An in situ method for the investigation of vertical distributions of zooplankton in lakes: test of a two-compartment enclosure

Tolomeyev, Alexander P.; Zadereev, Egor

doi:10.1007/s10452-004-5732-0

Cited by 5 publications

(3 citation statements)

References 14 publications

(17 reference statements)

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“…Thermal stratification and associated physicochemical gradients have been shown to influence patterns of depth selection and vertical distribution of crustacean zooplankton in stratified lakes (Winder, Buergi & Spaak, 2003; Thackeray et al. , 2006; Johnson, O’Brien & MacIntyre, 2007) and enclosure experiments (Tolomeyev & Zadereev, 2005). In deep lakes, stratification exposes zooplankton to sharp vertical gradients in light, temperature, oxygen, food concentrations and predation risk.…”

Section: Introductionmentioning

confidence: 99%

“…In lake ecosystems, habitat complexity arises as the result of vertical and horizontal structuring of freshwater habitats and is reflected in the distribution patterns of zooplankton (Pinel-Alloul, 1995;Pinel-Alloul & Ghadouani, 2007). Thermal stratification and associated physicochemical gradients have been shown to influence patterns of depth selection and vertical distribution of crustacean zooplankton in stratified lakes (Winder, Buergi & Spaak, 2003;Thackeray et al, 2006;Johnson, O'Brien & MacIntyre, 2007) and enclosure experiments (Tolomeyev & Zadereev, 2005). In deep lakes, stratification exposes zooplankton to sharp vertical gradients in light, temperature, oxygen, food concentrations and predation risk.…”

Section: Introductionmentioning

confidence: 99%

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Summer depth selection in crustacean zooplankton in nutrient‐poor boreal lakes is affected by recent residential development

Gélinas¹,

Pinel‐Alloul²

2008

Freshwater Biology

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1. Strong vertical gradients in light, water temperature, oxygen, algal concentration and predator encounters during summer in stratified lakes may influence patterns of depth selection in crustacean zooplankton, especially Daphnia species. 2. To test how crustacean depth selection varies among lakes along a gradient of catchment disturbance by recent residential development and land use change, we calculated the weighted mean depth distribution of the biomass of crustaceans by day and night in eight nutrient-poor boreal lakes. 3. Generally, the greatest biomass of crustaceans was located at the metalimnion or at the lower boundary of the euphotic zone during thermal stratification in July. The crustacean zooplankton avoided warm surface layers and tended to stay in colder deep waters by both day and night. They also remained at greater depths in lakes with a more extensive euphotic zone. 4. There was some evidence of upward nocturnal migrations of large Daphnia and copepods in some lakes, and one case of downward migration in a lake inhabited by chaoborid larvae. 5. Multivariate regression trees (MRT) were used to cluster crustaceans and Daphnia species in homogeneous groups based on lake natural and disturbance factors. For crustaceans, the depth of the euphotic zone, the sampling depth (epilimnion, metalimnion and hypolimnion), time (day or night) of sampling and the biomass of chlorophyll a were the main driving factors. For Daphnia species, the drainage area, the sampling depth, the cleared land surface area within the catchment and the concentration of total dissolved phosphorus were the main factors.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Summer depth selection in crustacean zooplankton in nutrient‐poor boreal lakes is affected by recent residential development

Gélinas¹,

Pinel‐Alloul²

2008

Freshwater Biology

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“…Thus, the epilimnion population of A. salinus must migrate to these deeper waters to maintain in their bodies the observed levels of these acids. This argument, however, is not supported by Tolomeyev and Zadereev (2005) who found that diel vertical migration of A. salinus in Lake Shira is weakly pronounced due to the absence of predators for zooplankton. Nevertheless, the difference between day and nighttime distribution profiles of A. salinus does comprise its lower day-time density in the upper (1 m) layer probably due to a negative phototactic response to intensive solar radiation.…”

Section: Fatm In Tag and Feeding Experiments As Indicators Of The Diementioning

confidence: 77%

Feeding spectra of Arctodiaptomus salinus (Calanoida, Copepoda) using fatty acid trophic markers in seston food in two salt lakes in South Siberia (Khakasia, Russia)

et al. 2010

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During two vegetation seasons (2004)(2005), we compared feeding spectra of Arctodiaptomus salinus (Calanoida, Copepoda) populations inhabiting two neighboring salt lakes, Shira and Shunet, Khakasia, Russia, using fatty acid (FA) trophic markers. Sestonic FA composition in two lakes moderately differed, whereas levels of diatom FA markers were higher in Lake Shunet and of Cyanobacteria and green algae markers in Lake Shira. In general, markers in storage lipids-triacylglycerols (TAG) of A. salinusreflected the differences in sestonic composition of the two lakes. Nevertheless, TAG fraction was also enriched by FA trophic markers of the minor components of seston, which were selectively ingested by the animals. In Lake Shira, A. salinus had significantly higher concentrations of bacterial FA markers in TAG. In Lake Shunet, TAG of A. salinus contained significantly higher relative amounts of 18:4x3, 18:5x3 and C22 polyunsaturated fatty acids (PUFA), which indicated marked contribution of cryptophytes or (and) flagellates into the diet. Laboratory experiments showed feeding on Cryptomonas and sulfur purple bacteria in Lake Shunet and ciliates and colonial picoplankton in both lakes, and generally confirmed the differences in FA trophic markers in A. salinus between the lakes. The two populations of A. salinus markedly differed in levels of essential long-chain PUFA, eicosapentaenoic (EPA) and docosahexaenoic (DHA) acids, although the levels of these FA in seston were quite similar between the two lakes. The higher levels of the essential x3 PUFA in A. salinus in Lake Shunet may be an adaptive response of the animals to a vertical stratification of physico-chemical conditions and significantly higher salinity levels at the boundary of adjacent bottom layer in this lake.

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Horizontal Heterogeneities of Functioning of Phyto- and Zooplankton in a Lake with Wind Currents

et al. 2023

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An in situ method for the investigation of vertical distributions of zooplankton in lakes: test of a two-compartment enclosure

Cited by 5 publications

References 14 publications

Summer depth selection in crustacean zooplankton in nutrient‐poor boreal lakes is affected by recent residential development

Summer depth selection in crustacean zooplankton in nutrient‐poor boreal lakes is affected by recent residential development

Feeding spectra of Arctodiaptomus salinus (Calanoida, Copepoda) using fatty acid trophic markers in seston food in two salt lakes in South Siberia (Khakasia, Russia)

Horizontal Heterogeneities of Functioning of Phyto- and Zooplankton in a Lake with Wind Currents

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