A diverse portfolio of marine protected areas can better advance global conservation and equity

Article

Gill, David A.; Lester, Sarah E.; Free, Christopher M.; Pfaff, Alexander; Iversen, Edwin; Reich, Brian J.; Yang, Shu; Ahmadia, Gabby; Brown, Dominic A. Andradi-; Darling, Emily S.; Edgar, Graham J.; Fox, Helen E.; Geldmann, Jonas; Le, Duong Trung; Mascia, Michael B.; Mesa-Gutierrez, Roosevelt; Mumby, Peter J.; Veverka, Laura; Warmuth, Laura M.

Duke University; State University System of Florida; Florida State University; University of California System; University of California Santa Barbara; University of California System; University of California Santa Barbara; Duke University; Duke University; North Carolina State University; World Wildlife Fund; Wildlife Conservation Society; University of Tasmania; University of Copenhagen; The World Bank; Conservation International; National Aeronautics & Space Administration (NASA); National Oceanic Atmospheric Admin (NOAA) - USA; University of Queensland; University of Oxford

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

0027-13979

10.1073/pnas.2313205121

2024-03-01

Marine protected areas (MPAs) are widely used for ocean conservation, yet the relative impacts of various types of MPAs are poorly understood. We estimated impacts on fish biomass from no-take and multiple-use (fished) MPAs, employing a rigorous matched counterfactual design with a global dataset of >14,000 surveys in and around 216 MPAs. Both no-take and multiple-use MPAs generated positive conservation outcomes relative to no protection (58.2% and 12.6% fish biomass increases, respectively), with smaller estimated differences between the two MPA types when controlling for additional confounding factors (8.3% increase). Relative performance depended on context and management: no-take MPAs performed better in areas of high human pressure but similar to multiple-use in remote locations. Multiple-use MPA performance was low in high-pressure areas but improved significantly with better management, producing similar outcomes to no-take MPAs when adequately staffed and appropriate use regulations were applied. For priority conservation areas where no-take restrictions are not possible or ethical, our findings show that a portfolio of well-designed and well-managed multiple-use MPAs represents a viable and potentially equitable pathway to advance local and global conservation.