Response of Daphnia to substances released from crowded congeners and conspecifics

doi:10.1093/plankt/25.8.967

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Journal of Plankton Research Vol.25 no.8 pp.967-978, 2003
© Oxford University Press 2003

Response of Daphnia to substances released from crowded congeners and conspecifics

Miquel Lürling^*, Frank Roozen, Ellen Van Donk¹ and Brigitte Goser¹

Department of Environmental Sciences, Aquatic Ecology and Water Quality Management Group, Wageningen University, PO Box 8080, 6700 DD Wageningen and ¹ Netherlands Institute for Ecology, Center for Limnology, Rijksstraatweg 6, 3631 AC Nieuwersluis, The Netherlands

^* Corresponding Author: miquel.lurling{at}wur.nl

Publication 3189 Nioo-Knaw Netherlands Institute of Ecology

The effects of chemicals released from crowded congeners andconspecifics on life history parameters of the freshwater zooplanktersDaphnia cucullata and Daphnia pulex were examined. Length andage at maturity of D. pulex were affected by crowding chemicals.Reproduction was lower in crowded medium, and ephippia wereproduced. Newborn D. pulex in crowded medium were significantlylonger than the controls. The intrinsic rate of population increaseof D. pulex was 14 and 25% lower than the control when exposedto crowded medium from D. cucullata and D. pulex, respectively.Neither urea nor ammonia (at 1 mg l^-1) seemed to be responsiblefor these effects in D. pulex. In D. cucullata, no significanteffect of crowding infochemicals on length and age at maturitywas found. However, crowding chemicals reduced reproduction.No ephippia were produced in crowded medium, but up to 83% non-developingeggs were observed in D. cucullata. Newborns were similarlysized in crowded and standard medium. The intrinsic rate ofpopulation increase of D. cucullata was 44 and 96% lower thanthe control when exposed to crowded medium from D. cucullataand D. pulex, respectively. Clearance rates of D. pulex weresignificantly reduced in crowded media compared with standardmedium, which could partly explain why the animals exposed tocrowding chemicals reacted as if they were food limited.

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