Add to ORKGIn the San Juan Islands, drift macrophytes from shallow waters represent a significant spatial subsidy provided to the subtidal zone. This organic matter is a potential food source for deep dwelling herbivores like the red urchin Strongylocentrotus franciscanus. Little is known about how urchins capture and use drift material. A racetrack flume was used to examine the capture of drift macrophytes of various species and size by S. franciscanus. No species-specific selectivity was found, but urchins caught 100% of small macrophyte pieces. A significant decrease in capture efficiency was noted as drift algal size was increased, probably due to the urchins’ inability to fight current drag acting on pieces with larger surface area
Sea urchin barrens are the result of shifts from kelp-dominated to sea urchin-dominated states on ro...
WOS:000958865300001Macroalgae are becoming dominant on coral reefs worldwide, replacing corals as ke...
Consumer growth and reproductive capacity are direct functions of diet. Strongylocentrotid sea urchi...
The red sea urchin (Strongylocentrotus franciscanus) is a common subtidal herbivore throughout the ...
The red sea urchin (Strongylocentrotus franciscanus) is a common subtidal herbivore throughout the n...
The abundance and composition of drift algae available for intertidal herbivore consumption, or the ...
The abundance and composition of drift algae available for intertidal herbivore consumption, or the ...
Kelps and major contributors to primary production in temperate marine ecosystems. Kelps also make u...
Sea urchins can exert a profound influence on temperate reefs, but the extent of their influence als...
Individuals of Strongylocentrotus purpuratus (Stimpson) are found covered with a variety of debris....
1. Spatially concentrated resources result in patch-based foraging, wherein the detection and choice...
Strongylocentrotus franciscanus, the giant red sea urchins of the Pacific coast of North America, ar...
The purpose of this research was to gain an understanding of how physical and biological factors int...
The sea urchin Lytechinus variegatus is a known grazer of both living and dead tissue of turtlegrass...
The majority of sea urchin species are primarily herbivorous. There are numerous examples where ur...
Sea urchin barrens are the result of shifts from kelp-dominated to sea urchin-dominated states on ro...
WOS:000958865300001Macroalgae are becoming dominant on coral reefs worldwide, replacing corals as ke...
Consumer growth and reproductive capacity are direct functions of diet. Strongylocentrotid sea urchi...
The red sea urchin (Strongylocentrotus franciscanus) is a common subtidal herbivore throughout the ...
The red sea urchin (Strongylocentrotus franciscanus) is a common subtidal herbivore throughout the n...
The abundance and composition of drift algae available for intertidal herbivore consumption, or the ...
The abundance and composition of drift algae available for intertidal herbivore consumption, or the ...
Kelps and major contributors to primary production in temperate marine ecosystems. Kelps also make u...
Sea urchins can exert a profound influence on temperate reefs, but the extent of their influence als...
Individuals of Strongylocentrotus purpuratus (Stimpson) are found covered with a variety of debris....
1. Spatially concentrated resources result in patch-based foraging, wherein the detection and choice...
Strongylocentrotus franciscanus, the giant red sea urchins of the Pacific coast of North America, ar...
The purpose of this research was to gain an understanding of how physical and biological factors int...
The sea urchin Lytechinus variegatus is a known grazer of both living and dead tissue of turtlegrass...
The majority of sea urchin species are primarily herbivorous. There are numerous examples where ur...
Sea urchin barrens are the result of shifts from kelp-dominated to sea urchin-dominated states on ro...
WOS:000958865300001Macroalgae are becoming dominant on coral reefs worldwide, replacing corals as ke...
Consumer growth and reproductive capacity are direct functions of diet. Strongylocentrotid sea urchi...