Dreissenid phosphorus excretion can sustain C. glomerata growth along a portion of Lake Ontario shoreline

Ted Ozersky; Sairah Y. Malkin; David R. Barton; Robert E. Hecky

doi:10.1016/j.jglr.2009.05.001

Dreissenid phosphorus excretion can sustain C. glomerata growth along a portion of Lake Ontario shoreline

Ted Ozersky, Sairah Y. Malkin, David R. Barton, Robert E. Hecky

Biology (Duluth)

Research output: Contribution to journal › Article › peer-review

78 Scopus citations

Abstract

One of the effects of the dreissenid invasion into the Laurentian Great Lakes appears to be a resurgence in the abundance of the nuisance alga Cladophora glomerata which experienced a marked decline following phosphorus abatement in the late 1970s and early 1980s. A subsidy of bioavailable phosphorus excreted by dreissenid mussels could be an important mechanism facilitating the growth of C. glomerata. To assess the importance of phosphorus released by mussels to C. glomerata growth in the nearshore, we conducted a survey of mussel distribution and abundance followed by in situ experiments designed to measure dreissenid phosphorus excretion rates. Average dreissenid mussel abundance in our study area was 3674 individuals/m², with an average biomass of 52.2 g of shell free dry mass/m². The mussels excreted bioavailable soluble reactive phosphorus at an average rate of 7.02 μg SRP/g shell free dry mass/hour, contributing about 11 t of soluble reactive phosphorus to our study area over the C. glomerata growing season. Dreissenids appear to be an important source of recycled bioavailable phosphorus to the nearshore, supplying more soluble reactive phosphorus to our study area than local watercourses and WWTPs, and more phosphorus than is required to sustain local C. glomerata growth.

Original language	English (US)
Pages (from-to)	321-328
Number of pages	8
Journal	Journal of Great Lakes Research
Volume	35
Issue number	3
DOIs	https://doi.org/10.1016/j.jglr.2009.05.001
State	Published - Sep 2009

Bibliographical note

Funding Information:
The authors are deeply indebted to David Depew, Adam Houben, Jennifer Hood and Ryan Scott for their help with the collection of field data and advice. We also thank Dr. William D. Taylor for his helpful comments regarding phosphorus cycling, as well as two anonymous reviewers whose comments helped to significantly improve this manuscript. This research was financially supported by the Ontario Clean Water Agency (OCWA).

Keywords

Dreissenid mussels
Nuisance algae
Phosphorus cycling

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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abstract = "One of the effects of the dreissenid invasion into the Laurentian Great Lakes appears to be a resurgence in the abundance of the nuisance alga Cladophora glomerata which experienced a marked decline following phosphorus abatement in the late 1970s and early 1980s. A subsidy of bioavailable phosphorus excreted by dreissenid mussels could be an important mechanism facilitating the growth of C. glomerata. To assess the importance of phosphorus released by mussels to C. glomerata growth in the nearshore, we conducted a survey of mussel distribution and abundance followed by in situ experiments designed to measure dreissenid phosphorus excretion rates. Average dreissenid mussel abundance in our study area was 3674 individuals/m2, with an average biomass of 52.2 g of shell free dry mass/m2. The mussels excreted bioavailable soluble reactive phosphorus at an average rate of 7.02 μg SRP/g shell free dry mass/hour, contributing about 11 t of soluble reactive phosphorus to our study area over the C. glomerata growing season. Dreissenids appear to be an important source of recycled bioavailable phosphorus to the nearshore, supplying more soluble reactive phosphorus to our study area than local watercourses and WWTPs, and more phosphorus than is required to sustain local C. glomerata growth.",

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Dreissenid phosphorus excretion can sustain C. glomerata growth along a portion of Lake Ontario shoreline

Abstract

Bibliographical note

Keywords

UN SDGs

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