Gravity of human impacts mediates coral reef conservation gains

The study found that only marine reserves in areas of low human impact consistently sustained top predators.

Author Name(s): 
Cinner, Joshua E.;
 Maire, Eva;
 Huchery, Cindy;
 MacNeil, M. Aaron;
 Graham, Nicholas A. J.;
 Mora, Camilo;
 McClanahan, Tim R.;
 Barnes, Michele L.;
 Kittinger, John N.;
 Hicks, Christina C.;
 D’Agata, Stephanie;
 Hoey, Andrew S.;
 Gurney, Georgina G.;
 Feary, David A.;
 Williams, Ivor D.;
 Kulbicki, Michel;
 Vigliola, Laurent;
 Wantiez, Laurent;
 Edgar, Graham J.;
 Stuart-Smith, Rick D.;
 Sandin, Stuart A.;
 Green, Alison;
 Hardt, Marah J.;
 Beger, Maria;
 Friedlander, Alan M.;
 Wilson, Shaun K.;
 Brokovich, Eran;
 Brooks, Andrew J.;
 Cruz-Motta, Juan J.;
 Booth, David J.;
 Chabanet, Pascale;
 Gough, Charlotte;
 Tupper, Mark;
 Ferse, Sebastian C. A.;
 Sumaila, U. Rashid;
 Pardede, Shinta;
 Mouillot, David
Citation: 

Cinner, J. E., et al. 2018. Gravity of human impacts mediates coral reef conservation gains. Proceedings of the National Academy of Sciences 115(27): E6116-E6125.

Publication type: 
Articles
Journal Article
Publication year: 
2018
DOI: 
https://doi.org/10.1073/pnas.1708001115
Link(s): 
https://www.pnas.org/doi/pdf/10.1073/pnas.1708001115
Biome/Habitat: 
Coastal Areas
Oceans and Seas
Population: 
Population Size
Spatial Distribution
Nat. Res. and Env. Stressors: 
Biodiversity
Coastal
Consumption
Fisheries
Solid Waste
Water Pollution
Language: 
English