Daphnia defense strategies in fishless lakes and ponds: one size does not fit all

doi:10.1093/plankt/fbi029

JPR Advance Access originally published online on May 20, 2005
Journal of Plankton Research 2005 27(6):531-544; doi:10.1093/plankt/fbi029

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Daphnia defense strategies in fishless lakes and ponds: one size does not fit all

Howard P. Riessen¹^,* and Joelle D. Young²

^¹ Department of Biology, Suny College at Buffalo, 1300 Elmwood Avenue, Buffalo, NY 14222, USA and ^² Department of Biology, York University, 4700 Keele Street, Toronto, Ontario, Canada M3J 1P3

^* Corresponding Author: riessehp{at}buffalostate.edu

Received January 18, 2005; accepted in principle March 24, 2005; accepted for publication May 11, 2005; published online May 20, 2005
Communicating editor: K.J. Flynn

Body size and neck spine development in Daphnia greatly influencethis animal’s vulnerability to predation by the size-selectiveinvertebrate planktivore Chaoborus. We develop a stage-classifiedmatrix population model for Daphnia that investigates the interactionand evolution of these two traits in situations (fishless lakesand ponds) where Chaoborus predation constitutes the major sourceof mortality. This model produces fitness landscapes for thesetraits in ten distinct Daphnia environments that are characterizedby Chaoborus size (medium-sized Chaoborus americanus or largeChaoborus trivittatus), Chaoborus density (0–1.0 L^–1)and food level (high or low). Larger Daphnia phenotypes arefavored in both high and low food environments that containC. americanus, and also in a high food situation with C. trivittatus.The environments with C. trivittatus and low food availability,however, select for very small, as well as very large, Daphniaphenotypes (small phenotypes are favored more at high Chaoborusdensities), but not those that are intermediate in size. Thedevelopment of neck spines is advantageous in all situationswith Chaoborus, but high food environments that contain C. americanusfavor their elimination following juvenile development, whilethe other model environments favor their retention (to variousdegrees) after maturity. These model predictions describe alternativeantipredator strategies, two of which correspond closely withphenotypic patterns exhibited by two species of Daphnia (Daphniapulex and Daphnia minnehaha) that commonly coexist with Chaoborusin fishless lakes and ponds.

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