Add to ORKGThe potential for enhancing fish abundance, species richness, and biomass on artificial reefs was examined by attaching floating attractants and manipulating structural complexity of small concrete reefs each approximately 1.3 m in diameter, 1 m high. Experimental design consisted of a comparison of fish assemblages among three treatments (10 replicate, hemisphere-shaped reefs each): 10-m floating line attached (Streamer); concrete block in the central void space (Block); and no floating line or concrete block (Control). Reefs were deployed on sandy substrate at 20-m depth off Fort Lauderdale, Florida, USA. Divers recorded fish census data on slates 18 times over 24 months. Species composition, numbers of individuals per species, and estima...
In this study, we compared the early fish colonization of three types of artificial reefs deployed i...
Derelict vessels are commonly deployed as artificial reefs in theUnited States, mainly for recreatio...
Artificial reefs have been constructed of many different materials including concrete, tires and lim...
The potential for enhancing fish abundance, species richness, and biomass on artificial reefs was ex...
Although there is a long history of artificial reef use, little statistically verifiable experimenta...
There have been a number of natural and artificial reef studies examining possible correlation\u27s ...
Few studies have compared the suitability of different artificial reef construction materials in ter...
Small concrete artificial reef modules (hemisphere-shaped, approximately 1.3 m diameter, 1 m high) w...
To examine how varying the distance between patch reefs affects reef fish assemblage structure, repl...
Artificial reefs have many applications but are best known for their deployments to enhance recreati...
Habitat complexity is recognised as a key driver of fish diversity and abundance. However, the effec...
Artificial reefs have been used in the United States in order to turn barren, unproductive substrate...
Artificial reefs (ARs) have been advocated and implemented as management tools for recreational fish...
Large artificial reef units (LARUs; 158 m3) comprise 38% of 40 000 m3 of artificial reefs deployed i...
In this study, we compared the early fish colonization of three types of artificial reefs deployed i...
Derelict vessels are commonly deployed as artificial reefs in theUnited States, mainly for recreatio...
Artificial reefs have been constructed of many different materials including concrete, tires and lim...
The potential for enhancing fish abundance, species richness, and biomass on artificial reefs was ex...
Although there is a long history of artificial reef use, little statistically verifiable experimenta...
There have been a number of natural and artificial reef studies examining possible correlation\u27s ...
Few studies have compared the suitability of different artificial reef construction materials in ter...
Small concrete artificial reef modules (hemisphere-shaped, approximately 1.3 m diameter, 1 m high) w...
To examine how varying the distance between patch reefs affects reef fish assemblage structure, repl...
Artificial reefs have many applications but are best known for their deployments to enhance recreati...
Habitat complexity is recognised as a key driver of fish diversity and abundance. However, the effec...
Artificial reefs have been used in the United States in order to turn barren, unproductive substrate...
Artificial reefs (ARs) have been advocated and implemented as management tools for recreational fish...
Large artificial reef units (LARUs; 158 m3) comprise 38% of 40 000 m3 of artificial reefs deployed i...
In this study, we compared the early fish colonization of three types of artificial reefs deployed i...
Derelict vessels are commonly deployed as artificial reefs in theUnited States, mainly for recreatio...
Artificial reefs have been constructed of many different materials including concrete, tires and lim...
