lecture 25- impacts of anthropogenic climate change on ecosystems 2

Question 1

What is a common migratory response to warming climates?

Answer 1

Climbing to higher elevations in response to warming.

Many populations now isolated on “mountaintop islands”.

Question 2

Explain the changes in biotic interactions between caribou and shrubs.

Answer 2

Increased shrub growth threatens caribou.

– Shrubs crowding out lichens (key winter food for caribou)
– Shrubs collect snow; deep snow makes it hard for caribou to reach lichens beneath
– Increasing shrubs also speeds up rate of warming:
* Snow trapped by shrubs insulates soil, keeping it warmer over winter.
* Arctic microbes increase the processing of organic matter in the soil, making soil even better for shrubs, further increasing the shrubs’ capacity to warm the soil.

Question 3

Explain the changes in biotic interactions between polar bears and brown bears.

Answer 3

Polar bears are forced to move to terrestrial systems due to climate change. Ecology of brown bears in the arctic offers evidence that these habitats are unlikely to provide sufficient food for polar bears

Brown bears have been shown to displace polar bears from feeding sites.

Question 4

Explain the changes in biotic interactions between birds and caterpillars.

Answer 4

The timing between the bird’s nesting period, the caterpillar stage, leafing, and flowering need to overlap for the species to thrive.

Changes in timing differ from species to species, so ecological interactions are disrupted.

• more leaf production
• caterpillars lay their eggs sooner due to spring coming faster
• small period of overlap for the bird nesting period

Question 5

Explain the changes in biotic interactions between zooplankton and predators.

Answer 5

Zooplankton are important in lake ecosystem- they are the main herbivores and are important food resources for fish. Zooplankton can change their bodies to adapt to changes.

CO2 levels reduce the daphnia’s ability to perceive the presence of predators (decrease in defense expression)- if they can’t smell them, they can’t have morphological change so it will lead to worse levels of defensiveness.

Increased CO2 levels can reduce the population because they cannot enact the defense when faced with their predators.

Question 6

Explain the changes in biotic interactions between plants and herbivores.

Answer 6

Elevated [CO2] reduces plant nutritional quality for herbivores by increasing leaf carbon-nitrogen ratios.

Consequently, herbivores will need to consume more plant tissue to meet their nutritional demands.

Question 7

What are the eco-evolutionary feedbacks that impact
selection on plant traits?

Answer 7

1.) Higher temps -> higher insect growth rates, increasing plant damage

2.) Warmer winter temps reduce overwinter mortality among herbivores and increase foraging during prolonged growing seasons

3.) Climate change may disrupt herbivorepredator interactions

Question 8

Explain the changes in biotic interactions between plants and pollinators.

Answer 8

• Droughts have a negative feedback effect on flower size.
• Climate change and elevated Co2 levels have a negative feedback effect on pollen production.
• Elevated Co2 levels have a negative feedback effect on nectar.

All of these impact pollinators.

Question 9

Explain the changes in biotic interactions between plants and mycorrhizal associations.

Answer 9

Elevated CO2 has a positive influence on plant-mycorrhizal relationships.

With elevated CO2, potentially positive impact on plants = increase PS, which increases the nutrients they need.

It is not the CO2 that is limiting, it is the soil nutrients- we can get more nutrients with more CO2.

Potential that plants with fungi see a net positive impact.

Question 10

What are the changes in disturbance regimes for wildfires, droughts, and insects?

Answer 10

Climate change increases the risk of fire in areas where decades of total fire suppression have resulted in the buildup of dead fuels.

Wildfires increasing in frequency, size, and season length:
– Longer, more intense summer droughts stressing trees
– Stressed trees are more susceptible to attacking beetles, which leave standing dead fuels in their wake

Question 11

What are the changes in disturbance regimes for arctic wildfires and shrubs?

Answer 11

Wildfires consume lichens. The tundra used to never have fires. As we have more woody biomass increase in the tundra = more fire.

Climate change expands shrubs in the arctic, which has a negative impact on lichen (shading them, cant PS). Supporting the shrubs, which are declining in lichens and caribou.

Also, facilitate rapid increases in shrub cover through nutrient release and soil warming.

Question 12

What are the changes in disturbance regimes for invasive desert grasses?

Answer 12

Outcompeting native grasses because they thrive under high CO2 conditions.

Invasive grasses are out-competing native grasses.

Question 13

What are the changes in disturbance regimes for the mountain pine beetle?

Answer 13

Beetles prefer mature lodgepole pine. Because of fire suppression, we have lots of mature pine.

Beetle larvae are killed by severe (- 40oC) winter cold snaps - survival is enhanced by warmer winters (climate change).

With beetle: forests are a source of CO2

Creates a positive feedback loop:
- decomposition releases CO2
- temperatures rise
- increased beetle reproduction
- pine beetle infestation kills trees

Question 14

Why have mountain pine beetles declined?

Answer 14

1- The amount of available habitat has diminished, as the beetle has already destroyed most of the mature lodgepole pine.

2- The rate of spread in other areas of the Interior has been somewhat varied, due to diverse terrain and forests with greater diversity of timber species.

Question 15

What happens when species cannot adapt to new environmental conditions or move somewhere else?

Answer 15

• Decreases in populations
• Extirpation or even extinction

Question 16

For which species is there evidence for their population declines due to climate change?

Answer 16

1- Plants
2- Insects
3- Marine
4- Birds
5- Mammals

Question 17

What is the evidence for the decline in plants?

Answer 17

The decline in tree density, species richness, and tree cover due to changes in temperature.

Question 18

What is the evidence for the decline in insects?

Answer 18

Drought limits the growth of milkweed and increases the frequency of catastrophic wildfires.

Temperature extremes trigger earlier migrations before milkweed is available.

Question 19

What is the evidence for the decline in marine populations?

Answer 19

Seagrass meadows are one of the most productive ecosystems in
the world ranked ahead of coral reefs.

Sea level rise -> increased coastal water depths, changes in tidal variation, increased seawater intrusion.

Decrease in populations due to more highly saline conditions and increased water depth and habitat loss due to hurricanes.

Question 20

What is the evidence for the decline in birds?

Answer 20

Food for provisioning nestlings peaks early in the season.

Question 21

What is the evidence for the decline in mammals?

Answer 21

Summer sea ice in the Arctic expected to continue to decline, and this poses serious threat to continued persistence of southern Beaufort Sea population of polar bears.

Question 22

What is the first known extinction of a land animal due to climate change?

Answer 22

Golden toad.

Reproduction synchronized to precipitation patterns. Shift to a dryer climate, led to a mismatch with reproductive cycles.

Question 23

What is the first extinction of a mammal due to climate change?

Answer 23

Rodent in Australia- Bramble Cay melomys.

Habitat = dense vegetation near the shoreline. Sea level had risen = habitat loss = extinction.