Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/111619
Título: Reef Life Survey: Establishing the ecological basis for conservation of shallow marine life
Autores/as: Edgar, Graham J.
Cooper, Antonia
Baker, Susan C.
Barker, William
Barrett, Neville S.
Becerro, Mikel A.
Bates, Amanda E.
Brock, Danny
Ceccarelli, Daniela M.
Clausius, Ella
Davey, Marlene
Davis, Tom R.
Day, Paul B.
Green, Andrew
Griffiths, Samuel R.
Hicks, Jamie
Hinojosa, Iván A.
Jones, Ben K.
Kininmonth, Stuart
Larkin, Meryl F.
Lazzari, Natali
Lefcheck, Jonathan S.
Ling, Scott D.
Mooney, Peter
Oh, Elizabeth
Pérez-Matus, Alejandro
Pocklington, Jacqueline B.
Riera Elena, Rodrigo 
Sanabria-Fernandez, Jose A.
Seroussi, Yanir
Shaw, Ian
Shields, Derek
Shields, Joe
Smith, Margo
Soler, German A.
Stuart-Smith, Jemina
Turnbull, John
Stuart-Smith, Rick D.
Clasificación UNESCO: 240106 Ecología animal
240119 Zoología marina
Palabras clave: Citizen science
Climate change
Coral reef
Effects of fishing
Marine protected area, et al.
Fecha de publicación: 2020
Publicación seriada: Biological conservation 
Resumen: Reef Life Survey (RLS) provides a new model for ecological monitoring through training experienced recreational divers in underwater visual census methods to the level of skilled scientists. Detail produced is similar to that of programs with professional scientific teams, at low cost to allow global coverage. RLS differs from most other citizen science initiatives in its emphasis on rigorous training and data quality rather than open participation, selectively involving the most skilled and committed members. Volunteers participate primarily because they appreciate the close relationship with scientists, other divers, and managers, and see their efforts directly contributing to improved environmental outcomes. RLS works closely with Australian management agencies, scheduling annual events at core monitoring sites associated with 10 inshore marine protected areas Australia-wide. Surveys of 12 offshore Australian Marine Parks (AMPs) are realized through 2–4 week voyages in a sailing catamaran crewed by volunteers. Across the AMP network, RLS surveys have quantified densities of fishes, mobile invertebrates, macroalgae and corals at 350 shallow coral reef sites (180 sites surveyed on two or more occasions), providing an understanding of (i) population changes amongst threatened species including sea snakes, (ii) responses of fish and invertebrate populations following fisheries closures, (iii) ecosystem-wide impacts of marine heat-waves, and (iv) the extent that AMPs spanning the network comprehensively encompass national coral reef biodiversity. This scientist/volunteer/manager collaboration could be greatly expanded globally (presently 3537 sites in 53 countries).
URI: http://hdl.handle.net/10553/111619
ISSN: 0006-3207
DOI: 10.1016/j.biocon.2020.108855
Fuente: Biological conservation [ISSN 0006-3207], n. 252, 108855
Colección:Artículos
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