Protected area effectiveness for fish spawning habitat in relation to earthquake-induced landscape change Journal Paper
- Author
- Orchard, S.; Hickford, M.J.H.
- Year
- 2020
- Journal / Source
- Sustainable Bioresource Management: Climate Change Mitigation and Natural Resource Conservation
- Publisher / Organisation
- CRC Press
- Pages
- 447-468
- Summary
- We studied the effectiveness of spatial planning methods for the conservation of Galaxias maculatus, a riparian spawning fish, following earthquake-induced habitat shift in the Canterbury region of New Zealand. Mapping and GIS overlay techniques were used to evaluate three protection mechanisms in operative or proposed plans in two study catchments over 2 years. Method 1 utilized a network of small protected areas around known spawning sites. It was the least resilient to change with only 3.9% of postquake habitat remaining protected in the worst-performing scenario. Method 2, based on mapped reaches of potential habitat, remained effective in one catchment (98%) but not in the other (52.5%). Method 3, based on a habitat model, achieved near 100% protection in both catchments but used planning areas far larger than the area of habitat actually used. This example illustrates resilience considerations for protected area design. Redundancy can help maintain effectiveness in face of dynamics and maybe a pragmatic choice if planning area boundaries lack in-built adaptive capacity or require lengthy processes for amendment. However, an adaptive planning area coupled with monitoring offers high effectiveness from a smaller protected area network.