Frank M. Wilhelm scite author profile

Hesperodiaptomus arcticus, a predatory calanoid copepod, was eliminated from two alpine lakes within 6 years of stocking with salmonids. Using historical and contemporary Zooplankton and fish data, sediment analysis for diapausing eggs, and experiments on predation of Gammarus lacustris on diapausing eggs of H. arcticus, we assess the fate of these populations 35 years after fish stocking. In Pipit Lake, in which the trout introduction failed within 21 years, we propose that H. arcticus recovered as a result of hatching of diapausing eggs held in the sediments. In Snowflake Lake the diapausing egg bank was exhausted prior to the loss of the fish population 25 years after first stocking and H. arcticus recovery did not occur. Experimental studies indicate that G. lacustris predation on diapausing eggs probably occurs within the sediments. Combined with a 10-fold difference in G. lacustris density between Snowflake and Pipit lakes the results of the predation experiments imply that G. lacustris had a strong negative impact on the abundance of diapausing eggs held in Snowflake Lake sediments and therefore reduced the ability of the population to recover following perturbation.

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Experimental manipulation of TN:TP ratios suppress cyanobacterial biovolume and microcystin concentration in large-scalein situmesocosms

Harris

Wilhelm

Graham

et al. 2014

Lake and Reservoir Management

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The influence of experimental scale on estimating the predation rate of Gammarus lacustris (Crustacea: Amphipoda) on Daphnia in an alpine lake

Wilhelm¹

2000

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Seasonal Food Habits of Bull Trout from a Small Alpine Lake in the Canadian Rocky Mountains

Wilhelm¹,

Parker²,

Schindler³

et al. 1999

Transactions of the American Fisheries Society

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We investigated the seasonal diet of a native, undisturbed population of bull trout Salvelinus confluentus in an alpine lake to examine predation patterns between fish size-classes and in relation to available invertebrate prey. The diets of small (Յ250 mm in fork length, FL) and large (Ͼ250 mm FL) bull trout were similar. Bull trout fed on seasonally abundant prey species. After ice-out in July, the diet was dominated by chironomid pupae. Daphnia pulex var. and the amphipod Gammarus lacustris dominated the diet in August and September. Both Daphnia and Gammarus reproduced before bull trout switched to preying on them in early August. Bull trout fed size-selectively on large individuals of both Daphnia and Gammarus. Large bull trout preyed on larger Daphnia than did small bull trout. Fish of both size-classes consumed large Gammarus. Bull trout were spatially segregated; small fish occupied shallow water (Ͻ1 m deep), while large fish occupied the profundal offshore zone. Spatial segregation prevented small bull trout from cropping small immature Daphnia in offshore areas. Average total food volume in stomachs of small fish increased between July and September whereas it decreased in large fish. The latter were frequently emaciated, indicating that large individuals may be food limited for much of the open-water period. Our data and observations suggest that prey switching, timing of prey reproduction, and spatial segregation of the fish population by size are tightly coupled and contribute to the survival of the key prey species. The survival of a variety of invertebrate species, including large Gammarus, in the presence of bull trout suggests that stocks of this fish species could be increased by stocking small mountain lakes without severely affecting the native invertebrate fauna.

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Effects ofGammarus lacustris(Crustacea: Amphipoda) on plankton community structure in an alpine lake

Wilhelm¹,

Schindler²

1999

Can. J. Fish. Aquat. Sci.

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The amphipod Gammarus lacustris is generally considered as a herbivore or a detritivorous scavenger, but we and others have observed it preying on pelagic zooplankton in fishless alpine lakes of the Canadian Rockies. We tested the hypothesis that G. lacustris predation alters the plankton community structure of alpine lakes by manipulating G. lacustris density in large (2800 L) in situ enclosure experiments. Compared with control enclosures (no Gammarus), Daphnia middendorffiana abundance was reduced 49, 85, and 100% in the low, medium, and high (40, 200, and 400 individuals·m-2) Gammarus density enclosures, respectively. Hesperodiaptomus arcticus density was not significantly related to G. lacustris density. Comparison of mesocosm results with lake data showed that G. lacustris predation on D. middendorffiana in the lake was lower, possibly because a pelagic deepwater refugium allows Daphnia to escape predation. The results show that G. lacustris predation can affect the plankton community structure in small fishless alpine lakes.

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Frank M. Wilhelm

Recovery of Hesperodiaptomus arcticus populations from diapausing eggs following elimination by stocked salmonids

Experimental manipulation of TN:TP ratios suppress cyanobacterial biovolume and microcystin concentration in large-scalein situmesocosms

The influence of experimental scale on estimating the predation rate of Gammarus lacustris (Crustacea: Amphipoda) on Daphnia in an alpine lake

Seasonal Food Habits of Bull Trout from a Small Alpine Lake in the Canadian Rocky Mountains

Effects ofGammarus lacustris(Crustacea: Amphipoda) on plankton community structure in an alpine lake

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