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

Gélinas, Malorie; Pinel‐Alloul, Bernadette

doi:10.1111/j.1365-2427.2008.02063.x

Cited by 6 publications

(3 citation statements)

References 66 publications

(107 reference statements)

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“…() linked agricultural land use, the catchments of shallow Wisconsin lakes, located in agricultural catchments with little or no riparian buffer, to reduced zooplankton diversity. Gélinas & Pinel‐Alloul (,b) found that the biomass of small cladocerans in Canadian Shield lakes was associated with increased catchment development. Finally, in a study of 52 Wisconsin lakes, Dodson et al .…”

Section: Discussionsupporting

confidence: 83%

“…Our study of reservoir zooplankton was conducted over a wide range of latitude, with highly contrasting landscape attributes, and confirms patterns developed from studies of natural lakes. Smaller cladoceran body size was associated with: (i) developed catchments (Gélinas & Pinel‐Alloul, ,b; Dodson et al ., ) and (ii) increasing temperature and decreasing latitude (Gillooly & Dodson, ). Included among the limitations of our study is the collection of samples in late summer, which may have obscured food limitation and predation effects, which are not distinguishable with single date sampling.…”

Section: Discussionmentioning

confidence: 99%

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The late summer crustacean zooplankton in western U.S.A reservoirs reflects ecoregion, temperature and latitude

Beaver¹,

Tausz²,

Renicker³

et al. 2014

Freshwater Biology

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Summary We tested whether the crustacean zooplankton species composition and size structure (which are important determinants of energy flow in plankton food webs) during late summer in reservoirs would be related to ecoregional designations, catchment land use, temperature and latitude. We also examined whether the predictions of decreasing cladoceran body size with decreasing latitude (as observed for natural lakes) would be valid for reservoirs. Zooplankton samples were collected in late summer 2010 from 102 western U.S. reservoirs distributed over three major ecoregions from 32.5 to 48.6°N latitude. Large‐bodied cladocerans (Daphnia pulex complex) and cyclopoid copepods (Diacyclops thomasi) were found in deeper, cooler reservoirs with forested catchments (Northwestern Forested Mountains). Small‐bodied cladocerans (Daphnia retrocurva, Diaphanosoma spp. and Chydorus sphaericus) and cyclopoid copepods (Tropocyclops prasinus) were more common in productive reservoirs in catchments influenced by agriculture (Great Plains). Small‐bodied cladocerans (Bosmina longirostris) dominated the otherwise modest crustacean zooplankton in reservoirs located in catchments dominated by evergreen shrub vegetation with limited forestation (Western Xeric). Calanoid copepods also displayed clear distribution by ecoregion. Increasing water temperature and decreasing latitude were associated with smaller mean Daphnia and cladoceran body lengths and lower absolute biomass of daphniids. Daphniids were rare or absent in warm waters (i.e. below 36o N latitude and/or from sites located <500 m altitude). Species composition and mean body size of the cladoceran zooplankton were consistent with the feeding habits of the common planktivorous fish – salmon (Oncorhynchus spp.) and lake trout (Salvelinus spp.) in the Northwestern Forested Mountains, gizzard shad (Dorosoma cepedianum) in the Great Plains and threadfin shad (Dorosoma petenense) in the Western Xeric ecoregion. Our study indicates that the taxonomic composition and size structure of the cladoceran zooplankton in reservoirs are highly connected to ecoregional attributes such as catchment land use, temperature and latitude as has been observed for natural lakes.

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Section: Discussionsupporting

confidence: 83%

Section: Discussionmentioning

confidence: 99%

The late summer crustacean zooplankton in western U.S.A reservoirs reflects ecoregion, temperature and latitude

Beaver¹,

Tausz²,

Renicker³

et al. 2014

Freshwater Biology

View full text Add to dashboard Cite

show abstract

“…−1 d −1 ) than H. glacialis (4.4 ml ind. −1 d −1 ; Gelinas & Pinel‐Alloul, 2008), so Daphnia are potentially better foragers (Allan, 1973; Jeziorski et al, 2015; Tessier, 1986). If other factors such as low calcium concentration (Jeziorski et al, 2015) are not limiting their growth, Daphnia normally outcompete H. glacialis in boreal lakes (Hessen et al, 2000).…”

Section: Discussionmentioning

confidence: 99%

Vertical distribution patterns of zooplankton across a gradient of fish predation in boreal lakes

2023

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Different physical factors such as solar radiation and wind impose strong vertical gradients in lake water columns and have important consequences on the distribution of aquatic organisms, from bacteria to fish. The heterogeneous vertical distribution of zooplankton in lakes is a clear example of a pattern related to these vertical gradients. Although the vertical distribution of zooplankton is probably controlled by multiple factors including light, resources, and predation, we still lack an integrated view of the interplay among these potential drivers, which are most often analysed separately. Moreover, most studies focussed on temperate lakes in which both phytoplankton resources and predation risk from fish are highest in the epilimnion, whereas only a few investigated boreal lakes, where phytoplankton is often more abundant in the metalimnion than in the epilimnion and cold‐stenothermic fishes prey on zooplankton below the warm epilimnetic layers. Here we investigated zooplankton vertical distribution in the epi‐ and metalimnetic waters of 17 boreal lakes that varied in fish predation, resource quantity and quality, and optical properties. The lakes were sampled at midday and midnight at five different depths in the well‐lit epi‐ and metalimnetic layers, where the strongest gradient in light (and predation risk) were expected. We used a multi‐model inference approach combined with linear modelling to examine the relative effects of physical factors (light attenuation, temperature and moon phase), resources (chlorophyll‐a and polyunsaturated fatty acids), and predation (fish and Chaoborus) on depth selection in four zooplankton taxa. All taxa showed a heterogeneous vertical distribution that in most cases had a clear diel migration pattern. Both predation and resources (food and temperature gradient) were associated with vertical depth selection by zooplankton, but each taxon had different responses to each factor. Vertebrate predators were associated with the vertical distribution of Daphnia, Calanoida, and Cyclopoida, but—unexpectedly—all these taxa reduced their diel vertical migration patterns in the presence of fish. Invertebrate predators were better correlated with the distribution of Cyclopoida, which tended to be shallower when Chaoborus was abundant. Food abundance seemed important for Holopedium glacialis and Calanodia, while the temperature gradient was partly associated with both Daphnia spp. and Calanoida distribution. Finally, we found an intriguing, albeit weak, positive association between the vertical distribution of Cyclopoida and that of food quality. These results showed that taxa less vulnerable to predators such as H. glacialis perform inverse DVM, and that this is at least partly related to moon phase rather than to fish predation. They also suggest that boreal lakes colonised by stenothermic planktivorous fish behave differently from the classical DVM paradigm, given that visual predators do not have access to fully lit layers.

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The influence of anthropogenic shoreline changes on the littoral abundance of fish species in German lowland lakes varying in depth as determined by boosted regression trees

et al. 2013

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

Cited by 6 publications

References 66 publications

The late summer crustacean zooplankton in western U.S.A reservoirs reflects ecoregion, temperature and latitude

The late summer crustacean zooplankton in western U.S.A reservoirs reflects ecoregion, temperature and latitude

Vertical distribution patterns of zooplankton across a gradient of fish predation in boreal lakes

The influence of anthropogenic shoreline changes on the littoral abundance of fish species in German lowland lakes varying in depth as determined by boosted regression trees

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