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On 16 dicembre 2022 14:04:33 +1100, National Native Title Tribunal:

Updated description of Identification of corridors of river recovery for NSW Lower North Coast catchments from
By connecting corridors of river recovery, resilience can be built into river systems to mitigate against future floods and droughts driven by anthropogenic disturbance or climate extremes. This database can be used to systematically analyse where corridors of geomorphic river recovery could be created via conservation or rehabilitation. Analysis is undertaken in ArcGIS using the recovery potential layer of the Open Access NSW River Styles database that is available from DPIE (www.dpie.nsw.gov.au). The River Styles database was accessed in January 2021. The database and associated workflow identifies reach and loci connections based on different combinations of recovery potential classes. Reach connections are defined as an upstream to downstream section of river that is connected end-to-end, and loci connections are defined as isolated sections of river from which recovery can be seeded and extended into adjacent reaches. This map for all freshwater stream length of the NSW Hunter catchments, shows the spatial distribution of thirteen connections based on combinations and sequences of conservation, strategic and high recovery potential targets. Other connections of interest to river practitioners can be identified and >80 different user-defined scenarios run using a workflow available at protocols.io. Attribution to: Macquarie University, D Agnew and K Fryirs (2022) Corridors of river recovery database and workflow. Data accessed from The Sharing and Enabling Environmental Data Portal. This work is funded by an Australian Research Council Linkage project based at Macquarie University with industry partners Landcare Australia and Hunter-Central Rivers Local Land Services. This work is published in two Open Access papers: * Agnew D, Fryirs K (2022) Identifying corridors of river recovery in coastal NSW Australia, for use in river management decision support and prioritisation systems. PLoS ONE 17(6): e0270285. https://doi.org/10.1371/journal.pone.0270285 * Agnew D, Graves BP, Fryirs K (2022) A GIS workflow for the identification of corridors of geomorphic river recovery across landscapes. PLoS ONE 17(12): e0278831. https://doi.org/10.1371/journal.pone.0278831 The workflow is available at: https://www.protocols.io/view/a-gis-workflow-for-the-identification-of-corridors-n2bvj8625gk5/v1
to
By connecting corridors of river recovery, resilience can be built into river systems to mitigate against future floods and droughts driven by anthropogenic disturbance or climate extremes. This database can be used to systematically analyse where corridors of geomorphic river recovery could be created via conservation or rehabilitation. Analysis is undertaken in ArcGIS using the recovery potential layer of the Open Access NSW River Styles database that is available from DPIE (www.dpie.nsw.gov.au). The River Styles database was accessed in January 2021. The database and associated workflow identifies reach and loci connections based on different combinations of recovery potential classes. Reach connections are defined as an upstream to downstream section of river that is connected end-to-end, and loci connections are defined as isolated sections of river from which recovery can be seeded and extended into adjacent reaches. This map for all freshwater stream length of the NSW Lower North Coast catchments, shows the spatial distribution of thirteen connections based on combinations and sequences of conservation, strategic and high recovery potential targets. Other connections of interest to river practitioners can be identified and >80 different user-defined scenarios run using a workflow available at protocols.io. Attribution to: Macquarie University, D Agnew and K Fryirs (2022) Corridors of river recovery database and workflow. Data accessed from The Sharing and Enabling Environmental Data Portal. This work is funded by an Australian Research Council Linkage project based at Macquarie University with industry partners Landcare Australia and Hunter-Central Rivers Local Land Services. This work is published in two Open Access papers: * Agnew D, Fryirs K (2022) Identifying corridors of river recovery in coastal NSW Australia, for use in river management decision support and prioritisation systems. PLoS ONE 17(6): e0270285. https://doi.org/10.1371/journal.pone.0270285 * Agnew D, Graves BP, Fryirs K (2022) A GIS workflow for the identification of corridors of geomorphic river recovery across landscapes. PLoS ONE 17(12): e0278831. https://doi.org/10.1371/journal.pone.0278831 The workflow is available at: https://www.protocols.io/view/a-gis-workflow-for-the-identification-of-corridors-n2bvj8625gk5/v1

Added resource Data Download for Lower North Coast to Identification of corridors of river recovery for NSW Lower North Coast catchments

Added resource DQS - Identification of corridors of river recovery for NSW Lower North Coast catchments to Identification of corridors of river recovery for NSW Lower North Coast catchments

Deleted resource Data Download for Lower North Coast from Identification of corridors of river recovery for NSW Lower North Coast catchments

Deleted resource DQS - Identification of corridors of river recovery for NSW Lower North Coast catchments from Identification of corridors of river recovery for NSW Lower North Coast catchments

              
    
          
          
        
        
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            27   "notes": "By connecting corridors of river recovery, resilience can  27   "notes": "By connecting corridors of river recovery, resilience can 
            28 be built into river systems to mitigate against future floods and  28 be built into river systems to mitigate against future floods and 
            29 droughts driven by anthropogenic disturbance or climate extremes. This  29 droughts driven by anthropogenic disturbance or climate extremes. This 
            30 database can be used to systematically analyse where corridors of  30 database can be used to systematically analyse where corridors of 
            31 geomorphic river recovery could be created via conservation or  31 geomorphic river recovery could be created via conservation or 
            32 rehabilitation. Analysis is undertaken in ArcGIS using the recovery  32 rehabilitation. Analysis is undertaken in ArcGIS using the recovery 
            33 potential layer of the Open Access NSW River Styles database that is  33 potential layer of the Open Access NSW River Styles database that is 
            34 available from DPIE (www.dpie.nsw.gov.au).  The River Styles database  34 available from DPIE (www.dpie.nsw.gov.au).  The River Styles database 
            35 was accessed in January 2021. The database and associated workflow  35 was accessed in January 2021. The database and associated workflow 
            36 identifies reach and loci connections based on different combinations  36 identifies reach and loci connections based on different combinations 
            37 of recovery potential classes. Reach connections are defined as an  37 of recovery potential classes. Reach connections are defined as an 
            38 upstream to downstream section of river that is connected end-to-end,  38 upstream to downstream section of river that is connected end-to-end, 
            39 and loci connections are defined as isolated sections of river from  39 and loci connections are defined as isolated sections of river from 
            40 which recovery can be seeded and extended into adjacent reaches. This  40 which recovery can be seeded and extended into adjacent reaches. This 
            n 41 map for all freshwater stream length of the NSW Hunter catchments,  n 41 map for all freshwater stream length of the NSW Lower North Coast 
            42 shows the spatial distribution of thirteen connections based on  42 catchments, shows the spatial distribution of thirteen connections 
            43 combinations and sequences of conservation, strategic and high  43 based on combinations and sequences of conservation, strategic and 
            44 recovery potential targets. Other connections of interest to river  44 high recovery potential targets. Other connections of interest to 
            45 practitioners can be identified and >80 different user-defined  45 river practitioners can be identified and >80 different user-defined 
            46 scenarios run using a workflow available at  46 scenarios run using a workflow available at 
            47 protocols.io.\r\n\r\nAttribution to: Macquarie University, D Agnew and  47 protocols.io.\r\n\r\nAttribution to: Macquarie University, D Agnew and 
            48 K Fryirs (2022) Corridors of river recovery database and workflow.  48 K Fryirs (2022) Corridors of river recovery database and workflow. 
            49 Data accessed from The Sharing and Enabling Environmental Data  49 Data accessed from The Sharing and Enabling Environmental Data 
            50 Portal.\r\n\r\nThis work is funded by an Australian Research Council  50 Portal.\r\n\r\nThis work is funded by an Australian Research Council 
            51 Linkage project based at Macquarie University with industry partners  51 Linkage project based at Macquarie University with industry partners 
            52 Landcare Australia and Hunter-Central Rivers Local Land Services.  52 Landcare Australia and Hunter-Central Rivers Local Land Services. 
            53 \r\n\r\nThis work is published in two Open Access papers:\r\n\r\n*  53 \r\n\r\nThis work is published in two Open Access papers:\r\n\r\n* 
            54 Agnew D, Fryirs K (2022) Identifying corridors of river recovery in  54 Agnew D, Fryirs K (2022) Identifying corridors of river recovery in 
            55 coastal NSW Australia, for use in river management decision support  55 coastal NSW Australia, for use in river management decision support 
            56 and prioritisation systems. PLoS ONE 17(6): e0270285.  56 and prioritisation systems. PLoS ONE 17(6): e0270285. 
            57 https://doi.org/10.1371/journal.pone.0270285\r\n* Agnew D, Graves BP,  57 https://doi.org/10.1371/journal.pone.0270285\r\n* Agnew D, Graves BP, 
            58 Fryirs K (2022) A GIS workflow for the identification of corridors of  58 Fryirs K (2022) A GIS workflow for the identification of corridors of 
            59 geomorphic river recovery across landscapes. PLoS ONE 17(12):  59 geomorphic river recovery across landscapes. PLoS ONE 17(12): 
            60 e0278831. https://doi.org/10.1371/journal.pone.0278831 \r\n\r\nThe  60 e0278831. https://doi.org/10.1371/journal.pone.0278831 \r\n\r\nThe 
            61 workflow is available at:  61 workflow is available at: 
            62 workflow-for-the-identification-of-corridors-n2bvj8625gk5/v1\r\n\r\n", 62 workflow-for-the-identification-of-corridors-n2bvj8625gk5/v1\r\n\r\n",
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            164     } 164     }
            165   ], 165   ],
            166   "title": "Identification of corridors of river recovery for NSW  166   "title": "Identification of corridors of river recovery for NSW 
            167 Lower North Coast catchments", 167 Lower North Coast catchments",
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            173 } 173 }