Ecological and evolutionary effects of selective harvest of non-lactating female ungulates
Authored by Marco Rughetti, Marco Festa-Bianchet, Steeve D Cote, Sandra Hamel
Date Published: 2017
DOI: 10.1111/1365-2664.12863
Sponsors:
National Science and Engineering Research Council of Canada (NSERC)
Platforms:
R
Model Documentation:
ODD
Model Code URLs:
Model code not found
Abstract
1. Female ungulates are often selectively harvested according to their
reproductive status. Because ungulate population growth depends heavily
on adult female survival, it is crucial to understand the effects of
this selective harvest. Recent studies revealed persistent individual
differences in female reproductive potential, with a positive
correlation of reproductive success over consecutive years. If current
reproduction is correlated with lifetime reproductive success, then
selective harvest of non-lactating females should remove individuals of
low reproductive potential, with lower impact on population growth than
random harvest. If lifetime reproductive success has a genetic basis,
selective harvest may also increase the proportion of successful
females.
2. We used an individual-based model to understand the short-term
effects of harvest intensity and hunter selectivity on population
dynamics, accounting for both heterogeneity in reproductive potential
and orphan survival. We also explored the long-term effect of harvest as
a selective pressure on female heterogeneity.
3. Selective harvest of non-lactating females reduced survival to
primiparity compared to random harvest, because of high harvest rates of
pre-reproductive females. After primiparity, however, females of higher
reproductive potential had higher survival under selective than random
harvest. Therefore, the overall effect on population dynamics depends on
a trade-off between a high harvest of pre-reproductive females and a
reduced harvest of reproductive females with high reproductive
potential.
4. Female heterogeneity and the length of the pre-reproductive period
affected this trade-off. Over the short term, high heterogeneity in
reproductive potential of pre-reproductive females made selective
harvest the most effective strategy to maintain a high population growth
rate. With low heterogeneity and little effects of orphaning on juvenile
mortality, however, random harvest had a lower impact on population
growth than selective harvest. Over the long term, selective female
harvest may increase the proportion of successful reproducers in the
population.
5. Synthesis and applications. Selective harvests of non-lactating
females appear justified only if female heterogeneity in reproductive
potential and/or orphan mortality are very high. Because
pre-reproductive females will be subject to intense harvest, selective
harvest may reduce population growth rate compared to random harvest in
species with late primiparity, especially if most pre-reproductive
female normally survive to primiparity. When heterogeneity in
reproductive potential and orphan mortality are low, random female
harvest appears preferable to selective harvest.
Tags
Population dynamics
Population-dynamics
Moose alces-alces
Hunting mortality
Deer
Fitness components
Reproductive effort
Large
herbivores
Maternal characteristics
Female harvest
Individual heterogeneity
Lactating females
Lifetime
reproductive success
Orphaning
Selective hunting
Individual
quality
Mountain goats