As a high school or undergraduate, Biological Sciences teacher, you can use this set of computer-based tools to teach about natural selection, its role in evolution and climate change as a selective pressure in natural selection.
This lesson plan will enable the students to understand Darwin’s theory of natural selection. They will learn how organisms such as pocket mice and Snowshoe hares respond to changes in the environment and climate. The lesson plan will allow students to understand climate change as a selective pressure in natural selection and how it plays a role in the evolutionary rescue of a species that would otherwise be endangered due to climate change.
Thus, the use of this lesson plan allows you to integrate the teaching of a climate science topic with a core topic in the Biological Sciences.
The tools in this lesson plan will enable students to:
Teacher- contributed lesson plan by Dr Jaspreet Kaur, Maitreyi College and Dr Simran Jit, Miranda House, (University of Delhi), India.
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| Grade Level | High School, Undergraduate |
| Discipline | Biological Sciences |
| Topic(s) in Discipline | Species and Speciation, Adaptation, Genetics, Natural Selection, Selective Pressure, Evolution, Speciation, Evolutionary Hotspots, Genetic Polymorphism, Genetic Variants, Allelic Frequencies, Adaptive Advantage |
| Climate Topic | Climate and the Biosphere |
| Location | Global |
| Language(s) | English |
| Access | Online |
| Approximate Time Required | 30-60 min |
| Share | |
| Resource Download |
Here is a step-by-step guide to using this lesson plan in the classroom/laboratory. We have suggested these steps as a possible plan of action. You may customize the lesson plan according to your preferences and requirements.
Reading (10 mins)
Use the in-chapter reading, “Major Themes in Evolution”, from the National Academies Press (Chapter 3, pgs 11-16) to introduce the topic of
natural selection. Use this resource to explain how Darwin and Wallace proposed the theory of natural selection on variants within a species that explained the process of evolution. Also explain how Mendel’s work explained how favored characteristics are inherited and eventually lead to
speciation.
Interactive video (~10 mins)
Use this interactive resource titled “The Making of the Fittest: Natural Selection and Adaptation” by Howard Hughes Medical Institute to
illustrate an example of natural selection. Explain how a selection pressure of dark coloured surfaces on light coloured pocket mice has resulted
in a natural selection for darker coloured pocket mice that are better camouflaged against predators. Use the questions from this resource to
quiz students on their understanding of the theory of natural selection when a selective pressure is in play.
Video and associated reading (10 mins)
Play the video, “Will Snowshoe Hares Win the Race between Evolution and Climate Change”, by National Geographic to explain how reduced
snowfall due to a warming climate, behaves as a selective pressure on the seasonal coat colour polymorphism of the Snowshoe hares in North
America. Snowshoe hares change coat colour in different seasons- white when the ground is snow covered and brown when it is not-to protect
themselves from predators. Use the resource to stress that that snowshoe hares from areas where the ground is snow-covered or from areas
where the ground is rarely covered with snow through the year, show no seasonal change in coat colour. Emphasize that the areas in between
these regions are where most hares that seasonally change their coat colour can be found. Use the associated reading, “Mills Lab publishes new
article in Science: Research identifies areas where evolution could rescue animals threatened by climate change” by the Mills Lab, University of
Montana, to show that research on the Snowshoe hares has established that these intermediary zones are evolutionary hotspots that show a
higher percentage of non- colour changing brown snowshoe hares due to the ground remaining snow free for longer as a result of a warming
climate. Explain how this is an example of ‘evolutionary rescue’ of a species by selection for a character that affords better protection from
predators in a changing environment, in this case, due to climate change.
Classroom/ Laboratory activity (Optional)- (15-30 min)
This activity can be conducted, if the teacher wishes to extend the students’ understanding of natural selection by their observations of changes in allelic frequencies over successive generations, due to an adaptive advantage for varying selective pressures. Use the simulation, “Natural Selection” by McGraw-Hill Education, to explain to students how the allelic frequencies for a single gene, that codes for body colour, changes through several generations when a varying selection pressure (different environments) is applied.
This exercise will enable students to observe the changes in allelic frequencies over successive generations. They will be able to understand that
if an allele is associated with an adaptive advantage, its frequency will increase in a population and may eventually get fixed while an allele that
does not have an advantageous adaptive trait, will decrease in frequency and may eventually be lost from the population. Finally, extend their
thinking by discussing with the students how a climate related change in environment could play a role in changing the allelic frequencies for the
given gene.
Use this lesson plan to help your students find answers to:
| 1 | Series of videos | Introduce the topic of “Natural and Artificial Selection” through a series of videos by Howard Hughes Medical Institute.
This can be accessed here. |
| 2 | Model/ Simulation (High School) | Use the model/ simulation, “How can natural selection be modeled?” by Glencoe/McGraw-Hill Education to show how mutations get selected for or against, under varying selective pressures for a given population of organisms.
This can be accessed here |
| 1 | Reading; “Major Themes in Evolution” (Chapter 3, pgs 11-16) | Textbook reading from “TEACHING ABOUT EVOLUTION AND THE NATURE OF SCIENCE”, by the National Academies Press |
| 2 | Interactive Video Quiz; “Making of the Fittest: Natural Selection and Adaptation” | Video presented by the Howard Hughes Medical Institute (HHMI Biointeractive) |
| 3 | a. Video; “Will Snowshoe Hares Win the Race between Evolution and Climate Change” b. Associated reading; “Mills Lab publishes new article in Science: Research identifies areas where evolution could rescue animals threatened by climate change” | Video presented by the National Geographic YouTube Channel A summary of the research that supports the above video is provided by the Mills Lab, University of Montana |
| 4 | Simulation; “Natural Selection” | Presented by McGraw Hill Education |
| 5 | Additional Resources | Howard Hughes Medical Institute (HHMI Biointeractive) Glencoe/McGraw-Hill Education |
| Grade Level | High School, Undergraduate |
| Discipline | Biological Sciences |
| Topic(s) in Discipline | Natural Selection, Selective Pressure, Evolution, Speciation, Evolutionary Hotspots, Genetic Polymorphism, Genetic Variants, Allelic Frequencies, Adaptive Advantage |
| Climate Topic | Climate and the Biosphere |
| Location | Global |
| Language(s) | English |
| Access | Online |
| Approximate Time Required | 30-60 min |
| Share | |
| Resource Download |
Here is a step-by-step guide to using this lesson plan in the classroom/laboratory. We have suggested these steps as a possible plan of action. You may customize the lesson plan according to your preferences and requirements.
Reading (10 mins)
Use the in-chapter reading, “Major Themes in Evolution”, from the National Academies Press (Chapter 3, pgs 11-16) to introduce the topic of natural selection. Use this resource to explain how Darwin and Wallace proposed the theory of natural selection on variants within a species that explained the process of evolution. Also explain how Mendel’s work explained how favored characteristics are inherited and eventually lead to speciation.
Interactive video (~10 mins)
Use this interactive resource titled “The Making of the Fittest: Natural Selection and Adaptation” by Howard Hughes Medical Institute to illustrate an example of natural selection. Explain how a selection pressure of dark coloured surfaces on light coloured pocket mice has resulted in a natural selection for darker coloured pocket mice that are better camouflaged against predators. Use the questions from this resource to quiz students on their understanding of the theory of natural selection when a selective pressure is in play.
Video and associated reading (10 mins)
Play the video, “Will Snowshoe Hares Win the Race between Evolution and Climate Change”, by National Geographic to explain how reduced snowfall due to a warming climate, behaves as a selective pressure on the seasonal coat colour polymorphism of the Snowshoe hares in North America. Snowshoe hares change coat colour in different seasons- white when the ground is snow covered and brown when it is not-to protect themselves from predators. Use the resource to stress that that snowshoe hares from areas where the ground is snow-covered or from areas where the ground is rarely covered with snow through the year, show no seasonal change in coat colour. Emphasize that the areas in between these regions are where most hares that seasonally change their coat colour can be found. Use the associated reading, “Mills Lab publishes new article in Science: Research identifies areas where evolution could rescue animals threatened by climate change” by the Mills Lab, University of Montana, to show that research on the Snowshoe hares has established that these intermediary zones are evolutionary hotspots that show a higher percentage of non- colour changing brown snowshoe hares due to the ground remaining snow free for longer as a result of a warming climate. Explain how this is an example of ‘evolutionary rescue’ of a species by selection for a character that affords better protection from predators in a changing environment, in this case, due to climate change.
Classroom/ Laboratory activity (Optional)- (15-30 min)
This activity can be conducted, if the teacher wishes to extend the students’ understanding of natural selection by their observations of changes in allelic frequencies over successive generations, due to an adaptive advantage for varying selective pressures. Use the simulation, “Natural Selection” by McGraw-Hill Education, to explain to students how the allelic frequencies for a single gene, that codes for body colour, changes through several generations when a varying selection pressure (different environments) is applied.
This exercise will enable students to observe the changes in allelic frequencies over successive generations. They will be able to understand that if an allele is associated with an adaptive advantage, its frequency will increase in a population and may eventually get fixed while an allele that does not have an advantageous adaptive trait, will decrease in frequency and may eventually be lost from the population. Finally, extend their thinking by discussing with the students how a climate related change in environment could play a role in changing the allelic frequencies for the given gene.
Suggested questions/assignments for learning evaluation
Use the tools and the concepts learned so far to discuss and determine answers to the following questions:
Use this lesson plan to help your students find answers to:
| 1 | Series of videos | Introduce the topic of “Natural and Artificial Selection” through a series of videos by Howard Hughes Medical Institute. This can be accessed here. |
| 2 | Model/ Simulation (High School) | Use the model/ simulation, “How can natural selection be modeled?” by Glencoe/McGraw-Hill Education to show how mutations get selected for or against, under varying selective pressures for a given population of organisms. This can be accessed here |
| 1 | Reading; “Major Themes in Evolution” (Chapter 3, pgs 11-16) | Textbook reading from “TEACHING ABOUT EVOLUTION AND THE NATURE OF SCIENCE”, by the National Academies Press |
| 2 | Interactive Video Quiz; “Making of the Fittest: Natural Selection and Adaptation” | Video presented by the Howard Hughes Medical Institute (HHMI Biointeractive) |
| 3 | a. Video; “Will Snowshoe Hares Win the Race between Evolution and Climate Change” b. Associated reading; “Mills Lab publishes new article in Science: Research identifies areas where evolution could rescue animals threatened by climate change” | Video presented by the National Geographic YouTube Channel A summary of the research that supports the above video is provided by the Mills Lab, University of Montana |
| 4 | Simulation; “Natural Selection” | Presented by McGraw Hill Education |
| 5 | Additional Resources | Howard Hughes Medical Institute (HHMI Biointeractive) Glencoe/McGraw-Hill Education |
