@@ -27,11 +27,16 @@ IBASAM was developed to cover the entire life cycle of S. salar. Thereby process
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@@ -27,11 +27,16 @@ IBASAM was developed to cover the entire life cycle of S. salar. Thereby process
7.[Maturation](Maturation.md)
7.[Maturation](Maturation.md)
8.[Migrations](Migrations.md)
8.[Migrations](Migrations.md)
Growth and survival can be split into specific phases depending on the yearly events of the life cycle in the two time steps (summer and winter). The computational order of life cycle events and processes, together with their length (in days) when relevant, are presented in Table 1.
Growth and survival can be split into specific phases depending on the yearly events of the life cycle in the two time steps (summer and winter). The computational order of life cycle events and processes, together with their length (in days) when relevant, are presented in the figure below.
![cycle](cycle.png)
![cycle](cycle.png)
# Environmental submodels
## Environmental processes
10. River climate (Water temperature and flow)
10. River climate (Water temperature and flow)
11. Ocean climate
11. Ocean climate
## Fishing
Changes in life-history traits have been observed in many exploited fish species over past decades. This led to the ‘fisheries-induced evolution’ hypothesis proposing that fisheries may be causing genetic changes to populations through selective harvesting. The submodel [**fishing**](fishing.md) allows to investigate the relative importance of selective fishing and environmental change scenarios on population.