Litcius/Paper detail

Functional connectivity of the world’s protected areas

Angela Brennan, Robin Naidoo, Laura Greenstreet, Zia Mehrabi, Navin Ramankutty, Claire Kremen

2022Science233 citationsDOI

Abstract

Global policies call for connecting protected areas (PAs) to conserve the flow of animals and genes across changing landscapes, yet whether global PA networks currently support animal movement-and where connectivity conservation is most critical-remain largely unknown. In this study, we map the functional connectivity of the world's terrestrial PAs and quantify national PA connectivity through the lens of moving mammals. We find that mitigating the human footprint may improve connectivity more than adding new PAs, although both strategies together maximize benefits. The most globally important areas of concentrated mammal movement remain unprotected, with 71% of these overlapping with global biodiversity priority areas and 6% occurring on land with moderate to high human modification. Conservation and restoration of critical connectivity areas could safeguard PA connectivity while supporting other global conservation priorities.

Topics & Concepts

BiodiversityLandscape connectivityEnvironmental resource managementFunctional connectivityGeographyWildlife corridorEnvironmental planningEcologyEnvironmental scienceBiologyWildlifeNeuroscienceSociologyDemographyBiological dispersalPopulationWildlife-Road Interactions and ConservationWildlife Ecology and ConservationLand Use and Ecosystem Services