Transcript Ecology Lecture 8 Ralph Kirby Life History Patterns Growth Development Reproduction Their interaction with other organisms gives rise to the organisms fitness One of the most important aspects.

Ecology
Lecture 8
Ralph Kirby
Life History Patterns
Growth
Development
Reproduction
Their interaction with other organisms
gives rise to the organisms fitness
One of the most important aspects of
fitness revolves around the type of
reproduction stragegy
Sexual or Asexual Reproduction
Asexual reproduction
–
–
–
–
Rapid
If fitness is high, matches organism to environment
If fitness is low, possible extinction
Stress can result in use of sexual cycle to give new gene
combinations
Sexual Reproduction
– Greater energy commitment
Specific organelles
Mating rituals
Feeding offspring
– Cost not equal between sexes
– Can produce new gene combinations able to cope with a
changing environment
– Greater loss due to selection against divergent genotypes in a
static environment
Dioecious
Types of sexual
reproduction
– Most familiar
Sexes are separate individuals
– Greatest diversity of offspring
Hermaphroditic
– Perfect
Male and females organs in
same flower
– Can result in significant
inbreeding
– Monoecious
Separate male and female
flowers
– Reduces but does not
eliminate inbreeding
– Simultaneous hermaphroditic
Both sets of organs at same
time
– Earthworms
– Outbreeding, but maximizes
offspring
– Sequential hermaphroditic
First one sex then the other
sex
– Mollusks, echinoderms and
some plants. Sometimes
animals
– Allows all individual to
participate in both sides of
sexual cycle
Mating Strategies
Different mating stategies have different advantages
and disadvantages
– Monogamy
Seasonal or permanent
–
–
–
–
Allows sharing of cost of raising offspring
Increases survival chances of offspring
Many bird species and some mammalian species
Cheating does occur and has specific advantages to fitness
– Polygamy
More than one mate of one sex for a single individual of the other sex
– Free individual to compete for resources and protect territory
– Better food etc for mates
– Some protection of offspring from competition
– Promiscuity
Greatest number of offspring
Large amount of competition
Female only responsible for offspring in terms of resources
– Poorer survival change for offspring
Sexual Selection
For Monogamy, Polygamy and
Promiscuity
– All involves the selection of a mate and
therefore sexual based selection
– Results in sexual dimorphism
– Selection for secondary sexual characteristics
Peacock versus Peahen
– Large tail feathers, more mating
– Smaller tail feathers, less mating
Deer
– Characters that aid competition such as horns
Humans
– Faster sports car such as a Ferrari
What is the mate really looking for
in sexual selection
Sports car
– Is this just a display
Big red car that makes a lot of noise
– Or does it measure resources
Ferraris are expensive
In most cases the sexually selected
characteristic is an indirect measure of
resources or fitness
– Bigger males have captured more resouces
Inbreeding
If a population is small then inbreeding occurs
– Self-fertilization
Reassortment of genes but no new genes
– A population in terms of genetics always has some
degree of inbreeding
Proportional to size of population
Small population – Large inbreeding index
Inbreeding depression
– Rare recessive alleles become homozygous and are deleterious
– Only when outbreeding between populations occurs
is this avoided
More new gene combinations
Outbreeding depression
– Maladaption to environment such as by colour
Reproductive Effort
Reproductive females invest less energy in
growth, etc
Iteroparousity
– Multiple cycles of reproduction means the organism
must balance growth, maintenance, escaping
predators, defending territory, etc against
reproduction
When – early or late
How many offspring
Semelarity
– One reproductive effort with all resources, then death
– No balance necessary
– Environmental effect can be disastrous
Produce helpless offspring
Number of
offspring
– Altricial
– Mice
Longer period suckling
– Robin
Other bird feeds
Produce more mature offspring
– Bees
Colonial care
– Foxes
Mating pair care
– Humans
Family care
Grandmothers, Grandfathers, Aunts,
Uncles, Brothers and Sisters
Large Number
– Less resources per individual
– More chances of success
Extreme with released eggs and sperm in
fish, etc
Few Number
– More resources per individual
– More chance of accidental loss
Extreme with single offspring over long
period like humans and elephants
Ruderal
Small and rapid lifecycle to invade
new sites. Large dispersal area
Competitive
Stable environment, slower lifecycle
With more resources to growth
Stress-tolerant
Limited resources. Ability to adapt
Food supply is important to
reproductive success
Birds in temperate
regions have a
larger clutch size
than tropical birds
Animals in
temperate regions
have a larger litter
size than those in
tropics
– Food supply with
longer day length?
– Adaption to large
climate variation to
allow rapid
regrowth after a
poor season
– Greater mortality in
winter results in
more food next
spring
Habitat Selection
Filling the available niches
and keeping out
competitors
Exception humans
– All habitats
– Left Africa and adapted the
environment rather than
adapted to the environment
Communities, Guilds and
Competition
Organisms in a given
area make up a
community
– Spatial
– May be subset of whole
community with some
linking characteristics
Organisms competing
for the same resource
make up a guild
In both cases, the effects
can be positive, negative
or neutral
Species numbers in
a community can
vary from very
abundant and
dominant to rare by
essential to the
community
Species diversity
– Species richness
How many species
– Species evenness
How many
individuals
Dominants
– Big trees in a forest
– Removal changes
the character of the
system
Keystone
– Predators
– Removal changes
limits of the system
– Food Web
How
resources
move about
in terms of
predation,
competition,
parasitism,
mutualism,
etc
Really much
more
complex
Communities have a defined physical
structure than is relatively stable
Vertical as well as hroizontal
structure
One community can have more
than one zone
Defining the edges
of communities can
be both complex
and difficult
Statistical
Scale dependent
Changes with time
over the year
Changes with time
over longer periods
– Primary
New environment
– Volcanic island
– Secondary
After disturbance
– Human
– None human
Year
Longer period
Succession works for the whole
system
Over even
longer periods
with climate
changes
Ice Ages
– Expansion
and
contraction of
species in
communities
How environment
can affect
communities
Does clustering
exist?
– Sub-groupings
Associations
Ecotones
Or is there a
continuum?
– No sub-groupings
Probably both