1. This study uses descriptive data to examine the shift in dominance in the rotifer community in summer from Keratella cochlearis to Anuraeopsis fissa in a shallow eutrophic lake. Population density and egg ratio were estimated from May to September for these small loricate rotifers, as well as the soft-bodied Filinia longiseta and Polyarthra spp., to compare rates of population increase, birth and death. 2. Keratella cochlearis was succeeded by A. fissa in late May, perhaps as a result of the shorter egg development times of the latter at temperatures > 15 degrees C, and species-specific responses to food and predation. Population variables suggest that the decline of K. cochlearis was the result of a food shortage which caused a decrease in reproduction and increased mortality. 3. High population densities of A. fissa and Polyarthra spp. were associated with low egg ratios, birth rates and rates of increase within a species, suggesting intraspecific competition. The egg ratios of the two soft- bodied rotifers were strongly intercorrelated in the study period, although their diets supposedly differ. The egg ratios of A. fissa showed positively correlated fluctuations with the abundance of diatoms. 4. Short periods of higher rates of increase of A. fissa conferred advantage to this rotifer and manifested in its dominance. The mean birth rates of A. fissa and F. longiseta were twice as high as for K. cochlearis. Furthermore, death rates of loricate and soft-bodied rotifers were similar and high, which suggests that food shortage similarly increased death rates, or that predation may be sometimes substantial for soft-bodied and loricate species, or both. 5. Predation was probably not an important factor in steering the seasonal succession in the lake. A difference in abilities of the studied rotifers to exploit resources seems more important. Perhaps temperature is also a factor, but the specifics remain unclear and await more experimental work. [KEYWORDS: Anuraeopsis fissa; birth rate; egg ratio; Filinia longiseta; growth rate; Keratella cochlearis Keratella-cochlearis; seasonal succession; crustacean zooplankton; hypereutrophic tarn; natural-populations; cyclopoid copepods; culture; growth; temperature; asplanchna]
Original languageEnglish
JournalFreshwater Biology
Journal publication date1999

ID: 41200