A population of Theodoxus fluviatilis L in the littoral zone of Lake Esrom was investigated from November 1977 to February 1979. The population was sampled every month in the winter period and twice during the rest of the year. Biomass was estimated as ash-free dry weight (AFDW) of the organic matter both of the soft parts of the animal and the shell itself. The relation between AFDW (c) and shell length (l) was logc=2.9509×log (l)−1.7120. The population comprised more than 1 year-class, which could be separated by shell length, by a narrow band on the shells and the growth of algae on the shell. The life cycle lasted 212-3 years. The oldest animals had a shell length of 7.0–7.5mm. A few individuals who were estimated to be 312 years had a shell length up to 8.6mm. Population density varied between 575 and 2115individualsm −2 on the stony substratum. The average was 1160individualsm −2 . Mortality was low during the summer period. In winter many animals died due to the effect of ice and stormy weather on the stony substratum. Growth of the animals was estimated from the shell length. Maximum growth was observed from May to August with no growth during the winter. Egg capsules were found on the stones all year round. New capsules were found from late May to the middle of November. Most freshly laid capsules were observed in May–June and August–September. Capsules from the late summer hatched in spring and capsules laid in the spring hatched in August–September. The average annual net production for the whole population was estimated by three methods. The Allen curve method gave 1.895AFDWm −2 , the growth-increment method gave 1.784mgAFDWm −2 and the Hynes method 2.284mgAFDWm −2 . Corresponding estimated P/B ratios were 1.29, 1.30 and 1.57. Annual net-production of the four investigated year-classes was 16mgAFDWm −2 year −1 for 1975, 224mgAFDWm −2 year −1 for 1976, 1.258mgAFDWm −2 year −1 for 1977 and 287mgAFDWm −2 year −1 for 1978. P/B ratios for the three oldest year-classes were, respectively, 0.32, 0.50 and 1.67. A comparison with other investigations on gastropod life cycles, reproduction and P/B ratios is made and differences discussed. Variations are correlated to temperature, and food quality and quantity.