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Administrational note first. Received from: Antoine, Alaa (El Chiekh Ali), Richard, Mireille, Angie. The rest? All thus far: want quizzes, and one or two midterm exams Remember: 12% of quizzes done; at least one exam (30%)28 Not acceptable for evaluation: attendance, comments Paper - PowerPoint PPT Presentation
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Administrational note first
Received from: Antoine, Alaa (El Chiekh Ali), Richard, Mireille, Angie. The rest?
All thus far: want quizzes, and one or two midterm exams
Remember: 12% of quizzes done; at least one exam (30%)28
Not acceptable for evaluation: attendance, comments
Paper Tell me: your hypothesis. Your timeline. Deadline: one week
from today.
Project Tell me: your hypothesis. Your methodology. Your timeline.
Deadline: one week from today.
Final syllabus will be signed by both of us
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example 12% - done (quizzes)
30% - Final exam
30% - research paper
18% - 5 quizzes (3.6 % each)
10% - homework
Total – 100%
Research paper Due in one week: Hypothesis &
timeline Hypothesis: Climate change
will result in decreased productivity for olive trees in Lebanon
Methodology [how do you plan on answering your question? What readings? What sub questions?] – 5% - due…?
Draft: - 10% - due…? Final: 15% - due…?
Signed: student: _______________________Prof: _______________________
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Documentaries – must see
Thursday December 2nd, 12.30 to 2.00 pm: Microcosmos
Thursday December 9th, 12.30 to 2.00 pm: Food, Inc.
Location for both: Hariri Auditorium
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Remember:
True predatorGrazerParasitesparasitoids
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Prey fitness and abundance Fundamental similarity between (true)
predators, grazers, and parasites is…?
… each reduces either the fecundity or chances of survival of individual prey and may therefore reduce prey abundance.
Studied the Relative growth rates (changes in height) of a # of different clones of sand-dune willow – subjected to herbivory at different intensities, in 1990 and 1991. 1991: also drought -> greater mortality
Studied pied flycatcher
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Prey fitness and abundance
Proportion of males of male pied flycatchers infected amongst groups of migrants arriving in Finland at different times
Males that arrive earlier more successful at finding mates
Later arrivals disproportionately infected with a blood parasite
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Prey – Predator
Need to compare prey populations in the presence and absence of predators
Rely on observation and experiments (both artificial and natural experiments)
What is the impact of the Indian meal moth with and without a parasitoid wasp? – wasp reduced moth abundance to 1/10th
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Prey-Predator
Predators can reduce prey abundance – as we have seen
But they do not necessarily reduce prey abundance
There are subtleties of predation – like what?
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More than just: prey dies, predator
reproduces Interactions with other factors
Grazers and parasites (in particular) make prey more vulnerable to other form of mortality Interaction between competition and parasitism
Infection or grazing more susceptible to predation Red grouse: birds killed by predators in the
spring and summer had more gut nematode parasite
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More than just: prey dies, predator
reproduces Compensation and defense by individual
prey Individual plants can compensate in a variety
of ways for the effects of herbivory Remove leaves other leaves have more sun
more photosynthesis Herbivory attacks plants use stored reserves
– shifting root: shoot ratio Or compensatory regrowth of defoliated plants
when buds are stimulated to develop Or plants can increase their production of
defensive structures or chemicals
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What is the cost/benefit?
Snails grazed on the brown seaweed for a few weeks substantially increased [ ] of phlorotannins reduced snail grazing. [clipping the plants did not have the same effect. Why?] End result: snails eat less. Plants have less eaten. At a cost.
Lifetime fitness of wild radish plants Grazed by caterpillars response induced
protected plants from other herbivores; increased fitness > control
Leaf-damage controls [equivalent amount of biomass removed using scissors] plants had 38% lower fitness than overall controls
Overall control [undamaged]
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What about the populations – not just
the individual From individual prey to prey populations
General rule: predators are harmful to individual prey
What are the effects of predation on a population of prey?! - not always so predictable Impacted / influenced by food availability.
When food is tight, and competition is intense, predation may…
…relieve competitive pressures and allow individuals to survive who may not have been able to 13
True predators
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How do predators forage?
We’ve talked a bit about what happens after a predator finds a prey
What happens to establish that contact?
Different types of foraging
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Different types of foraging Active predators seeking … Sit and wait predators Direct parasite transmission Transmission between free-living stages of a parasite
shed by a host and new uninfected hosts
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Foraging behavior Where to eat?
How to balance risk of predation?
How long to remain in one location?
What about other competing predators?
And what to eat?
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Optimal diet model Optimal diet model:
Any predator will include the single most profitable type of prey in its diet [highest net rate of energy intake] – but then what? How to choose?
Predators with handling times that are typically short compared to their search times should be generalists (broad diet)
Predators with handling times are long relative to their search times should be specialist.
Other things being equal: predator should have a broader diet in an unproductive environment than in a productive environment
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Predator-Prey interactions: a
tendency to cycleAssume: large population of prey; lotka-
volterra model
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Factors Changing Equilibrium
Isoclines The prey isocline increases (r/c) if:
Reproductive rate of the prey (r) increases or capture efficiency of predators (c) decreases, or both: the prey population would be able to support the
burden of a larger predator population
The predator isocline (d/ac) increases if: Death rate (d) increases and either
reproductive efficiency of predators (a) or c decreases: more prey would be required to support the
predator population
Predator-prey cycles in practice
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(c) 2001 by W. H. Freeman and Company
The Functional Response
A more realistic description of predator behavior incorporates alternative functional responses type I response: rate of consumption per
predator is proportional to prey density (no satiation)
type II response: number of prey consumed per predator increases rapidly, then plateaus with increasing prey density
type III response: like type II, except predator response to prey is depressed at low prey density
Disease dynamics and cycles
Cycles are also apparent in dynamics of many parasites
Start with basic reproductive rate
Transmission threshold – for disease to spread: R0 > 1
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Start 0 No predator lives alone
Predators are affected by other predators Competitive reduction in the consumption
rate per individual as predator density increases Mutual interference Increased rate of emigration Prey may hide more
Impacts: fecundity. Growth. Mortality. Of individual predators. Intensifies as predator density increases.
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Crowding with prey too
Prey too are also subject to crowding
Prey crowding: prevents their abundance from reaching as high as level impacts predator abundance
Damping effect on any predator-prey cycle. What does that mean?
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Patches.
Metapopulations. Remember them?
Catch: differences between the patches tend to stabilize the interaction, to dampen any cycles that might exist. Why?
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Predators and prey in patches
Predatory mite (Typhlodromus occidentalis) feeds on a herbivorous mite (Eotetranychus sexmaculatus) which feeds on oranges interspersed amongst rubber balls in a tray
Why?
To create ‘patches’
First introduced a prey population with 20 females per tray, then introduced 2 female predators
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Without its predator, the mites stabilized their pop
With the predator, the predator increased, killed all the prey, then died
Predator-prey dynamics were unstable
What about when patchy?
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In each experimental tray, 4 oranges, half exposed, are distributed at random among the 40 positions in the tray. Other positions are occupied by rubber ball.
Each orange is wrapped with paper and its edges sealed with wax. The exposed area has been divided into numbered sections to facilitate counting the mites.
Then further modified to facilitate dispersal of prey and not predators
Each tray has 120 possible food positions
Shading represents relative density of six-spotted mites at each position…
…and dots indicate presence of predatory mites
A spatial mosaic of habitats allows predators and prey to coexist
Predator-prey patches
Natural population example: Starfish eat mussels Mussels eat planktonic larvae Planktonic larvae continuously colonizing new
areas Clumps of mussels that are heavily preyed
upon – get dislodged by heavy seas – mussels die
End result: same mosaic
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Take home message?
Predator-prey dynamics can take a wide variety of forms
We can understand this variety by seeing it as a reflection of the way in which different aspects of predator-prey interactions combine to play out variations of an underlying theme
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Predation and community structure
Predator-mediated coexistence When predation promotes the coexistence of
species that might otherwise exclude one another Eurasian pygmy owls – only on 4 islands Five islands w/o predatory owl: 1 species (coal tit) w/ owl: coal tit had two larger tit species (willow tit
and crested tit) Why? Coal tit is better competitor; but 2 larger
species less affected by predation from owl; owl reduces the competitive dominance
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Levels of predation
Zebu cattle: no-grazing control and 4 grazing intensities in sites in Ethiopia More species occurred at intermediate levels of
razing then where there was no grazing or heavier grazing
As a generalization: selective predation should favor an increase in species number in a community as long as the preferred prey are competitively dominant, although species numbers may also be low at very high predation pressures
balance
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Quizzes – 4 left
December 1 – chapters 5 and 7
December 10 or 15
January 5
January 19
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homework
http://www.eatinganimals.com/
“Animal agriculture makes a 40% greater contribution to global warming than all transportation in the world combined; it is the number one cause of climate change.”
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Food…Homework
In one week (7 days), write down everything that you consume, including cigarettes, gum, etc.
Include as much locational-information about the product that you know
Be detailed. A “salad” is not enough.
Think about what you are eating
By December 7th
Give me your weekly diet
A one to two paragraph reflection on your eating habits
A one to two paragraph reflection on the relationship between what you eat and ecology
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