Withering Syndrome of Abalone
Abalone withering syndrome is a fatal disease of the abalone digestive organs. Diseased abalone will consume their own body mass to keep from starving.
Related
Fishing diseased abalone to promote yield and conservation
Past theoretical models suggest fishing disease-impacted stocks can reduce parasite transmission, but this is a good management strategy only when the exploitation required to reduce transmission does not overfish the stock. We applied this concept to a red abalone fishery so impacted by an infectious disease (withering syndrome) that stock densities plummeted and managers closed the fishery. In a
Authors
Tal Ben-Horin, Kevin D. Lafferty, Gorka Bidegain, Hunter S. Lenihan
Abalone farm discharges the withering syndrome pathogen into the wild
An intracellular bacterium Candidatus Xenohaliotis californiensis, also called Withering-Syndrome Rickettsia-Like Organism (WS-RLO), is the cause of mass mortalities that are the chief reason for endangerment of black abalone (Haliotis cracherodii). Using a real-time PCR assay, we found that a shore-based abalone farm (AF) in Santa Barbara, CA, USA discharged WS-RLO DNA into the ocean. Several oth
Authors
Kevin D. Lafferty, Tal Ben-Horin
Reduced disease in black abalone following mass mortality: Phage therapy and natural selection
Black abalone, Haliotis cracherodii, populations along the NE Pacific ocean have declined due to the rickettsial disease withering syndrome (WS). Natural recovery on San Nicolas Island (SNI) of Southern California suggested the development of resistance in island populations. Experimental challenges in one treatment demonstrated that progeny of disease-selected black abalone from SNI survived bett
Authors
Glenn R. VanBlaricom
Variable intertidal temperature explains why disease endangers black abalone
Epidemiological theory suggests that pathogens will not cause host extinctions because agents of disease should fade out when the host population is driven below a threshold density. Nevertheless, infectious diseases have threatened species with extinction on local scales by maintaining high incidence and the ability to spread efficiently even as host populations decline. Intertidal black abalone
Authors
Tal Ben-Horin, Hunter S. Lenihan, Kevin D. Lafferty
Related
Fishing diseased abalone to promote yield and conservation
Past theoretical models suggest fishing disease-impacted stocks can reduce parasite transmission, but this is a good management strategy only when the exploitation required to reduce transmission does not overfish the stock. We applied this concept to a red abalone fishery so impacted by an infectious disease (withering syndrome) that stock densities plummeted and managers closed the fishery. In a
Authors
Tal Ben-Horin, Kevin D. Lafferty, Gorka Bidegain, Hunter S. Lenihan
Abalone farm discharges the withering syndrome pathogen into the wild
An intracellular bacterium Candidatus Xenohaliotis californiensis, also called Withering-Syndrome Rickettsia-Like Organism (WS-RLO), is the cause of mass mortalities that are the chief reason for endangerment of black abalone (Haliotis cracherodii). Using a real-time PCR assay, we found that a shore-based abalone farm (AF) in Santa Barbara, CA, USA discharged WS-RLO DNA into the ocean. Several oth
Authors
Kevin D. Lafferty, Tal Ben-Horin
Reduced disease in black abalone following mass mortality: Phage therapy and natural selection
Black abalone, Haliotis cracherodii, populations along the NE Pacific ocean have declined due to the rickettsial disease withering syndrome (WS). Natural recovery on San Nicolas Island (SNI) of Southern California suggested the development of resistance in island populations. Experimental challenges in one treatment demonstrated that progeny of disease-selected black abalone from SNI survived bett
Authors
Glenn R. VanBlaricom
Variable intertidal temperature explains why disease endangers black abalone
Epidemiological theory suggests that pathogens will not cause host extinctions because agents of disease should fade out when the host population is driven below a threshold density. Nevertheless, infectious diseases have threatened species with extinction on local scales by maintaining high incidence and the ability to spread efficiently even as host populations decline. Intertidal black abalone
Authors
Tal Ben-Horin, Hunter S. Lenihan, Kevin D. Lafferty