In marine ecosystems, oceanographic processes often govern host contacts with infectious agents. Consequently, many approaches developed to quantify pathogen dispersal in terrestrial ecosystems have limited use in the marine context. Recent applications in marine disease modeling demonstrate that physical oceanographic models coupled with biological models of infectious agents can characterize dispersal networks of pathogens in marine ecosystems. Biophysical modeling has been used over the past two decades to model larval dispersion but has only recently been utilized in marine epidemiology. In this review, we describe how biophysical models function and how they can be used to measure connectivity of infectious agents between sites, test h...
Vibrio aestuarianus is a bacterium related to mortality outbreaks in Pacific oysters, Crassostrea gi...
Benthic suspension-feeders can accumulate substantial numbers of microparasitic pathogens by contact...
Estimating the risk associated with species and pathogen movements involves considerable uncertainty...
In marine ecosystems, oceanographic processes often govern host contacts with infectious agents. Con...
Disease-causing organisms can have significant impacts on marine species and communities. However, t...
The aquaculture industry is a main industry in Norway, and it must be sustainable, i.e. experience l...
Warming waters are changing marine pathogen dispersal patterns and infectivity worldwide. Coupled bi...
Global aquaculture production continues to increase across a variety of sectors, including Atlantic ...
Abstract Predicting spread is a central goal of invasion ecology. Within marine systems, researchers...
Most of epidemiological theory has been developed for terrestrial systems, but the significance of d...
Emerging marine infectious diseases pose a substantial threat to marine ecosystems and the conservat...
Simulation models are useful tools to predict and elucidate the effects of factors influencing the o...
© 2018 Dr Francisca SamsingLarge-scale epidemics are affecting ecologically and economically importa...
Disease effects on host population dynamics and the transmission of pathogens between hosts are two ...
Vibrio aestuarianus infection in oyster populations causes massive mortality, resulting in losses fo...
Vibrio aestuarianus is a bacterium related to mortality outbreaks in Pacific oysters, Crassostrea gi...
Benthic suspension-feeders can accumulate substantial numbers of microparasitic pathogens by contact...
Estimating the risk associated with species and pathogen movements involves considerable uncertainty...
In marine ecosystems, oceanographic processes often govern host contacts with infectious agents. Con...
Disease-causing organisms can have significant impacts on marine species and communities. However, t...
The aquaculture industry is a main industry in Norway, and it must be sustainable, i.e. experience l...
Warming waters are changing marine pathogen dispersal patterns and infectivity worldwide. Coupled bi...
Global aquaculture production continues to increase across a variety of sectors, including Atlantic ...
Abstract Predicting spread is a central goal of invasion ecology. Within marine systems, researchers...
Most of epidemiological theory has been developed for terrestrial systems, but the significance of d...
Emerging marine infectious diseases pose a substantial threat to marine ecosystems and the conservat...
Simulation models are useful tools to predict and elucidate the effects of factors influencing the o...
© 2018 Dr Francisca SamsingLarge-scale epidemics are affecting ecologically and economically importa...
Disease effects on host population dynamics and the transmission of pathogens between hosts are two ...
Vibrio aestuarianus infection in oyster populations causes massive mortality, resulting in losses fo...
Vibrio aestuarianus is a bacterium related to mortality outbreaks in Pacific oysters, Crassostrea gi...
Benthic suspension-feeders can accumulate substantial numbers of microparasitic pathogens by contact...
Estimating the risk associated with species and pathogen movements involves considerable uncertainty...