Abstract
For successful evaluation of the overall effects of salmon louse infestation on brown trout population dynamics, it is crucial to have a realistic understanding of how lice infestation distributions are generated and how they should be interpreted. Here, we simulated the potential effects of spatio-temporal variance in lice larvae densities, temporal variance in sea trout marine migration timing and spatial variance in marine habitat use on lice infestation distributions. We show that, when sampling populations with individual variation in marine behaviour, e.g. from post-smolts to veteran migrants, we must expect multi-modal mixture lice infestation distributions. Applying standard statistical distributions, such as the Poisson, negative binomial or zero-inflated distributions, can be too simplistic and give biased results. Temporary increases in salmon lice load in a given area may have inconsistent effects among individuals of a population and may be critical for vulnerable groups such as post-smolts, dependent on timing. For many analyses, it will be necessary to resolve the contributions from groups of fish with different lice infestation expectations due to spatio-temporal differences in habitat use within the overall mixture distribution. Another consequence is that different data sources, obtained by different methods or sampled at different locations and periods, must be expected to give different lice infestation distributions, even when sampling the same population. We also discuss additional factors that may complicate the interpretation of salmon lice infestation distributions on sea trout, such as lice-induced mortality, and behavioural changes, such as premature return to less saline water for delousing.
Highlights
Brown trout Salmo trutta is an adaptable species found in a wide range of habitats; from streams, rivers and lakes in freshwater to marine coastal areas
High lice infestation pressure from salmon farms has been shown to increase the number of lice on wild salmonids (Serra-Llinares et al 2014, Shephard et al 2016, Vollset et al 2018a), and is especially pertinent for many sea trout populations (Thorstad & Finstad 2018, Nevoux et al 2019) because sea trout typically remain in the same coastal areas where farms are situated during their stay in the marine habitat
Salmon louse infestation distributions were simulated under 3 conditions: (1) a sea trout population with a homogeneous infestation pressure; (2) a sea trout population exposed to a temporally varying lice infestation pressure; (3) a sea trout population consisting of sub-populations experiencing different lice infestation pressures
Summary
Brown trout Salmo trutta is an adaptable species found in a wide range of habitats; from streams, rivers and lakes in freshwater to marine coastal areas. The most beneficial strategy varies among individuals and populations (Thorstad et al 2016, Nevoux et al 2019) Populations can change their migratory habits when major environmental factors such as water flow change (Sandlund & Jonsson 2016), as can the tendency for marine migration versus residency (Solomon 2006). Salmon lice are external parasites occurring naturally on salmonids in the marine environment They remove mucus, skin and tissue from the host. High lice infestation pressure from salmon farms has been shown to increase the number of lice on wild salmonids (Serra-Llinares et al 2014, Shephard et al 2016, Vollset et al 2018a), and is especially pertinent for many sea trout populations (Thorstad & Finstad 2018, Nevoux et al 2019) because sea trout typically remain in the same coastal areas where farms are situated during their stay in the marine habitat. Salmon lice had the largest negative impact on sea trout populations among anthropogenic impact factors (Anon. 2019), affecting 91% of the classified populations
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