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Life history of Daphnia galeata in a hypertrophic reservoir and consequences of non-consumptive mortality for the initiation of a midsummer decline (2002)

Hülsmann, S. ; Voigt, H.

Oxford, UK : Blackwell Science Ltd

Freshwater biology 47 (2002), S. 0

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ISSN: 1365-2427

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: SUMMARY 1. Field and laboratory investigations were combined in a 2-year study on the initiation of a midsummer decline of Daphnia galeata Sars in a hypertrophic reservoir. Quantitative field samples were taken twice a week, and, adult and juvenile mortality rates were calculated. Patterns of reproduction and survival of daphnids born during spring and early summer under fluctuating food conditions were determined in life-table experiments.2. The abundance of Daphnia increased strongly in early May and declined in June 1998 (midsummer decline). In 1999, Daphnia density increased only slowly in spring and remained constantly high throughout the summer.3. Food conditions (concentrations of POC〈30 μm) for daphnids deteriorated in both years in response to increasing Daphnia densities, resulting in a clear-water phase of about 4 weeks. When Daphnia abundance declined in 1998, POC〈30 μm concentrations increased greatly, whereas in 1999 food conditions improved only slightly and Secchi depth remained high.4. Survival of daphnids in life-table experiments decreased greatly after food became rare and was strongly reduced in those animals born during the clear-water phase compared with those born later. In addition, age at first reproduction was retarded during the clear-water phase, resulting in very low population growth rates. Survivorship patterns in life-table experiments suggest a strong impact of non-consumptive mortality on Daphnia population dynamics.5. Field data of mortality point to differences in mortality patterns between years, probably resulting from different predation impacts of juvenile fish. In both years, however, adult mortality contributed substantially to overall mortality at the end of the clear-water phase. As bottom-up effects on D. galeata were very similar in both years, the significance of non-consumptive mortality on the initiation of midsummer declines appears to depend largely on recruitment patterns before the clear-water phase. A high impact can be expected when Daphnia populations are dominated by a peak cohort of nearly identical age during the clear-water phase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2427.2002.00991.x

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Predation by underyearling perch (Perca fluviatilis) on a Daphnia galeata population in a short-term enclosure experiment (1997)

HÜLSMANN, STEPHAN ; MEHNER, THOMAS

Oxford, UK : Blackwell Science Ltd

Freshwater biology 38 (1997), S. 0

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ISSN: 1365-2427

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: 1. The predation impact of underyearling perch (20 mm total length) on the dynamics of Daphnia galeata was studied in three 6.5-m3 enclosures during a 17-day experiment in June 1995. These data were compared with zooplankton succession in three fish-free control enclosures and in the pelagic zone of Bautzen reservoir, Germany.2. Due to individual growth during the experiment, fish biomass in the enclosures increased from 210 mg wet body mass (w.b.m.) m–3 to 830 mg w.b.m. m–3, equivalent to an increase from 20 kg ha–1 to 75 kg ha–1.3. In the enclosures with fish, biomass of daphnids decreased steadily to values below 1 mg wet weight (w.w.) l–1 within 17 days, whereas in the fish-free controls and in Bautzen reservoir the Daphnia biomass fluctuated around 8 mg w.w. l–1. Other zooplankton species exhibited little or no change. Approximately 60 kg ha–1 was calculated as the critical underyearling perch biomass which may induce a drastic decline of the Daphnia galeata population in Bautzen reservoir. Comparison with values from other lakes is difficult due to differences in water depths and Daphnia biomasses.4. Mean individual biomass of daphnids, egg ratio and proportion of adult daphnids were significantly lower in the enclosures with fish compared with the control enclosures at the end of the experiment. This may be explained partly by preferential predation of the large, egg-carrying daphnids by fish. However, no difference was found in clutch size and size at first reproduction, possibly due to the short duration of the experiment.5. It must be assumed that the ‘summer depression’ of daphnids observed in many waters is not the exclusive effect of direct reduction of daphnids by fish predation. Even the high biomass of underyearling perch stocked in the enclosures did not completely account for Daphnia mortality. Instead, the selective loss of large size classes, combined with low food resources and reduced reproduction rates, may induce the marked declines in daphnids.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-2427.1997.00208.x

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