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BEHAVIORAL ECOLOGY
Chapter 51
Behavior

behavior = everything an animal does and how it
does it
behavioral response to threat =
erect fins

behaviors generate 2 types of questions:
 proximate
= HOW?
 do
environmental stimuli trigger the behavior?
 are there genetic, physiological, and anatomical mechanisms
underlying the behavioral act ?
 ultimate
 does
= WHY?
the behavior have evolutionary significance?
Ethology


ethology = the scientific study of how animals
behave, particularly in their natural environments
questions at the core of ethology:




What is the mechanistic basis of the behavior, including
chemical, anatomical, and physiological mechanisms?
How does development of the animal, from zygote to
mature individual, influence the behavior?
What is the evolutionary history of the behavior?
How does the behavior contribute to survival and
reproduction (fitness)?
Fixed Action Pattern (FAP)




a FAP is a sequence of unlearned behavioral acts
that is essentially unchangeable and, once initiated,
is usually carried to completion
this type of behavior is studied extensively by the
ethologists
a FAP is triggered by an external sensory stimulus
known as a sign stimulus
(ex) the red underside of a male intruder triggers the
male three–spined stickleback fish to attack
FAP Example

the red underside of a male intruder triggers the male
three–spined stickleback fish to attack
Imprinting



imprinting is a type of behavior that includes both
learning and innate components and is generally
irreversible
involves a sensitive period = a limited phase in an
animal′s development that is the only time when certain
behaviors can be learned
this type of behavior is also studied by ethologists
Imprinting Example
In species that
provide parental
care, parent–
offspring bonding
is a critical part of
the life cycle.
During the period
of bonding, the
young imprint on
their parent and
learn the basic
behaviors of their
species, while the
parent learns to
recognize its
offspring
Nature vs. Nurture



behavioral traits are the result of complex interactions
between genetic and environmental factors
thus, in biology, nature vs. nurture is not a debate
biologists study how both genes and the environment
influence the development of phenotypes, including
behavioral phenotypes
Innate Behavior



behavior that is developmentally fixed
under strong genetic influence
examples:
 directed
movements (kinesis, taxis, migration)
 animal signals & communication
 mating & parental behaviors
Directed Movements



kinesis = a simple
change in activity or
turning rate in response
to a stimulus
taxis = an automatic,
oriented movement
toward (+) or away
from (–) some stimulus
bird migration
Signals & Communication


signal = a behavior that causes a change in another animal′s
behavior (aka: display)
 (ex) pheromones – chemical substances in odors
communication = the transmission of, reception of, and
response to signals
 reception can be visual, auditory, chemical (olfactory),
tactile, or electrical
Mating & Parental Behaviors

prairie voles are monogamous
 male
prairie voles form a strong
pair–bond with a single female
after they mate

male prairie voles also help their
mates care for young
 they
spend a great deal of time
hovering over their young, licking
them, and carrying them around
Environment & Behavior

environmental factors, such as the following, can
influence the development of behaviors
 quality
of the diet
 nature of social interactions
 opportunities for learning
Diet


diet can influence
mate choice
(ex) mate choice by
females in some
Drosophila species is
strongly influenced by
the dietary
environment in which
larvae develop
Social Environment


cross–fostered California & white–footed mice adopt some
of the behaviors of their foster parents
this suggests that experience during development can lead
to changes in parental and aggressive behaviors (in these
rodents) that can be passed from one generation to the next
Learning


learning = the modification of behavior based on specific
experiences
types of learning include:




habituation – the loss of responsiveness to stimuli that convey little or no
information
spatial learning – the modification of behavior based on experience with
the spatial structure of the environment
cognitive mapping – an internal representation of the spatial
relationships between objects in an animal′s surroundings
associative learning - ability of many animals to associate one feature of
the environment (a stimulus, such as color) with another (bad taste)



classical conditioning – an arbitrary stimulus is associated with a reward or
punishment
operant conditioning – trial-and-error learning
cognition – the ability of an animal′s nervous system to perceive, store,
process, and use information gathered by sensory receptors (associated
with problem solving)
Evolution of Behavioral Traits


natural selection can result in the evolution of
behavioral traits in populations
one source of evidence = behavioral variation
between and within species



(ex) prey selection & aggressive behavior
when behavioral variation within a species corresponds
to variation in environmental conditions, it may be
evidence of past evolution
natural selection favors behaviors that increase survival
and reproductive success

(ex) foraging & mate choice behaviors
Foraging Behavior


foraging includes eating and any mechanisms an animal uses to
recognize, search for, and capture food items
natural selection should favor foraging behavior that
minimizes the costs of foraging and maximizes the benefits

this is based on the optimal
foraging theory which views
foraging behavior as a
compromise between the
benefits of nutrition and the
costs of obtaining food
Mating Behavior




includes seeking or attracting mates, choosing among potential
mates, and competing for mates
how mating behavior enhances reproductive success depends
on the species′ mating system (promiscuous, monogamous,
polygamous)
mate preferences by females may play a central role in the
evolution of male behavior and anatomy
male competition for mates can reduce variation among males

competition for mates (or other resources like food) may involve
agonistic behavior – a ritualized contest that determines which
competitor gains access to the resource
Game Theory


a way of thinking about behavioral evolution in
situations where the fitness of a particular
behavioral phenotype is influenced by other
behavioral phenotypes in the population
(ex) side-blotched lizards
 the
relative mating success of
each male type is not fixed but
changes with the relative
abundance of the other male
types in the populations
Altruism


some animals behave in ways that reduce their
individual fitness but increase the fitness of other
individuals in the population
inclusive fitness can account for most altruistic social
behavior


inclusive fitness = the total effect an individual has on
proliferating its genes by producing its own offspring and
by providing aid that enables other close relatives, who
share many of those genes, to produce offspring
natural selection that favors this enhancement of the
reproductive success of relatives is called kin selection
Hamilton’s Rule


a quantitative measure for predicting when natural selection
will favor altruistic acts among related individuals
the three key variables in an act of altruism are:

B = benefit to the recipient


C = cost to the altruist


how many fewer offspring the altruist produces
r = coefficient of relatedness


the average number of extra offspring that the beneficiary of an altruistic
act produces
the probability that if two individuals share a common parent or ancestor, a
particular gene present in one individual will also be present in the second
individual
natural selection favors altruism when rB > C
Reciprocal Altruism



altruistic behavior between unrelated individuals,
whereby the current altruistic individual benefits in
the future when the current beneficiary reciprocates
commonly invoked to explain altruism between
unrelated humans; rare in other animals
limited largely to species (such as chimpanzees) with
social groups stable enough that individuals have
many chances to exchange aid
Social Learning




social learning = learning through
observing others
forms the roots of culture = a
system of information transfer
through social learning or teaching
that influences the behavior of
individuals in a population
cultural transfer of information has
the potential to alter behavioral
phenotypes and, in turn, to
influence the fitness of individuals
in many species, mate choice is
strongly influenced by social
learning (mate choice copying)
Sociobiology


sociobiology = the study of social behavior based
on evolutionary theory
main premise is that certain behavioral
characteristics exist because they are expressions of
genes that have been perpetuated by natural
selection