Reconstructing the effects of fishing on life-history evolution in North Sea plaice Pleuronectes platessa
Authored by Ulf Dieckmann, Fabian M Mollet, Adriaan D Rijnsdorp
Date Published: 2016
DOI: 10.3354/meps11441
Sponsors:
European Science Foundation
European Union
Austrian Science Fund (FWF)
Austrian Federal Ministry of Science and Research
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Growing evidence suggests that fishing may induce rapid contemporary
evolution in certain life-history traits. This study analyzes
fisheries-induced changes in life-history traits describing growth, maturation, and reproduction, using an individual-based eco-genetic
model that captures both the population dynamics and changes in genetic
trait values. The model was successfully calibrated to match the
observed life-history traits of female North Sea plaice Pleuronectes
platessa around the years 1900 and 2000. On this basis, we report the
following findings. First, the model indicates changes in 3 evolving
life-history traits: the intercept of the maturation reaction norm
decreases by 27\%, the weight-specific reproductive-investment rate
increases by 10\%, and the weight-specific energy-acquisition rate
increases by 1\%. Together, these changes reduce the weight at
maturation by 46\% and the asymptotic body weight by 28\% relative to
the intensification of fishing around 1900. Second, while the maturation
reaction norm and reproductive-investment rate change monotonically over
time, the energy-acquisition rate follows a more complex course: after
an initial increase during the first 50 yr, it remains constant for
about 30 yr and then starts to decline. Third, our analysis indicates
that North Sea plaice has not yet attained a new evolutionary
equilibrium: it must be expected to evolve further towards earlier
maturation, increased reproductive investment, and lower adult body
size. Fourth, when fishing continues in our model 100 yr into the
future, the pace of evolution slows down for the maturation reaction
norm and the rate of energy acquisition, whereas no such slowing down is
expected for the rate of reproductive investment.
Tags
phenotypic plasticity
Climate-change
General-model
Reference points
Fisheries-induced evolution
Size-dependent mortality
Maturation
reaction norms
Solea-solea l.
Population-productivity
Selective mortality