Potential for large-bodied zooplankton and dreissenids to alter the productivity and autotrophic structure of lakes
Higgins, S. N., Althouse, B., Devlin, S., Vadeboncoeu, Y., & Zanden, M. J. V. (2014). Potential for large-bodied zooplankton and dreissenids to alter the productivity and autotrophic structure of lakes. Ecology, 95(8), 2257-2267. https://doi.org/10.1890/13-2333.1
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2014Copyright
© 2014 by the Ecological Society of America. Published in this repository with the kind permission of the publisher.
While limnological studies have emphasized the importance of grazers on algal
biomass and primary production in pelagic habitats, few studies have examined their potential
role in altering total ecosystem primary production and it’s partitioning between pelagic and
benthic habitats. We modified an existing ecosystem production model to include biotic
feedbacks associated with two groups of large-bodied grazers of phytoplankton (large-bodied
zooplankton and dreissenid mussels) and estimated their effects on total ecosystem production
(TEP), and the partitioning of TEP between phytoplankton and periphyton (autotrophic
structure) across large gradients in lake size and total phosphorus (TP) concentration. Model
results indicated that these filter feeders were capable of reducing whole-lake phytoplankton
production by 20–70%, and increasing whole-lake benthic production between 0% and 600%.
Grazer effects on TEP were constrained by lake size, trophic status, and potential feedbacks
between grazing and maximum rates of benthic photosynthesis (BPMAX). In small (mean
depth Z¯ , 10 m) oligotrophic and mesotrophic (TP , 100 mg P/m2) lakes, both large-bodied
zooplankton and dreissenids were capable of increasing the benthic fraction (Bf ) by 10–50%
of TEP. Small lakes were also the only systems where TEP had the potential to increase in the
presence of large-bodied grazers, but such increases only occurred if grazer-induced changes in
water clarity, macrophyte coverage, or nutrient availability stimulated specific growth rates of
periphyton. In other scenarios, TEP declined by a maximum of 50%. In very large lakes (Z¯ .
100 m), Bf was minor (,10%) in the presence or absence of grazers, but increases in littoral
habitat and the stimulation of benthic production in these ecosystems could be of ecological
relevance because littoral zones in large lakes contain a relatively high proportion of withinlake
biodiversity and are important for whole-lake food webs.
...
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Ecological Society of AmericaISSN Search the Publication Forum
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http://www.esajournals.org/doi/pdf/10.1890/13-2333.1Publication in research information system
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