Using a mechanistic framework to model the density of an aquatic parasite<i>Ceratonova shasta</i>

Robinson, H. Eve; Alexander, Julie D.; Bartholomew, Jerri L.; Hallett, Sascha L.; Hetrick, Nicholas J.; Perry, Russell W.; Som, Nicholas A.

doi:10.7717/peerj.13183

Cited by 2 publications

(1 citation statement)

References 49 publications

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“…dams out, drought, flow manipulations; Alexander et al ., 2016) and is being used to predict the distribution and density of infected annelids and evaluate the effects of managed flow events. A mechanistic model describing factors driving actinospore abundance during the period of juvenile salmon outmigration was also developed to evaluate the effects of flow manipulation (Robinson et al ., 2022). The model describes onset of spore release and inter-annual variation and has potential application as a management tool to assess the impact of proposed flow regimes on disease-induced mortality of juvenile salmonids, a priori .…”

Section: Management and Controlmentioning

confidence: 99%

Ceratonova shasta: a cnidarian parasite of annelids and salmonids

et al. 2022

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The myxozoan Ceratonova shasta was described from hatchery rainbow trout over 70 years ago. The parasite continues to cause severe disease in salmon and trout, and is recognized as a barrier to salmon recovery in some rivers. This review incorporates changes in our knowledge of the parasite's life cycle, taxonomy and biology and examines how this information has expanded our understanding of the interactions between C. shasta and its salmonid and annelid hosts, and how overarching environmental factors affect this host–parasite system. Development of molecular diagnostic techniques has allowed discrimination of differences in parasite genotypes, which have differing host affinities, and enabled the measurement of the spatio-temporal abundance of these different genotypes. Establishment of the C. shasta life cycle in the laboratory has enabled studies on host–parasite interactions and the availability of transcriptomic data has informed our understanding of parasite virulence factors and host defences. Together, these advances have informed the development of models and management actions to mitigate disease.

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Section: Management and Controlmentioning

confidence: 99%