Threatened Species Habitat and Connectivity Modelling — Highway Bypass Route Optimisation

Client - Queensland Department of Transport and Main Roads

Sector - Government / Transport Infrastructure

Year - 2022

Role - Technical Lead/Geospatial Modeller and Primary Report Author — Biodiversity Australia

Scope - Multi-species habitat suitability and landscape connectivity modelling

Services - MaxEnt species distribution modelling, habitat suitability MCDA, ecological resistance surface development, least-cost corridor analysis, Circuitscape analysis, infrastructure route comparison, technical reporting

Project Overview

Andrew led the geospatial and ecological modelling component of a Queensland Government infrastructure study assessing alternative highway bypass route options while minimising impacts on threatened species across a complex and ecologically sensitive landscape.

What We Did

• Gathered and processed spatial and ecological datasets for 17 threatened species across multiple taxa

• Applied MaxEnt ecological niche modelling at continental scale to generate probabilistic habitat suitability surfaces for each species

• Constructed regional-scale habitat suitability models using weighted multi-criteria analysis integrating vegetation, regional ecosystems, bioclimatic variables, and disturbance factors

• Developed ecological resistance cost surfaces to quantify relative ecological impact across each potential bypass route

• Applied Circuitscape circuit theory analysis to assess corridor connectivity, identify bottlenecks, and evaluate alternative pathways not captured by single-path analysis

• Overlaid habitat suitability and Circuitscape outputs to generate a composite ecological cost analysis across all route alignments

• Identified pinch points, critical linkages, and constrained sections between proposed routes

Outcome

A multi-species spatial modelling framework providing a transparent, quantitative, and ecologically defensible basis for infrastructure route selection — directly identifying alignments that minimise ecological impact while maintaining landscape connectivity. The methodology has since been applied across multiple infrastructure planning and conservation projects.