Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia

Oyster reefs are one of the most imperiled marine habitats on earth, and are functionally extinct in Australia. Their ability to maintain ecosystem health and provide ecosystem services is highly valued, and there is growing initiative to restore oyster reefs, worldwide. Habitat suitability modellin...

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Main Author:	Alice Howie
Format:	Thesis
Language:	unknown
Published:	2021
Subjects:	Other education not elsewhere classified oyster reefs restoration suitability modelling habitat shellfish survey social temperate participatory mapping Botany Bay Crassostrea gigas
Online Access:	https://doi.org/10.25949/21692504.v1 https://figshare.com/articles/thesis/Stakeholder-supported_restoration_suitability_modelling_for_oyster_reefs_in_Sydney_Australia/21692504

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spelling	ftmacquariefig:oai:figshare.com:article/21692504 2023-05-15T15:58:42+02:00 Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia Alice Howie 2021-12-08T00:00:00Z https://doi.org/10.25949/21692504.v1 https://figshare.com/articles/thesis/Stakeholder-supported_restoration_suitability_modelling_for_oyster_reefs_in_Sydney_Australia/21692504 unknown doi:10.25949/21692504.v1 https://figshare.com/articles/thesis/Stakeholder-supported_restoration_suitability_modelling_for_oyster_reefs_in_Sydney_Australia/21692504 In Copyright Other education not elsewhere classified oyster reefs restoration suitability modelling habitat shellfish survey social temperate participatory mapping Text Thesis 2021 ftmacquariefig https://doi.org/10.25949/21692504.v1 2022-12-28T08:32:18Z Oyster reefs are one of the most imperiled marine habitats on earth, and are functionally extinct in Australia. Their ability to maintain ecosystem health and provide ecosystem services is highly valued, and there is growing initiative to restore oyster reefs, worldwide. Habitat suitability modelling has emerged as a powerful tool to guide site selection, a crucial component of restoration. Such models often use bio-physical parameters, but rarely consider conflicting estuarine uses or stakeholder-support, which are increasingly important in spatially complex, urbanised estuaries. This thesis took a holistic approach to suitability modelling, utilising available biological and physical spatial data and local stakeholder knowledge, to develop a stakeholder-supported restoration suitability model. Suitability models targeted native ( Saccostrea glomerata and Ostrea angasi ) oysters, whilst limiting proliferation of non-native Crassostrea gigas , and were produced for two highly urbanised estuaries, Sydney Harbour and Botany Bay in Sydney, Australia. When habitat suitability, estuarine conflicts, ecological connectivity and stakeholder-support were considered, 0.4-3.3% of each estuary was assessed as highly suitable for native oyster reef restoration. This holistic, data-driven approach to suitability modelling will guide pilot studies and site prioritisation, and may serve as a framework for future restoration modelling endeavours in other urbanised estuaries. Thesis Crassostrea gigas Research from Macquarie University Botany Bay ENVELOPE(-57.892,-57.892,-63.678,-63.678)
institution	Open Polar
collection	Research from Macquarie University
op_collection_id	ftmacquariefig
language	unknown
topic	Other education not elsewhere classified oyster reefs restoration suitability modelling habitat shellfish survey social temperate participatory mapping
spellingShingle	Other education not elsewhere classified oyster reefs restoration suitability modelling habitat shellfish survey social temperate participatory mapping Alice Howie Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia
topic_facet	Other education not elsewhere classified oyster reefs restoration suitability modelling habitat shellfish survey social temperate participatory mapping
description	Oyster reefs are one of the most imperiled marine habitats on earth, and are functionally extinct in Australia. Their ability to maintain ecosystem health and provide ecosystem services is highly valued, and there is growing initiative to restore oyster reefs, worldwide. Habitat suitability modelling has emerged as a powerful tool to guide site selection, a crucial component of restoration. Such models often use bio-physical parameters, but rarely consider conflicting estuarine uses or stakeholder-support, which are increasingly important in spatially complex, urbanised estuaries. This thesis took a holistic approach to suitability modelling, utilising available biological and physical spatial data and local stakeholder knowledge, to develop a stakeholder-supported restoration suitability model. Suitability models targeted native ( Saccostrea glomerata and Ostrea angasi ) oysters, whilst limiting proliferation of non-native Crassostrea gigas , and were produced for two highly urbanised estuaries, Sydney Harbour and Botany Bay in Sydney, Australia. When habitat suitability, estuarine conflicts, ecological connectivity and stakeholder-support were considered, 0.4-3.3% of each estuary was assessed as highly suitable for native oyster reef restoration. This holistic, data-driven approach to suitability modelling will guide pilot studies and site prioritisation, and may serve as a framework for future restoration modelling endeavours in other urbanised estuaries.
format	Thesis
author	Alice Howie
author_facet	Alice Howie
author_sort	Alice Howie
title	Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia
title_short	Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia
title_full	Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia
title_fullStr	Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia
title_full_unstemmed	Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia
title_sort	stakeholder-supported restoration suitability modelling for oyster reefs in sydney, australia
publishDate	2021
url	https://doi.org/10.25949/21692504.v1 https://figshare.com/articles/thesis/Stakeholder-supported_restoration_suitability_modelling_for_oyster_reefs_in_Sydney_Australia/21692504
long_lat	ENVELOPE(-57.892,-57.892,-63.678,-63.678)
geographic	Botany Bay
geographic_facet	Botany Bay
genre	Crassostrea gigas
genre_facet	Crassostrea gigas
op_relation	doi:10.25949/21692504.v1 https://figshare.com/articles/thesis/Stakeholder-supported_restoration_suitability_modelling_for_oyster_reefs_in_Sydney_Australia/21692504
op_rights	In Copyright
op_doi	https://doi.org/10.25949/21692504.v1
_version_	1766394474944004096

Stakeholder-supported restoration suitability modelling for oyster reefs in Sydney, Australia

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