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Living in a Sea of Waves
Living in a Sea of Waves We often take for granted that when we speak the sound will travel to whomever we are chatting with and that we can see objects around us. In both cases waves are carrying the information that our ears and eyes are able to intercept, and our brain is able to process. When we start to think more about waves it turns out that they are all around us. Some we would consider beneficial such as the sound waves and electromagnetic waves in the visible spectrum that allow us to hear and see. Others would be considered problematic such as the waves that carry the destructive energy of an earthquake or large tsunamis that can wipe out coastal areas. The sun, like other stars, emits the entire spectrum of electromagnetic waves containing energy in all directions which provides energy for life on earth to flourish, but it can also pose a threat. Solar flares are large emissions from the sun that send large amounts of energy towards the earth all at once. Sometimes these emissions interact with the earth’s magnetic field to create auroras such as the aurora borealis that can be seen at night. But if the sun’s emissions are large enough, they are called coronal mass ejections (CMEs) and the electromagnetic energy they emit can interfere with transformers, satellite communications, and electronic devices. Living in a Sea of Waves
Reflect on the ways that different types of waves impact your daily life and review the Discussion resources.
Then, discuss the following.
- Choose one type of wave to research that is different from your classmates and share your findings with the class. Discuss how it impacts our lives, and if these impacts are positive or negative.
- The earth’s magnetic field and atmosphere help protect it from solar radiation, but they cannot protect the planet completely from larger CMEs. The largest CME on record happened in 1859 and is called the Carrington Event. During this event telegraph communications were disrupted. Do some research on CMEs and discuss how a large one would impact your life and your community. Is there anything you can do to be better prepared for a CME event?
- As we learn more about our universe, we see that humans will not be able to live on the earth forever. At some point the sun will die and make the earth uninhabitable. Don’t worry, it is not forecasted to happen for another 5 billion years. The earth faces other dangers from space such as asteroid impacts and gamma ray bursts (from the death of larger stars) to name just a couple. Humans also pose a threat to their own existence with climate change. A runaway greenhouse effect could make the earth more like Venus. This is one argument for promoting space travel and developing technology for colonizing other planets.
- Do you think more effort and resources should be put into colonizing the moon and other plants? Why or why not?
- If you were able to be part of a mission to go to Mars, or another planet, would you want to participate? Would it make a difference if you knew you would never be returning to earth?
- Some of the threats to the earth cannot be prevented, but things like climate change can be altered by how humans behave. Should we be putting more resources into understanding how climate change can impact our planet and take steps to prevent it? Why or why not? Living in a Sea of Waves
Topic 2: Food Chains
Most biological energy on Earth can be traced back to one single source: the sun. Plants and blue-green algae use photosynthesis to trap the electromagnetic wave energy generated by the sun, transforming it into chemical energy in the form of food for themselves and for other creatures that eat them.
Sounds simple so far, right? In an effort to simplify the way you think about creatures and their energy relationships, you often use food chains that show a very clear link between creatures and the things that eat them. Here is one example:
Rose bush > Beetle > Robin > Domestic Cat > Coyote
Organisms are connected by an arrow that points toward the creature consuming it.
While this kind of chain is great for visualizing how some creatures eat, it is not very realistic since most creatures eat a variety of foods. Most robins, for example, like to eat many kinds of insects, not just beetles. It also does not take into account other organisms that contribute like parasites, detritivores, or decomposers.
For additional information, review the food chains and food webs resource.
To demonstrate how real creatures behave and to better portray the flow of energy through an ecological community, food webs are often used as described within the energy flow section of the module above.
Please respond to the following questions throughout the week.
- Provide an example of a food chain in the area where you live.
- Humans are parts of food chains and food webs, too. Where on a food web would you typically find humans (near the bottom with the producers, at the top with carnivores, or somewhere in between)? Explain.
- What are some advantages of being part of a food web rather than a food chain?
For Questions 4–6, use the following food web for Lake Michigan:
Lake Michigan Food Web. (2016). Retrieved from https://www.glerl.noaa.gov//pubs/brochures/foodweb/LMfoodweb.pdf
To see this PDF, you will need to download the free Adobe Reader.
- In the Lake Michigan food web, is it possible to identify the most important producer? Why or why not?
- Provide at least two types of impacts that humans could have on this food web.
- Read the description of the sea lamprey on page 2 of the food web. This species is described as non-native. They reached the lake through canals and locks built in the 1800s.
- What challenges could occur within a food web when a new predator like this is introduced into an ecosystem?
- Do you think steps should be taken to eradicate this species from the food web? Explain why or why not? If so, what steps can be implemented? Living in a Sea of Waves