Influence of restored mussel reefs on denitrification in marine sediments

Jenny R. Hillman, Theresa A. O'Meara, Andrew M. Lohrer, Simon F. Thrush

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

Globally we have lost the majority of shellfish reefs, with the concomitant loss of ecosystem services. Restoration provides opportunities to regain lost services and engage society in the wider ecosystem benefits of restoration. Previous research has demonstrated that the functional role of shellfish can be context dependent, and we therefore measured fluxes of nutrients and dissolved gases from four restored mussel reefs along a grain size gradient in New Zealand as a metric of success in ecosystem function. This globally novel research found that restored mussel reefs were successful in enhancing denitrification. Mussel reefs can therefore be important in reducing the risk of future eutrophication, but the importance of nutrient remineralisation varies in response to site conditions. These data show that mussel reef creation can quickly restore ecosystem function, but site selection to enhance specific services is important. This study provides evidence of a poorly realised ecosystem service provided by restored mussel beds that allows future restoration efforts to better target areas in order to have the largest impact on the removal of anthropogenic nitrogen.

Original languageEnglish
Article number102099
JournalJournal of Sea Research
Volume175
DOIs
StatePublished - Sep 2021
Externally publishedYes

Funding

Funding: Mussel deployments and fieldwork was funded by the McCrae Family Foundation. JRH was supported by a National Institute of Water and Atmospheric Research Doctoral Scholarship and a George Mason Centre for the Natural Environment Research Fellowship, and TAO by a University of Auckland postdoctoral fellowship.

FundersFunder number
McCrae Family Foundation
National Institute of Water and Atmospheric Research
University of Auckland

    Keywords

    • Biogeochemical processes
    • Denitrification
    • Ecosystem services
    • Grain size gradient
    • Restoration

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