Greg McCullough scite author profile

Changes in plankton community structure were examined in an experimental reservoir (Lake 979) before and after impoundment. The role of allochthonous organic matter in planktonic food webs is unclear, and reservoir creation can be viewed as an extreme manipulation of terrestrial organic matter inputs. After impoundment of Lake 979, concentrations of phosphorus, nitrogen, and dissolved organic carbon increased as a result of decomposition of flooded terrestrial organic matter. In the first year of impoundment, mean bacterial biomass increased 10 times , and individual bacterial cell volumes increased 2 times over pre-flooding averages. Phytoplankton production and biomass decreased to approximately 25% of pre-flooding levels. Zooplankton biomass and production by Cladocera increased 10 times , and zooplankton community composition changed from dominance by small-sized Bosmina longirostris to dominance by large Daphnia rosea. In the first year of impoundment, production by Cladocera usually exceeded phytoplankton14C productivity, suggesting that the main pathway of carbon flow to secondary producers shifted from an autochthonous to an allochthonous base derived from flooded terrestrial vegetation. In the second year of flooding, bacterial biomass decreased and phytoplankton biomass was higher than in the two previous years of study.

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Characterisation of colored dissolved organic matter in Hudson Bay and Hudson Strait using parallel factor analysis

Guéguen

Granskog

McCullough

et al. 2011

Journal of Marine Systems

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Greg McCullough

The rapid eutrophication of Lake Winnipeg: Greening under global change

Hydrological forcing of a recent trophic surge in Lake Winnipeg

An analysis of satellite-derived chlorophyll and algal bloom indices on Lake Winnipeg

Changes in the planktonic food web of a new experimental reservoir

Characterisation of colored dissolved organic matter in Hudson Bay and Hudson Strait using parallel factor analysis

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