Climate in Crisis - Look Inside by Nomad Press

CLIMATE IN CRISIS Changing Coastlines, Severe Storms, and Damaging Drought

Carla Mooney

Illustrated by Traci Van Wagoner

Interested in primary sources? Look for this icon.

You can use a smartphone or tablet app to scan the QR codes and explore more! Cover up neighboring QR codes to make sure you’re scanning the right one. You can find a list of URLs on the Resources page. If the QR code doesn’t work, try searching the internet with the Keyword Prompts to find other helpful sources. climate change

Contents

Timeline. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . vi Introduction

Our Changing Climate. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Chapter 1

Severe Storms and Extreme Weather. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Chapter 2

Food and Water Scarcity.. . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 Chapter 3

Migration and Loss of Habitats.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51 Chapter 4

Rising Coastlines. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 72 Chapter 5

Disease and Human Health.. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 92 Glossary  Metric Conversions Resources  Selected Bibliography  Index

Introduction

Our Changing Climate

What makes today’s climate change different from climate change in the past?

Scientists recognize that the climate change we see today is caused primarily by human activity. We use lots of energy in our daily lives and that energy has a cost—the increase of greenhouse gases in our atmosphere, which is leading to a rapidly changing global climate.

In 2018, a 15-year-old Swedish student named Greta Thunberg (2003– ) became famous when she skipped school to protest climate change. After witnessing a summer of wildfires and heatwaves in her country, Thunberg grew increasingly concerned about the impact of climate change on the earth and everyone who lives on it. She was infuriated that the adults in charge appeared to be doing very little to slow or stop climate change.

Thunberg decided to take action. She went to the Swedish parliament to protest. She held a sign that said, “School Strike for Climate” in Swedish. At the time, she was one girl, standing alone to bring attention to climate change. News of Thunberg’s activism quickly spread around the world. Thunberg’s passion for creating awareness about Earth’s changing climate was easy to see, despite her young age.

CLIMATE IN CRISIS | INTRODUCTION

She argued that young people would suffer the most if world leaders did not do something now to address climate change. She also pointed out that climate change was no longer a problem that could be pushed off until the future. Living creatures in certain parts of the world were already suffering from the effects of climate change. Thunberg’s message resonated with millions of adults and young people. During the following weeks and months, many people joined her and organized climate strikes in countries worldwide. As her recognition grew, Thunberg was invited to speak at numerous global climate change events. At the 2019 World Economic Forum in Switzerland, she warned the audience that, “Our house is on fire.”

Thunberg attends the 2019 European Economic and Social Committee event in Brussels, Belgium.

“We are facing a disaster of unspoken suffering for enormous amounts of people. And now is not the time for speaking politely or focusing on what we can or cannot say. Now is the time to speak clearly. Solving the climate crisis is the greatest and most complex challenge that Homo sapiens have ever faced.” She urged the audience to take action against climate change. Today, Thunberg continues to work tirelessly to make a difference in the world and raise awareness about climate change.

PRIMARY SOURCES Primary sources come from people who were eyewitnesses to events. They might write about the event, take pictures, post short messages to social media or blogs, or record the event for radio or video. The photographs in this book are primary sources, taken at the time of the event. Paintings of events are usually not primary sources, since they were often painted long after the event took place. What other primary sources can you find? Why are primary sources important? Do you learn differently from primary sources than from secondary sources, which come from people who did not directly experience the event?

Our Changing Climate

AN IMPORTANT TOPIC Watch Greta Thunberg give her “Our House is on Fire” speech at the World Economic Forum 2019. Why is it important for young people to speak out on topics such as climate change? How might their perspectives be different from those of older people?

Thunberg house fire

Climate change is all over the news. Activists like Greta Thunberg organize protests and events to raise awareness about climate change. Scientists talk about global warming, greenhouse gases, and the ozone layer. Sometimes, all of the technical jargon can make climate change seem overwhelming and confusing. What is climate change? What causes it? And why is climate change important to you? You’ve probably already experienced some of the effects of climate change firsthand without even knowing it. Have you noticed that seasons feel different from year to year? Does your region get stronger storms and more extreme weather than it used to? Do you have to take steps to conserve water because of drought? Is there more flooding in your area than there used to be? Are some local animals and plants losing their habitats and migrating to new regions? All of these could be signs of Earth’s climate crisis.

CLIMATE IN CRISIS | INTRODUCTION

CLIMATE VS. WEATHER Before we dive into all of the ways climate change affects you and your fellow humans, let’s first take a look at the difference between weather and climate.

Weather is what happens in the atmosphere every day. Is it rainy or sunny outside? Is the temperature hot or cold? Weather can change minute to minute, hour to hour, and day by day. For example, it might be sunny in the morning and raining in the afternoon in your neighborhood. Weather also varies in different places in the world. On any given day, the weather in Florida is often different from the weather in Alaska. Most weather occurs in the troposphere, which is the part of Earth’s atmosphere closest to Earth’s surface.

SCIENTIFIC METHOD The scientific method is the process scientists use to ask questions and find answers. Keep a science journal to record your methods and observations during all the activities in this book. You can use a scientific method worksheet to keep your ideas and observations organized. Question: What are we trying to find out? What problem are we trying to solve? Research: What is already known about this topic? Hypothesis: What do we think the answer will be?

Equipment: What supplies are we using? Climate, on the other hand, means the usual weather or weather pattern of an area. Climate can vary Method: What procedure are we following? from place to place. For example, Arizona’s climate Results: What happened and why? is typically hot and dry. Seattle’s climate tends to be cooler and wetter. Climate can also vary by season in the same place. Your town might CLIMATE CLUES be hot and humid in the summer months and cold and Scientists use satellites and snowy in the winter. surface instruments to monitor

the natural events and human

Planet Earth also has a activities that affect climate. climate. Earth’s climate is the combination of all the climates around the world. If Earth’s global climate changes, regional climates also change. The weather changes, too. For example, as Earth’s climate warms, scientists predict more hot summer days in many regions and fewer frigid days.

Our Changing Climate

WHAT IS CLIMATE CHANGE? Watch this video about a man walking a dog to better understand the difference between climate and weather. What are some other images that can be used to show this phenomenon?

weather climate dog

When a region’s usual weather changes over time, that can be a sign of climate change. Some of those changes might include average temperatures, the amount of rainfall, and the intensity of storms in that area. While weather changes day to day, climate change is slower. It can take hundreds or thousands of years to change. Just as a region’s climate can change, Earth’s climate can also change. These changes might be an increase or decrease in Earth’s typical temperatures, a change in how much rain or snow falls, or a change in where rain and snow fall on the planet. A certain amount of climate change is normal. Earth’s climate is always changing. During its millions of years of history, there have been times when Earth’s climate has been warmer or colder than it is now.

CLIMATE IN CRISIS | INTRODUCTION

Earth’s climate has changed when it received more or less sunlight, the sun’s intensity varied, the atmosphere changed, or as Earth’s surface changed. Shifts in Earth’s climate have generally lasted thousands to millions of years. So, what’s the big deal? If Earth’s climate is always changing, why do we sound the alarm now on climate change?

Scientists who study Earth’s climate have noticed that our planet is getting warmer much faster than in the past. Earth’s temperature has increased about 1 degree Fahrenheit (.56 degrees Celsius) in only 100 years. This swift increase in Earth’s surface temperature is called global warming. One degree might not seem like a big deal. But small changes like this can have a big impact on Earth’s climate and all of its inhabitants.

WHAT CAUSES CLIMATE CHANGE? Many things can cause climate change. In the past, climate change occurred because of natural reasons that were not linked to human activity. Small changes in Earth’s orbit can change the planet’s distance from the sun. The sun can emit more or less energy. Oceans and landforms change. Volcanos erupt. All of these natural events can cause climate change. Today, scientists believe Earth’s current warming trend is not a natural event. Instead, they have found evidence that human activity is driving climate change. Let’s look at how.

WHY CARBON DIOXIDE IS KEY Carbon dioxide is one of several greenhouse gases in Earth’s atmosphere. All greenhouse gases absorb and radiate heat. What makes carbon dioxide so important when talking about global warming and climate change? Carbon dioxide absorbs less heat per molecule than other greenhouse gases, including methane or nitrous oxide. However, carbon dioxide molecules are more plentiful in Earth’s atmosphere. It also remains in the atmosphere much longer than methane or nitrous oxide. While less plentiful than water vapor, carbon dioxide absorbs some thermal energy that water vapor does not. Because of these characteristics, carbon dioxide is a critical factor in the atmosphere’s greenhouse effect. Scientists estimate that increases in carbon dioxide in the atmosphere are significant drivers of Earth’s temperature rise.

Our Changing Climate

EARTH’S ATMOSPHERE The Earth’s atmosphere is a layer of gases that surround the planet. It is made up mostly of nitrogen and oxygen gases. Other gases such as argon, carbon dioxide, neon, helium, hydrogen, and more are present, but in smaller amounts. The atmosphere is like a blanket that insulates and protects Earth. It absorbs the sun’s heat and holds it inside the atmosphere to keep Earth warm. This process helps Earth’s temperature to stay pretty steady. The atmosphere also protects Earth from the sun’s radiation. There are five main layers in the atmosphere. Starting at Earth’s surface and extending outward, the layers are the troposphere, stratosphere, mesosphere, thermosphere, and exosphere.

Since the Industrial Revolution, people have built factories to manufacture products. They drive cars and fly airplanes. They heat and cool homes, cook food, watch television, and use all sorts of electrical appliances. All of these activities need energy. Most of the time, we get the energy to power our cars and generate electricity by burning fossil fuels—coal, oil, and gas. Burning fossil fuels releases greenhouse gasses into the atmosphere. These gases can cause the atmosphere to warm.

GREENHOUSE GAS EFFECTS Have you ever been inside a greenhouse that was being used to grow plants? What did it feel like? That heat and humidity happens because sunlight shines into the greenhouse’s glass walls and roof during the day. The greenhouse’s walls and ceiling trap the heat inside, warming the air and plants. During cold nights or the winter season, the greenhouse stays warm inside. The Earth’s atmosphere works like a greenhouse. Sunlight travels through the atmosphere and reaches Earth’s surface. The surface absorbs the light and heat energy from that sunlight. At night, the surface cools and releases heat into the atmosphere. Gases in the atmosphere, including carbon dioxide, trap some of the heat near Earth’s surface like a greenhouse’s glass roof traps heat in the greenhouse.

Atmospheric gases that trap heat are called greenhouse gases. In Earth’s atmosphere, greenhouse gases include water vapor, carbon dioxide, methane, nitrous oxide, and ozone.

CLIMATE IN CRISIS | INTRODUCTION

This process helps keep Earth at a livable temperature. If there were no greenhouse effect, Earth’s surface would be an average of -.4 degrees Fahrenheit (-18 degrees Celsius). As Earth’s surface, waters, and air warm up, they emit heat energy. This energy is absorbed by water vapor and greenhouse gases in the atmosphere. In turn, the greenhouse gas and water molecules radiate heat in all directions. Some of that heat energy radiates back to Earth and further warms both the lower atmosphere and Earth’s surface. It adds to the heat that the atmosphere and surface already absorb from direct sunlight. Greenhouse gases release the absorbed heat slowly over time, just like the bricks in a fireplace emit heat long after the fire is put out.

Our Changing Climate

As more greenhouse gas molecules accumulate in Earth’s atmosphere, more heat released from the surface is absorbed into the atmosphere. As that additional heat radiates back to Earth, the planet’s surface temperature increases. By adding more greenhouse gases, the atmosphere becomes a hotter greenhouse.

Credit: NASA/JPL-Caltech

WARMING FASTER THAN USUAL Scientists who study the history of Earth’s climate have found that the current rate of warming is much faster than previous warming events. The paleoclimate record shows that when Earth warmed after ice ages that happened during the last million years, global temperatures rose 7.2 to 12.6 CLIMATE CLUES degrees Fahrenheit (4 to 7 degrees Celsius) During one year, a mature during the course of 5,000 years. In the past tree absorbs more than 48 100 years, Earth’s temperature has risen about pounds of carbon dioxide 1.3 degrees Fahrenheit (0.7 degrees Celsius). from the atmosphere. This rise is about 10 times faster than past ice age warming rates.

CLIMATE IN CRISIS | INTRODUCTION

Scientific models predict that Earth will continue to warm between 3.6 and 10.8 degrees Fahrenheit (2 to 6 degrees Celsius) during the next century. That estimated rate of warming is about 20 times faster than previous warming periods, which is very unusual. While Earth’s climate has gone through warming periods before, scientists believe that natural causes alone cannot explain the rapid changes happening now. Instead, they point to human activities as the primary cause of Earth’s current warming. Since the Industrial Revolution, humans have been burning fossil fuels for energy at an increasing rate, releasing more greenhouse gases, including carbon dioxide, into the atmosphere. At the same time, humans have cleared forests to build houses, factories, roads, shopping malls, and more. Trees act as nature’s air filters by absorbing carbon dioxide from the air to use in photosynthesis, the process by which plants use sunlight to make their food. As more forests are cleared, fewer trees are left to absorb the carbon dioxide in our atmosphere. Scientists report that the annual rate of increase in carbon dioxide in the atmosphere in the last 60 years is 100 times faster than previous natural increases.

EVIDENCE OF PAST CLIMATES Scientists learn about past climates by examining evidence found in nature. Tree rings, layers of glacier ice, layers of sedimentary rocks, ocean sediment, and coral reefs all hold clues about the climate on Earth thousands of years ago. For example, bubbles of air found in glacier ice contain tiny samples of Earth’s atmosphere from years past. Analyzing these air bubbles can help scientists learn about the greenhouse gases in the atmosphere for the past 800,000 years. Also, the ice’s chemical makeup gives clues about the history of Earth’s average temperatures. Using this evidence, scientists build paleoclimates, records of Earth’s past climates. The paleoclimate record shows when past ice ages and periods of climate warming occurred.

Our Changing Climate

WHY SHOULD WE CARE ABOUT CLIMATE CHANGE?

VOCAB LAB Write down what you think each word means. What root words can you find to help you? What does the context of the word tell you? atmosphere, carbon dioxide, climate, climate change, fossil fuel, global warming, greenhouse gases, paleoclimate record, photosynthesis, and weather Compare your definitions with those of your friends or classmates. Did you all come up with the same meanings? Turn to the text and glossary if you need help.

TEXT TO WORLD Which of your activities use energy produced by fossil fuels?

Scientists predict that Earth’s current warming trend will continue at least for the next century. The impact of Earth’s warming will be felt worldwide. As surface temperatures rise, more snow and ice will melt. Oceans will rise. Some regions will experience hotter temperatures, while other areas will have colder winters. Extreme weather events such as hurricanes, heatwaves, droughts, floods, and more will become common. Animals and plants will have to adapt to changes in their habitats or be forced to migrate. CLIMATE CLUES Certain diseases may become In 2019, carbon dioxide more common among humans. levels in the atmosphere

We are already seeing the effects were the highest in at least the past 800,000 years. of climate change around the world. Some areas have already begun to experience changing weather and more severe storms. Coastal communities are dealing with the impact of rising sea levels and flooding. Ecosystems are struggling with the loss of habitats and the migration of plant and animal species. Climate change affects every living organism on Earth—including humans. This book explores the human impacts of climate change and how it affects people and communities every day. By learning about the science behind climate change and the real-life effects on our lives, you will be better prepared KEY QUESTIONS to navigate the new world and its • What symptoms of climate changing climate. change have you noticed where you live?

CLIMATE IN CRISIS | INTRODUCTION

• Do you think every person has a responsibility to do what they can to keep the planet healthy?

Inquire & Investigate

EXPLORE THE GREENHOUSE EFFECT Sunlight warms the earth’s atmosphere and surface. As the earth’s surface, waters, and air get warmer, they release heat energy. Gases in the atmosphere absorb and radiate some of this heat back to Earth’s surface. This process allows Earth to remain at a livable temperature. In this activity, we’ll explore how the greenhouse effect works.

• Create two identical environments. Pour 2 cups of cold water and 4 ice cubes into each jar. Measure the temperature of the water in each jar. Record the data in your science notebook. • Place one of the jars in a sealed plastic bag. Put both jars in a sunny spot. Make sure that both jars are receiving equal amounts of sunlight.

Ideas for Supplies ▼ • • • •

2 identical glass jars cold water ice cubes large plastic bag with seal • thermometer

• After an hour, measure the temperature of the water in each jar. Record your results. How does the temperature of the jars compare to each other? How do the temperatures compare to the earlier temperatures? How do your results demonstrate the greenhouse effect? How does what you learned relate to global warming and climate change?

To investigate more, repeat this activity with more jars and different types of coverings. Try putting jars in colored plastic bags, cloth bags, or paper bags. Try punching holes in the plastic bag. What if you repeat the activity in a non-sunny area? How did these changes impact your results?

Our Changing Climate

SAMPLE GLOSSARY absorb: to soak up a

liquid or take in energy, heat, light, or sound.

activism: the policy or

action of using strong campaigning to bring about political or social change.

glacier: a huge mass of ice and snow.

adapt: to make a change

global warming: a gradual

to survive in new or different conditions.

atmosphere: a layer of

gas surrounding the earth.

carbon dioxide: a combination of carbon and oxygen that is formed by the burning of fossil fuels, the rotting of plants and animals, and the breathing out of animals or humans. climate: the average weather patterns in an area during a long period of time.

climate change: a change in long-term weather patterns, which happens through both natural and man-made processes.

drought: a long period of unusually low rainfall that can harm plants and animals. ecosystem: a community

of living and nonliving things and their environment. Living things are plants, animals, and insects. Nonliving things are soil, rocks, and water.

emit: to send or give out

something, such as smoke, gas, heat, or light.

exosphere: a very thin layer of gas surrounding a planet.

fossil fuel: a fuel made from the remains of plants and animals that lived millions of years ago. Coal, oil, and natural gas are fossil fuels.

molecule: a group of atoms

bonded together, the simplest structural unit of an element or compound. Molecules can break apart and form new ones, which is a chemical reaction.

orbit: the path of an object circling another in space.

increase in the average temperature of the earth’s atmosphere and its oceans.

organism: a living thing, such as an animal or a plant.

greenhouse gases: a

major air pollutant in the lower atmosphere but a beneficial part of the upper atmosphere. The ozone layer, which is located about 20 to 30 miles above the earth’s surface, contains high levels of ozone that block most ultraviolet solar rays.

gas such as water vapor, carbon dioxide, and methane that traps heat in the atmosphere and contributes to warming temperatures.

habitat: the natural home or environment surrounding an organism. Homo sapiens: the name of the genus and species of modern humans. Industrial Revolution:

a period of time in the eighteenth and nineteenth centuries when largescale production of goods began and large cities and factories began to replace small towns and farming.

jargon: the technical terminology for a certain field. mesosphere: the part of the atmosphere above the stratosphere but below the thermosphere. migration: the movement

of a large group of organisms, such as birds, due to changes in the environment.

CLIMATE IN CRISIS | SAMPLE GLOSSARY

ozone: a gas that is a

paleoclimate record:

Earth’s past climates. By studying the paleoclimate record, scientists can better understand today’s climate.

parliament: in some

governments, the group of people responsible for making laws.

photosynthesis: the process a plant goes through to make its own food. The plant uses water and carbon dioxide in the presence of sunlight to make oxygen and sugar. radiate: to spread outward. sediment: bits of rock,

sand, or dirt that has been carried to a place by water, wind, or a glacier.

sedimentary rock: rock

formed from the compression of sediments, the remains of plants and animals, or from the evaporation of seawater.

SAMPLE GLOSSARY stratosphere: the layer of the earth’s atmosphere above the troposphere, to about 31 miles above the earth, where the ozone is. strike: an organized protest in which people refuse to work or go to school until changes are made in the workplace. thermal energy:

heat energy.

thermosphere: the thickest part of the atmosphere, rising more than 300 miles above the surface of Earth.

troposphere: the lowest part of the earth’s atmosphere, where most of weather occurs. weather: the temperature, rain, and wind conditions of an area, which change daily.

SAMPLE GLOSSARY

YOUNG ADULT NONFICTION • EDUCATION RESOURCE focus on social studies

Read true stories of how climate change has affected people’s lives and learn the science behind the new reality we witness every day. In Climate in Crisis: Changing Coastlines, Severe Storms, and Damaging Drought, readers 12 to 15 discover how climate change is affecting the human population—from extreme weather and rising sea levels to new migration patterns and disease—through real-life stories and a deep examination of the science driving the phenomenon. As kids gain a deeper understanding of our ultimate connection to everything on and around our planet, they are also encouraged to think of innovative ways to help curb climate change, which has been called humanity’s greatest challenge. Graphic novel style illustrations, essential questions, and fascinating sidebars illuminate the topic of climate change while links to online resources engage readers on a digital level. Try these STEM activities! •

Explore the greenhouse effect

•

Track weather patterns

•

Develop a desalination system

•

Create an erosion model

books from Nomad Press include the following educational components:

Timeline of important events Age-appropriate, hands-on activities

PRAISE FOR CHEMISTRY: INVESTIGATE THE MATTER THAT MAKES UP YOUR WORLD BY CARLA MOONEY “Mooney offers a thorough overview of what chemistry is and why it matters, in chapters exploring atoms, states of matter, compounds, chemical reactions, and more.” —Publishers Weekly

Links to online media Essential questions Text-to-world connections Primary sources, including maps, photographs, and writings Extensive back matter, including glossary, index, and resources Guided Reading Levels and Lexile measurements

PUB DATE: APRIL 2022 PB: 9781647410643, $17.95 HC: 9781647410612, $22.95 eBook: all formats available, $12.99 Specs: 8 x 10, 128 pages, color interior with illustrations and photography Reading Level: Ages 12–15 Interest Level: Grades 7–10 Guided Reading Level: TBD

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