The Use of Kernel Density Estimation With a Bio-Physical Model Provides a Method to Quantify Connectivity Among Salmon Farms: Spatial Planning and Management With Epidemiological Relevance

Abstract: Connectivity in an aquatic setting is determined by a combination of hydrodynamic circulation and the biology of the organisms driving linkages. These complex processes can be simulated in coupled biological-physical models. The physical model refers to an underlying circulation model defined by spatially-explicit nodes, often incorporating a particle-tracking model. The particles can then be given biological parameters or behaviors (such as maturity and/or survivability rates, diel vertical migrations, avoida… Show more

“…There were 21 vertical gridded layers with variable spacing from sea bottom to surface, with the highest resolution at the surface and bottom layers, and maximum inter layer spacing of 9% of the depth at mid column. Depth ranged between 3 m and 520 m (Cantrell et al 2018). Daily freshwater river discharge values were used (see Fig.…”

“…Hourly output from the hydrodynamic model was used by an offline particle-tracking model, in which each simulated particle represented a cohort of sea lice larvae. Each of these particles was coupled to a biological model that dictated the maturation and survivorship of the particle based on the salinity and temperature it encountered (Stucchi et al 2011;Cantrell et al 2018).…”

“…The details of the equations governing the biology of the sea lice larvae can be found in (Cantrell et al 2018). In short, particles where released as pre-infectious nauplii, which matured into infectious copepods at a rate that was temperature dependent.…”

“…Details of the methods used to calculate connectivity using the particle tracking releases can be found in Cantrell et al (2018). In brief, the infestation pressure (IP) each farm exerted on every other farm was estimated as follows: a cohort of sea lice was defined as 24 hours of particle pulses, and each of these groups was labelled as a "cohort release day" (CRD).…”

“…Thus, each CRD represents the entire life of a cohort of particles released from all farms on one particular day of the simulation ( Fig. 2 in Cantrell et al 2018).…”

The relevance of larval biology on spatiotemporal patterns of pathogen connectivity among open-marine salmon farms

“…There were 21 vertical gridded layers with variable spacing from sea bottom to surface, with the highest resolution at the surface and bottom layers, and maximum inter layer spacing of 9% of the depth at mid column. Depth ranged between 3 m and 520 m (Cantrell et al 2018). Daily freshwater river discharge values were used (see Fig.…”

“…Hourly output from the hydrodynamic model was used by an offline particle-tracking model, in which each simulated particle represented a cohort of sea lice larvae. Each of these particles was coupled to a biological model that dictated the maturation and survivorship of the particle based on the salinity and temperature it encountered (Stucchi et al 2011;Cantrell et al 2018).…”

“…The details of the equations governing the biology of the sea lice larvae can be found in (Cantrell et al 2018). In short, particles where released as pre-infectious nauplii, which matured into infectious copepods at a rate that was temperature dependent.…”

“…Details of the methods used to calculate connectivity using the particle tracking releases can be found in Cantrell et al (2018). In brief, the infestation pressure (IP) each farm exerted on every other farm was estimated as follows: a cohort of sea lice was defined as 24 hours of particle pulses, and each of these groups was labelled as a "cohort release day" (CRD).…”

“…Thus, each CRD represents the entire life of a cohort of particles released from all farms on one particular day of the simulation ( Fig. 2 in Cantrell et al 2018).…”

The relevance of larval biology on spatiotemporal patterns of pathogen connectivity among open-marine salmon farms

Next‐generation matrices for marine metapopulations: The case of sea lice on salmon farms

Optimal salmon lice treatment threshold and tragedy of the commons in salmon farm networks