Abstract
The effect of dormancy in zooplankton populations is still unknown, largely because of the lack of methods to estimate hatching and production of the dormant stages. This study aimed to compare the production and hatching rates of ephippia of Daphnia laevis between thermal stratification and mixing periods in Jacaré Lake (Middle Rio Doce, Minas Gerais, Brazil). For this, we collected ephippia on the sediment with core sampler and we created a device called the "Ephippial Collector". There was a significant difference in ephippia hatching in situ between stratification and mixing periods (Pearson's Chi-squared test p <0.001), being higher in the second one. Significant differences in the hatching rates between periods was observed in the laboratory only for ephippia collected with Ephippial Collectors (Pearson's Chi-squared test p <0.001), being higher during the mixing period (∼ 8%). The core sample allows the collection of a certain fraction of the sediment that may contain a mixture of ephippia produced in different periods, i.e., may contain old and not viable ephippia, which masks the hatching rate. Thus, seasonality in hatching rates of ephippia was reported only by Ephippial Collectors. The higher hatching rate observed during the mixing period in the lake suggests that individuals hatched from ephippia may contribute to the increase in the population of D. laevis in the water column at this time.
Highlights
Part of zooplankton communities may be present in the sediment of lakes as dormant stages
The average daily D. laevis ephippia production, collected with the new apparatus, was 204.m–2.day–1 (49.7% of the eggs classified as hatched in situ) compared with 29.m–2. day–1 (1.3% of them classified as hatched in situ) during the stratified period (Table 1)
Significant difference in hatching rate in the laboratory was observed only for the ephippia collected with Ephippial Collectors (Pearson’s Chi-squared test p
Summary
Part of zooplankton communities may be present in the sediment of lakes as dormant stages. Within the Anomopoda (Cladocera) order (e.g. Daphnia spp.), these dormant eggs are protected by the carapace of the mother, forming a. The dormant eggs and ephippia are dark with a thick protective membrane and a well developed cytoplasm. They may remain viable for decades or centuries and accumulate in large numbers in the sediment (Hairston Junior, 1996; Cáceres, 1998; Crispim et al 2003; Cáceres and Tessier, 2004), forming an “egg bank”. Some studies have shown that fluctuations in population densities can be correlated to dormant eggs (Mnatsakanova and Polishchuk, 1996; Cáceres, 1998; Hairston Junior et al, 2000). The importance of the diapause in the zooplankton population dynamics of many species has been increasingly recognised
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