D4.3 Climate Change

Calculate the increase in mean global temperature between 1880 and 2010.

.......... °C

Explain how increased carbon dioxide in the air leads to the greenhouse effect.

Which gases have made the most significant contributions to global warming?

A. Water and carbon dioxide

B. Carbon dioxide and methane

C. Methane and nitrous oxide

D. Carbon dioxide and ozone

Discuss the relationship between atmospheric carbon dioxide concentration and global temperatures.

It has been argued that variation in the global mean surface temperature has been caused by variation in energy from the Sun. Analyse whether evidence from the graphs supports this argument.

Explain how increased levels of atmospheric carbon dioxide contribute to global warming.

Suggest reasons for the differences in LAI between the boreal and equatorial zones.

Analyse the data shown in the graph for evidence of a relationship between LAI and El Niño events.

State the trend.

Global ecosystem modelling suggests that most of the change in LAI is due to increases in atmospheric carbon dioxide. Explain how rising atmospheric carbon dioxide (CO₂) concentration could cause the observed change in LAI.

State the effect of elevated CO₂ on net primary production in these young, developing forests.

Outline one benefit of conducting similar FACE experiments in multiple locations.

Evaluate the evidence from the bar chart that increases in carbon dioxide cause increases in carbon storage in young, developing forests.

Describe how human activities have caused average surface air temperatures on Earth to increase.

Calculate the increase in mean global temperature between 1880 and 2010.

.......... °C

Explain how increased carbon dioxide in the air leads to the greenhouse effect.

Calculate the increase in mean global temperature between 1880 and 2010.

.......... °C

Explain how increased carbon dioxide in the air leads to the greenhouse effect.

Which gases have made the most significant contributions to global warming?

A. Water and carbon dioxide

B. Carbon dioxide and methane

C. Methane and nitrous oxide

D. Carbon dioxide and ozone

Discuss the relationship between atmospheric carbon dioxide concentration and global temperatures.

Discuss the relationship between atmospheric carbon dioxide concentration and global temperatures.

It has been argued that variation in the global mean surface temperature has been caused by variation in energy from the Sun. Analyse whether evidence from the graphs supports this argument.

Explain how increased levels of atmospheric carbon dioxide contribute to global warming.

It has been argued that variation in the global mean surface temperature has been caused by variation in energy from the Sun. Analyse whether evidence from the graphs supports this argument.

Explain how increased levels of atmospheric carbon dioxide contribute to global warming.

Suggest reasons for the differences in LAI between the boreal and equatorial zones.

Analyse the data shown in the graph for evidence of a relationship between LAI and El Niño events.

State the trend.

Global ecosystem modelling suggests that most of the change in LAI is due to increases in atmospheric carbon dioxide. Explain how rising atmospheric carbon dioxide (CO₂) concentration could cause the observed change in LAI.

State the effect of elevated CO₂ on net primary production in these young, developing forests.

Outline one benefit of conducting similar FACE experiments in multiple locations.

Evaluate the evidence from the bar chart that increases in carbon dioxide cause increases in carbon storage in young, developing forests.

Suggest reasons for the differences in LAI between the boreal and equatorial zones.

Analyse the data shown in the graph for evidence of a relationship between LAI and El Niño events.

State the trend.

Global ecosystem modelling suggests that most of the change in LAI is due to increases in atmospheric carbon dioxide. Explain how rising atmospheric carbon dioxide (CO₂) concentration could cause the observed change in LAI.

State the trend.

Global ecosystem modelling suggests that most of the change in LAI is due to increases in atmospheric carbon dioxide. Explain how rising atmospheric carbon dioxide (CO₂) concentration could cause the observed change in LAI.

State the effect of elevated CO₂ on net primary production in these young, developing forests.

Outline one benefit of conducting similar FACE experiments in multiple locations.

Evaluate the evidence from the bar chart that increases in carbon dioxide cause increases in carbon storage in young, developing forests.

Describe how human activities have caused average surface air temperatures on Earth to increase.

Describe how human activities have caused average surface air temperatures on Earth to increase.

Explain how increased carbon dioxide in the air leads to the greenhouse effect.

It has been argued that variation in the global mean surface temperature has been caused by variation in energy from the Sun. Analyse whether evidence from the graphs supports this argument.

Explain how increased levels of atmospheric carbon dioxide contribute to global warming.

Explain how increased carbon dioxide in the air leads to the greenhouse effect.

Explain how increased carbon dioxide in the air leads to the greenhouse effect.

It has been argued that variation in the global mean surface temperature has been caused by variation in energy from the Sun. Analyse whether evidence from the graphs supports this argument.

Explain how increased levels of atmospheric carbon dioxide contribute to global warming.

It has been argued that variation in the global mean surface temperature has been caused by variation in energy from the Sun. Analyse whether evidence from the graphs supports this argument.

Explain how increased levels of atmospheric carbon dioxide contribute to global warming.

Explain how energy enters, flows through and is lost from marine food chains.

Explain how energy enters, flows through and is lost from marine food chains.

Explain how energy enters, flows through and is lost from marine food chains.

Describe the evidence that is provided by the data in the table for the harmful effects of rising sea temperatures on corals.

The researchers concluded that there was a threshold coral cover percentage, below which infection rates tended to remain fairly low. Using the data in the table, identify this threshold level.

Suggest a reason for a larger percentage of corals being infected with white syndrome on reefs with a higher cover of corals.

Compare and contrast the data for 1998–1999 and 2002–2003.

Some scientists predict that, if humans continue to produce carbon dioxide at the current rate, the pH of the oceans will become more acidic. Suggest possible effects on the coral reefs.

The map shows the widespread distribution of coral reef ecosystems (indicated by black dots) in the world’s oceans. Death of coral reefs is related to increasing atmospheric carbon dioxide concentrations.

[Source: National Oceanic and Atmospheric Administration, 2021. Where Reef Building Corals Found. [map online] Available at: https://oceanservice.noaa.gov/education/tutorial_corals/media/supp_coral05a.html [Accessed 20 May 2021].]

Explain how increased atmospheric carbon dioxide concentrations can lead to coral death.

Describe the evidence that is provided by the data in the table for the harmful effects of rising sea temperatures on corals.

The researchers concluded that there was a threshold coral cover percentage, below which infection rates tended to remain fairly low. Using the data in the table, identify this threshold level.

Suggest a reason for a larger percentage of corals being infected with white syndrome on reefs with a higher cover of corals.

Compare and contrast the data for 1998–1999 and 2002–2003.

Some scientists predict that, if humans continue to produce carbon dioxide at the current rate, the pH of the oceans will become more acidic. Suggest possible effects on the coral reefs.

Describe the evidence that is provided by the data in the table for the harmful effects of rising sea temperatures on corals.

The researchers concluded that there was a threshold coral cover percentage, below which infection rates tended to remain fairly low. Using the data in the table, identify this threshold level.

Suggest a reason for a larger percentage of corals being infected with white syndrome on reefs with a higher cover of corals.

Compare and contrast the data for 1998–1999 and 2002–2003.

Some scientists predict that, if humans continue to produce carbon dioxide at the current rate, the pH of the oceans will become more acidic. Suggest possible effects on the coral reefs.

The map shows the widespread distribution of coral reef ecosystems (indicated by black dots) in the world’s oceans. Death of coral reefs is related to increasing atmospheric carbon dioxide concentrations.

[Source: National Oceanic and Atmospheric Administration, 2021. Where Reef Building Corals Found. [map online] Available at: https://oceanservice.noaa.gov/education/tutorial_corals/media/supp_coral05a.html [Accessed 20 May 2021].]

Explain how increased atmospheric carbon dioxide concentrations can lead to coral death.

The map shows the widespread distribution of coral reef ecosystems (indicated by black dots) in the world’s oceans. Death of coral reefs is related to increasing atmospheric carbon dioxide concentrations.

[Source: National Oceanic and Atmospheric Administration, 2021. Where Reef Building Corals Found. [map online] Available at: https://oceanservice.noaa.gov/education/tutorial_corals/media/supp_coral05a.html [Accessed 20 May 2021].]

Explain how increased atmospheric carbon dioxide concentrations can lead to coral death.