Mapping threats to species: Method matters

Mapping threats to species: Method matters

Mapping the various anthropogenic threats to species is a key tool to support and guide effective decisions for management of these threats. While there are a range of approaches to mapping threats, the extent to which these provide consistent or differing results has not been investigated. The over...

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Bibliographic Details
Published in:Marine policy Vol. 131; p. 104614
Main Authors: Ostwald, Ashlea, Tulloch, Vivitskaia J.D., Kyne, Peter M., Bax, Nicholas J., Dunstan, Piers K., Ferreira, Luciana C., Thums, Michele, Upston, Judy, Adams, Vanessa M.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-09-2021
Subjects:
Conservation
Cumulative impact
Migratory marine species
North Marine Region
Threat management
Threatened marine species
North Marine Region
Threatened marine species
Cumulative impact
Migratory marine species
Conservation
Threat management
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Summary:Mapping the various anthropogenic threats to species is a key tool to support and guide effective decisions for management of these threats. While there are a range of approaches to mapping threats, the extent to which these provide consistent or differing results has not been investigated. The overall aim of this study was to address this gap by explicitly testing how threat mapping methods vary. To achieve this, we examined the extent to which conservation management priorities change depending on the method used to map threats. This includes methods with increasing levels of spatial and species-specific information: (1) cumulative threats; (2) cumulative threats restricted to species distributions; (3) threat-species hotspots; and, (4) cumulative impacts. We used Australia’s North Marine Region as a case study and focused on 16 species deemed the highest priority for threat management due to their heightened vulnerability to these threats. Visual and tabulated comparisons of these four maps reveal how refining the underlying detail transforms the spatial footprint of each map and therefore, the management implications. Across all four methods there was consistent identification of the coastal zone as the area with highest threats. We found that the cumulative impact method required the greatest data inputs, but in return provided the greatest level of detail in terms of where to act and which threats to manage for vulnerable species. •There are a range of approaches to mapping threats, but direct comparisons of these methods has not been investigated.•We applied four commonly used threat mapping methods and compared the spatial patterns.•Visual and tabulated comparisons of four threat mapping methods reveal how refining the underlying detail results in greater spatial and management specificity.•Across all four methods there was consistent identification of the coastal zone as the area with highest threats in our case study region, the Northern Marine Region, Australia.
ISSN:0308-597X
1872-9460
DOI:10.1016/j.marpol.2021.104614