Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'core habitat' and 'corridor habitat'. Core habitat means the area is predicted to meet all the requirements of the species group, while corridor habitat indicates areas which animals are not predicted to live in because they are too small, but which they may use to move between core habitat areas. This dataset is best visualised using colour or labels for the 'Patch ID' to show fragmentation/connectivity. The 'Habitat Number' field can also be used to set transparency and distinguish core and corridor habitat.This dataset is part of a packaged dataset covering eight species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.
Description: This dataset is part of the Urban Habitat and Connectivity Project, which seeks to develop spatial data and tools to support conservation land management and urban planning decision making in the ACT. It can be used to support best practice urban planning, ecologically sensitive development, and prioritisation of restoration sites and activities for biodiversity and habitat connectivity outcomes in alignment with the principles of Biodiversity Sensitive Urban Design. This data is an output of ecological connectivity modelling and has been developed using spatial data representing habitat and connectivity requirements specific to the species group.This dataset contains predicted 'remnant habitat patches'. These patches meet the requirements for corridor habitat, but are predicted to be inaccessible or unused by most species in the group. These patches are too small to be core habitat and so cannot sustain a population, and additionally they are too far from core habitat or stepping stones within a corridor to be accessible for most species within the group. This is determined by the dispersal capacity of the species and varies by group. Although currently inaccessible these areas may be useful starting points for restoration activities. Additional habitat around or between these patches may facilitate movement between stepping stones to reconnect patches, or increase patch size and available core habitat.This dataset is best visualised in one colour. As these areas are not connected to any core habitat they do not have a Patch ID.This dataset is part of a packaged dataset covering seven species groups. More details on the project, models and related datasets are available in the metadata for the packaged data.