-prey system

Importance of consumptive and non-consumptive prey mortality in a coupled predator-prey system

1. Laboratory experiments were completed to identify the mechanisms by which the predatory flatworm, Dugesia tigrina, imposes mortality on its Aedes aegypti and Daphnia magna prey. Feeding trials were completed in glass microcosms which contained one of three – nine densities of small or large indiv...

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Bibliographic Details
Published in:Freshwater biology Vol. 38; no. 1; pp. 193 - 201
Main Authors: MCKEE, MALCOLM, WRONA, FREDERICK, SCRIMGEOUR, GARRY, CULP, JOSEPH
Format: Journal Article
Language:English
Published: Oxford, UK Blackwell Science Ltd 01-08-1997
Blackwell Science
Subjects:
Aedes aegypti
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Autoecology
Biological and medical sciences
Daphnia magna
Dugesia tigrina
Freshwater
Fundamental and applied biological sciences. Psychology
Protozoa. Invertebrata
Predator prey relation
Insecta
Mortality
Cladocera
Predatory behavior
Plathelmintha
Feeding
Crustacea
Prey
Trapping
Diet
Turbellaria
Food intake
Arthropoda
Culicidae
Helmintha
Aedes aegypti
Dugesia tigrina
Predator
Invertebrata
Branchiopoda
Diptera
Daphnia magna
Population density
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Summary:1. Laboratory experiments were completed to identify the mechanisms by which the predatory flatworm, Dugesia tigrina, imposes mortality on its Aedes aegypti and Daphnia magna prey. Feeding trials were completed in glass microcosms which contained one of three – nine densities of small or large individuals of each prey species. 2. Mortality by Dugesia on small and large Aedes followed a type II functional response, whereas the mortality of Daphnia resembled a type III functional response. Prey mortality imposed by Dugesia consisted of consumptive and non‐consumptive elements. Non‐consumptive mortality occurred when prey individuals trapped in mucus trails subsequently died but were not ingested. 3. Additional experiments were conducted to quantify consumptive (capture followed by ingestion) and non‐consumptive mortality (death not followed by ingestion). 4. Consumptive mortality followed a type II functional response for small and large individuals of both prey species, whereas non‐consumptive mortality increased with prey density, although the relationships differed with prey species and size. The non‐consumptive mortality of large Daphnia increased at an accelerating rate with prey density and exceeded consumptive mortality at intermediate prey abundances. In contrast, non‐consumptive mortality of small Aedes and small Daphnia was lower than consumptive mortality and either increased with prey density at a decelerating (small Aedes) or accelerating (small Daphnia) rate. 5. These results suggest that the importance of consumptive and non‐consumptive mortality to total prey mortality needs to be considered when modelling predator–prey dynamics.
Bibliography:istex:FB76733B95A842032474415E3E14D63B0CCC84EE
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ISSN:0046-5070
1365-2427
DOI:10.1046/j.1365-2427.1997.00205.x