warm up #4

Warm Up #4The Giant Panda, which lives in China and eats only

bamboo, is on the verge of extinction due to a variety of factors.

• How are humans contributing to the Panda’s extinction?

• How are other animals contributing to the Panda’s extinction?

• How is the Panda contributing to its own extinction?

Animal Populations

Laying the Land• Niche – conditions a

species needs in order to survive and reproduce in an ecosystem▫ Conditions = physical

(temperature) and chemical (salinity, acidity)

• IMPORTANT to study:

▫ Human impact effects▫ Species interaction▫ Extinction rates

The Lockett NicheIn our class, 34 desks

• Fundamental Niche – full range of resources and conditions a species can use▫ You can sit at ANY desk

• Realized Niche – the part of the fundamental niche a species TENDS to occupy▫ The desk you normally sit at

▫ Why? Competition for resources

Why the Panda is killing itself• Generalist species – can

survive in a large variety of niches (flies, cockroaches, mice, etc)

• Specialist species – can only survive in a very particular niche/environment (Panda)

• Less tolerant = less likely you are to survive

Other threats to the Cuteness• Non-Native Species –

species introduced to a niche by humans

• Competition for resources (food, light, shelter, etc)

• Non-Native species usually more Generalist (can tolerate more)

• WHAT’S A PANDA TO DO??

The Grossness of the Cockroach

• Literally eats anything (including electrical cords and glue)

• Can breed anywhere (except polar regions)

• 1 cockroach 10 million babies in one year.

• One species can survive frozen for 48 hours

• Can survive nuclear bomb

Quick Quiz #2 In a hypothetical world where all things are

possible, you are now a cute Panda and want to survive:

•You are an extreme specialist species, how would you change that?

•If a non-native species came into your niche, how would you adapt?

Adaptation to a Competitor

Adaptation Strategy Plan AScenario: Non-native

species thrive in cold and moderate temperatures

1. Directional Selection – reproductive rates better on one side of curve than other

Solution: You learn to love the heat

Adaptation Strategy Plan BScenario: Non-native

species loves either really hot or really cold climates

2. Stabilizing Selection – highest reproduction = center of curve

Solution: You, as a cute panda, adapt to living in moderate climates

Adaptation Plan C

Scenario: Non-native species thrives in moderate temperatures

3. Disruptive Selection – high reproduction at BOTH extremes

Solution: You either get a jacket or embrace sweating

Warm Up #5Scenario: You are officially a honey-badger…and you just

don’t care. Use your prior knowledge of how bad-ass the honey-badger is to answer the following questions:

• Would you classify the honey-badger as a specialist species or a generalist species? Why would you say this?

• If the honey-badger was a non-native species, would any other species stand a chance? Why?

• Say you try to stand against the honey-badger’s awesomeness. You discover the honey-badger only eats small and medium sized larva. Show, on a bell curve, how you would adapt, showing the type of selection as well.

Avoiding Competition

Review…with some new• Directional – shifting

toward ONE extreme

• Stabilizing – shifting toward the MIDDLE

• Disruptive – shifting toward BOTH extremes

This is character displacement – physical/behavioral changes for more stuff

Competition is DramaTo avoid drama…

• Resource Partitioning – dividing resources amongst competing species

• Use at different times, different ways, different places

Example: Diurnal vs. Nocturnal animals (hawks vs. owls)

“I WANT TO WATCH FOOTBALL”

“I WANT TO WATCH DESPERATE HOUSEWIVES!!”

More Cowardly Avoidance (but also kind of BA)

• Camouflage – resembling the abiotic factors around it

• Chemical warfare – using poisonous/odorous chemicals

• Coloration – certain colors = danger

• Mimicking – Looking like something more dangerous

Predator-Prey RelationshipNegative Feedback Loop

1. Predators kill prey (obviously)

2. More prey die = less food for predators

3. Predators die (less food)

4. Prey start to repopulate, cycle repeats

A Predator-Prey Fad Diet• Parasitism – one species

(parasite) gets nourishment by living on another species (host)

• Smaller than host, weakens host, rarely kills it

• Ex. Virus

• Tapeworm Diet – ingest tapeworm, eats contents of stomach (along with actual stomach)

Symbiotic Relationships [less gross]Symbiotic Relationship –

interaction between two species

Mutualism – both species benefit (+, +)

• Normally 1 species is protected, the other gets food

Commensalism – one species benefits, the other is unaffected (+, 0)

• Shark (0) and Pilot Fish (+)

Quick Quiz # 3•Describe what resource partitioning is,

and give a real life example.

•How is mimicking an effective way to avoid being eaten?

•Why do you think a parasite rarely kills its host?

Warm Up #6•What is the difference between mutualism and

commensalism?

•Describe how an owl (nocturnal) and a hawk (diurnal) use resource partitioning.

•Nemo is a cute saltwater clownfish. A competitive (and not as cute) fish species thrives in moderate levels of salinity. Show, using a bell curve, show how Nemo would respond to this invasive species. What type of selection is this?

Ecological SuccessionThe E.N.D. or the Beginning?Either way, it’s so 2000 and late….

Ecological Succession

Heidi Montag’s Ecological Succession• Ecological Succession –

gradual, predictable changes in species composition

Ex. Heidi Montag Hollywood pressures = Plastic Heidi

• Primary – establishing life where life NEVER existed

• Secondary – RE-establishing life after a disaster

When the World was Young• Atmosphere:

▫ Hydrogen CYANIDE▫ Carbon MONOXIDE▫ Hydrogen SULFIDE

• Earth Cools (water)

• Miller-Urey Experiment – organic matter from gasses of Earth

• Asteroids Archaebacteria

Primary Succession Steps• Pioneer Species – first species

to inhabit area (ballers)▫ Lichens (fungi + algae)▫ FORMS SOIL

• Early Successional – small life forms, generalists

• Mid Successional – larger, more specific life

• Late Successional – larger, diverse species

• Wilderness – most diverse, large species

Plant Evolution During Succession

• Early – reproduce quickly, close to ground, survive harsh conditions (facilitation)▫ Lichens

• Mid – less hardy plants, larger, reproduce slowly, need more soil (inhibition)▫ Shrubs, grasses

• Late – larger, slow reproducing, very stable (tolerance)▫ Trees

New York Without People

Secondary Succession – Starting PointCatastrophic – sudden change in

ecosystem

• Natural – disease, flood, volcanic eruption

• Human Caused – toxic waste, overgrazing, urbanization

Gradual – slow, steady change in ecosystem

• Natural – climate change, evolution

• Human Caused – soil/air pollution, “pest” elimination, non-native species

Fire…It’s Complicated, Okay.Fire = thought of as bad

• Wipes out entire ecosystems if uncontrolled

CONTROLLED fires = a good thing (Yosemite)

• Prevents build up of flammable shrubs, allows trees to germinate

Quick Quiz #3•What do pioneer species do in primary

succession?

•Describe the plants living in the later stages of ecological succession. What do they look like? How efficiently do they reproduce? Give some examples.

•Give an example of a catastrophic human-caused environmental disaster we have discussed in class. How did this disaster negatively damage the ecosystem and how the environment recovered (if at all).