Large-bodied Crustacea and rainbow smelt in Lake George, New York: trophic interactions and phytoplankton community composition

The phytoplankton community of south Lake George, New York,has recently undergone a dramatic shift in composition; froma community dominated by Chrysophytes, Cryptomonads, and Chlorophyta(1975–1976) to one currently dominated by blue-green algae,i.e.Anacystis incerta and Aphanothece nidulans. No increasesin nutrient concentrations or inputs have been documented beforeor during this period. This shift in dominance can be relatedto changes in higher trophic levels, i.e. grazers and planktivores.Standing crop and abundance of the small-bodied filter feeders,Bosmina longirostris, Daphnia galeata, D. dubia, Holopediumgibberum, Diaptomus minutus and D. sicilis are significantlygreater in the south basin. Standing crop and abundance of thelarge-bodied Crustacea, Daphnia pulicaria, Epishura lacustrisand Mysis relicta, are significantly greater in the north basin.The clutch sizes of all herbivorous species except D. minutuswere significantly greater in the south basin populations. Thesedifferences are consistent with greater productivity and sizeslective planktivory in the south basin. Stomach analysis ofthe recently introduced rainbow smelt, Osmerus mordax indicatesa marked selection for the large-bodied Crustacea. The establishmentof large populations of rainbow smelt in the south basin ofLake George is responsible for significant basin differencesin the abundance of large-bodied Crustacea and appears to havecontributed to the changes in phytoplankton community composition.The shift to small-bodied Crustacea in the south basin has resultedin significantly lower grazing rates but generally higher Prelease rates in the south basin. These factors contribute togreater springtime phytoplankton production and silica depletionin the south basin. Coccoid blue-green algae are able to dominatewaters with low phosphorus and silica concentrations, i.e. LakeGeorge. Thus, the establishment of rainbow smelt in Lake Georgecoincides with, and appears to be responsible for, changes inphytoplankton community composition.