climate change thesis statement topics

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Climate change is an urgent global issue, characterized by rising temperatures, melting glaciers, and extreme weather events. Writing a thesis on this topic requires a clear and concise statement that guides the reader through the significance, focus, and scope of your study. In this piece, we will explore various examples of good and bad thesis statements related to climate change to guide students in crafting compelling research proposals.

Good Examples

Focused Approach: “This thesis will analyze the impact of climate change on the intensity and frequency of hurricanes, using data from the last three decades.” Lack of Focus: “Climate change affects weather patterns.”

The good statement is specific, indicating a focus on hurricanes and providing a time frame. In contrast, the bad statement is too vague, covering a broad topic without any specific angle.

Clear Stance: “Implementing carbon taxes is an effective strategy for governments to incentivize companies to reduce greenhouse gas emissions.” Not So Clear: “Carbon taxes might be good for the environment.”

The good statement takes a clear position in favor of carbon taxes, while the bad statement is indecisive, not providing a clear standpoint.

Researchable and Measurable: “The thesis explores the correlation between the rise in global temperatures and the increase in the extinction rates of North American mammal species.” Dull: “Global warming is harmful to animals.”

The good statement is researchable and measurable, with clear variables and a focused geographic location, while the bad statement is generic and lacks specificity.

Bad Examples

Overly Broad: “Climate change is a global problem that needs to be addressed.”

This statement, while true, is overly broad and doesn’t propose a specific area of focus, making it inadequate for guiding a research study.

Lack of Clear Argument: “Climate change has some negative and positive effects.”

This statement doesn’t take a clear stance or highlight specific effects, making it weak and uninformative.

Unoriginal and Unengaging: “Climate change is real.”

While the statement is factual, it doesn’t present an original argument or engage the reader with a specific area of climate change research.

Crafting a compelling thesis statement on climate change is crucial for directing your research and presenting a clear, focused, and arguable position. A good thesis statement should be specific, take a clear stance, and be researchable and measurable. Avoid overly broad, unclear, unoriginal, or unengaging statements that do not provide clear direction or focus for your research. Utilizing the examples provided, students can navigate the intricate process of developing thesis statements that are not only academically rigorous but also intriguing and relevant to the pressing issue of climate change.

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Argumentative Essay Writing

Argumentative Essay About Climate Change

Make Your Case: A Guide to Writing an Argumentative Essay on Climate Change

Published on: Mar 2, 2023

Last updated on: Jan 31, 2024

What is an Argumentative Essay about Climate Change?

The main focus will be on trying to prove that global warming is caused by human activities. Your goal should be to convince your readers that human activity is causing climate change.

To achieve this, you will need to use a variety of research methods to collect data on the topic. You need to make an argument as to why climate change needs to be taken more seriously.

Argumentative Essay Outline about Climate Change

An argumentative essay about climate change requires a student to take an opinionated stance on the subject.

The outline of your paper should include the following sections:

Argumentative Essay About Climate Change Introduction

The first step is to introduce the topic and provide an overview of the main points you will cover in the essay.

This should include a brief description of what climate change is. Furthermore, it should include current research on how humans are contributing to global warming.

An example is:

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Thesis Statement For Climate Change Argumentative Essay

The thesis statement should be a clear and concise description of your opinion on the topic. It should be established early in the essay and reiterated throughout.

For example, an argumentative essay about climate change could have a thesis statement such as:

Climate Change Argumentative Essay Conclusion

The conclusion should restate your thesis statement and summarize the main points of the essay.

It should also provide a call to action, encouraging readers to take steps toward addressing climate change.

For example,

How To Write An Argumentative Essay On Climate Change

Writing an argumentative essay about climate change requires a student to take an opinionated stance on the subject.

Following are the steps to follow for writing an argumentative essay about climate change

Do Your Research

The first step is researching the topic and collecting evidence to back up your argument.

You should look at scientific research, articles, and data on climate change as well as current policy solutions.

Pick A Catchy Title

Once you have gathered your evidence, it is time to pick a title for your essay. It should be specific and concise.

Outline Your Essay

After selecting a title, create an outline of the main points you will include in the essay.

This should include an introduction, body paragraphs that provide evidence for your argument, and a conclusion.

Compose Your Essay

Finally, begin writing your essay. Start with an introduction that provides a brief overview of the main points you will cover and includes your thesis statement.

Then move on to the body paragraphs, providing evidence to back up your argument.

Finally, conclude the essay by restating your thesis statement and summarizing the main points.

Proofread and Revise

Once you have finished writing the essay, it is important to proofread and revise your work.

Check for any spelling or grammatical errors, and make sure the argument is clear and logical.

Finally, consider having someone else read over the essay for a fresh perspective.

By following these steps, you can create an effective argumentative essay on climate change. Good luck!

Examples Of Argumentative Essays About Climate Change

Climate Change is real and happening right now. It is one of the most urgent environmental issues that we face today.

Argumentative essays about this topic can help raise awareness that we need to protect our planet.

Below you will find some examples of argumentative essays on climate change written by CollegeEssay.orgâs expert essay writers.

Argumentative Essay About Climate Change And Global Warming

Persuasive Essay About Climate Change

Argumentative Essay About Climate Change In The Philippines

Argumentative Essay About Climate Change Caused By Humans

Geography Argumentative Essay About Climate Change

Check our extensive blog on argumentative essay examples to ace your next essay!

Good Argumentative Essay Topics About Climate Change

Choosing a great topic is essential to help your readers understand and engage with the issue.

Here are some suggestions:

Should governments fund projects that will reduce the effects of climate change?
Is it too late to stop global warming and climate change?
Are international treaties effective in reducing carbon dioxide emissions?
What are the economic implications of climate change?
Should renewable energy be mandated as a priority over traditional fossil fuels?
How can individuals help reduce their carbon footprint and fight climate change?
Are regulations on industry enough to reduce global warming and climate change?
Could geoengineering be used to mitigate climate change?
What are the social and political effects of global warming and climate change?
Should companies be held accountable for their contribution to climate change?

Check our comprehensive blog on argumentative essay topics to get more topic ideas!

We hope these topics and resources help you write a great argumentative essay about climate change.

Now that you know how to write an argumentative essay about climate change, itâs time to put your skills to the test.

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Frequently Asked Questions

What is a good introduction to climate change.

An introduction to a climate change essay can include a short description of why the topic is important and/or relevant.

It can also provide an overview of what will be discussed in the body of the essay.

The introduction should conclude with a clear, focused thesis statement that outlines the main argument in your essay.

What is a good thesis statement for climate change?

A good thesis statement for a climate change essay should state the main point or argument you will make in your essay.

You could argue that “The science behind climate change is irrefutable and must be addressed by governments, businesses, and individuals.”

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Global Warming Thesis Statement Ideas

Rapidly declining Arctic sea ice offers one topic for a paper on global warming.

Economic Impact of Coastal Erosion

Global warming is a complex problem that often sparks policy debates. When writing about it, stick to the facts and make sure that your thesis statement -- the central assertion of your essay -- is supported by research. Some global warming topics have produced extensive research worldwide and can serve as topical guides in formulating your thesis statement.

Manmade Causes versus Natural Causes

The causes of global warming are complex, including natural and man-made emissions of carbon dioxide and methane. Use your thesis to highlight the difference between natural sources and man-made sources. For example, according to the Environmental Protection Agency, carbon dioxide concentrations in the atmosphere have risen from 280 parts per million in the 18th century to 390 parts per million in 2010. Human activities release more than 30 billion tons of carbon dioxide each year, or 135 times as much as volcanoes. Focus your thesis on this discrepancy, how man-made carbon dioxide sources such as fossil fuel consumption, have eclipsed natural sources of the gas.

Rising Temperatures and Declining Sea Ice

Your thesis statement may focus on the relationship between rising surface temperatures and declining sea ice, specifically ice in the Arctic. For instance, since 1901, sea surface temperatures have risen at an average rate of 0.13 degrees Fahrenheit per decade, with the highest rates of change occurring in the past three decades alone, according to the EPA.

Your thesis may establish the inverse relationship between these rising surface temperatures and the shrinking ice coverage in the Arctic. Arctic sea ice extent in December 2014, for instance, was the ninth lowest in the satellite record. The rate of decline for December ice alone is 3.4 percent per decade, according to the National Snow and Ice Data Center.

Effects of Melting Glaciers on Water Supply

Along with sea ice, many of the world’s glaciers are melting due to climate change. Since the 1960s, the U.S. Geological Survey has tracked the mass of two glaciers in Alaska and one in Washington state, all three of which have shrunk considerably in the past 40 years.

Research other mountain ranges and compare the glaciological data. Use your thesis to answer the question of what melting glaciers will mean for populations dependent on the ice flows for their fresh water supply. For example, much of Peru’s population depends on Andean glaciers not only for drinking water but for hydroelectricity.

Effects of Drought on Food Production

While global warming is projected to raise sea levels and flooding in coastal regions, it’s also been credited for changes in weather patterns and extreme drought, according to the EPA. In the arid American Southwest, for example, average annual temperatures have increased about 1.5 degrees Fahrenheit over the past century, leading to decreased snowpack, extreme drought, wildfires and fierce competition for remaining water supplies.

As drought still rages in this region, your thesis can explore the relationship between global warming and agriculture, specifically in California’s Central Valley, which provides produce for much of the country. It’s possible that hotter, longer growing seasons are beneficial to California crops, but that shrinking water supplies threaten the viability of commercial agriculture.

Ocean Acidification and Global Seafood Stocks

Increased carbon dioxide emissions don't just impact our air quality. These emissions also result in increased acidity of our planet's oceans. An immense range of shellfish and other molluscs, such as clams, oysters, crabs, lobsters and more, face immediate population decline due to ocean acidification weakening their calcium carbonate shells.

Your thesis can explore the mechanics of ocean acidification as well as the potential economic impact to the fisheries that rely upon these marine animals for survival. You can also explore the potential ecosystem impact for the predators that feed upon these animals.

Ice caps melting facts, efforts to protect the tundra, what drives the process of plate tectonics, effect of human activities on the environment, the top 10 topics for research papers, how to calculate a p-value, how to make a glacier, persuasive speech topics on water, brine vs. conductivity, how to do a bell curve on a ti, how to contact your representative about climate change, how to calculate exceedance probability, what is the meaning of sample size, the difference between an earthquake & a volcano, the history of volcanology, how bitcoin is polluting the planet, how to report a sample size, the effects of human intervention on the environment, the scientist henry hess invented what kind of devices.

U.S. Environmental Protection Agency: Causes of Climate Change
U.S. Environmental Protection Agency: Climate Change Indicators in the United States
National Snow and Ice Data Center: Artic Sea Ice News and Analysis
U.S. Geological Survey: 3-Glacier Mass Balance Summary
National Geographic: Signs from Earth: The Big Thaw
U.S. Environmental Protection Agency: Climate Impacts in the Southwest
Alaska Public Media: Ocean Acidification

About the Author

Scott Neuffer is an award-winning journalist and writer who lives in Nevada. He holds a bachelor's degree in English and spent five years as an education and business reporter for Sierra Nevada Media Group. His first collection of short stories, "Scars of the New Order," was published in 2014.

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Outline for Climate Change Essay: Writing an Essay

Table of Contents

Changes in weather patterns and conditions are a result of climate change.

A number of factors are causing the climate to change quickly right now. It goes without saying that the temperature of the entire planet is rising. Do you consider it to be a severe issue? Yes, melting glaciers are causing sea levels to rise, as you may have heard.

Hazardous elements like pollution, coal burning, the release of industrial waste into the atmosphere, etc., have caused a significant change in the climate. Everything above will have an impact on the environment and its resources.

You need to raise public awareness of the problem of climate change in addition to taking strict environmental protection and preservation measures. What’s the best way to raise awareness about the issue?

Well, write an essay on the issue! But how are you going to write an essay on climate change without a structure or an outline? That’s what we’re going to show you today! Keep reading to find out more about the outline for climate change essay!

What’s Climate Change?

To begin with, if someone needs to write an essay about climate change, they should have an idea of what they will write about. A significant issue facing the entire world, climate change frequently forces millions of people to relocate and causes devastating natural disasters. Global warming is commonly linked to climate change. But this phenomenon has a lot more facets than just this one.

A whole region or settlement may become utterly intolerable to live in as a result of climate change. However, it might also have a detrimental impact on natural processes, which would have an unintended ripple effect throughout the entire planet.

Weather patterns as a whole are changing due to climate change. We can infer that changes to the typical climatic conditions are caused by climate change. As a result of these changes, there will be more severe storms, heat waves, floods, melting glaciers, etc.

The livelihood of people and other living things is being impacted by the numerous climate changes that our planet is undergoing. Among the features of climate change is global warming. These elements cause the atmosphere to release greenhouse gases like carbon dioxide. Examine the causes of climate change listed below.

All forms of life on Earth will be affected if the current climate change situation persists in the same way. Sea levels will rise, and the Earth’s temperature will increase. The monsoon patterns will change, and there will be more frequent storms, volcanic eruptions, and other natural disasters.

There will be disruptions to the Earth’s biological and ecological balance. As a result of environmental pollution, people won’t be able to breathe clean air or drink clean water. The end of earthly life is imminent.

Outline for Climate Change Essay

Here’s an example of an outline for climate change essay that you can use in your own. This outline covers the introduction, the main body paragraphs, and finally, the conclusion. We will also give some examples of topics that you can cover in your climate change (or global warming) essay.

Introduction

Here, you can give why climate change came to be and how the industrial revolution caused it to accelerate. You can mention why we called this phenomenon global warming at first and why we now refer to it as climate change. Remember, in the introduction part of your climate change essay. You have to include a thesis statement.

A thesis statement is a phrase that summarizes the subject and aim of your essay. A strong thesis statement will guide the format of your essay and help your audience comprehend the concepts you’ll be addressing in it.

Your paper’s introduction should contain your thesis statement somewhere, usually in the final phrase. Typically, a thesis will be one sentence long. But if your topic is complex, you might find that splitting the thesis statement into two sentences works better.

Main Body Paragraphs

This is the meat of your essay on climate change. There are a couple of topics that you can mention here to keep the essay going. We’ll look at a couple of interesting subjects or themes right now.

What Causes Climate Change?

Construction of industries during the Industrial Revolution
Human activities involving the use of fossil fuels are of concern.
Greenhouse gas usage
Increasing deforestation
Gas emissions and chemical leaks
Platonic movement
Ozone layer degradation
Inefficient transportation humans with car infrastructure
Energy generation using fossil fuels in the 21st century
Lack of government intervention in those who cause climate change
Human activities that affect the environment in a negative turn
The need to extract Earth’s resources
The problem of human over consumption
The constant need for new energy sources every year
The decimation of plant life for human overpopulation on Earth
Humans damaging the environment and the animal and plant life across the Earth
The increased amount of pollutants that affect the atmosphere

What Are The Effects of Climate Change and Global Warming?

Elevated global temperature
Major catastrophes across different countries on Earth
Melting Ice Caps
Sea levels are rising.
Polluted oceans
The hottest years we have witnessed thanks to global warming
Continuous cyclones, typhoons, hurricanes, etc.
Heatwaves caused by global warming
Substantial rains
The process of decomposition and higher temperatures
Seasonal growth
Reduced Earth Fertility
Water supplies reducing on a global scale, affecting all life in the world
Cities around the world are underwater due to climate change and global warming.
Extreme weather events due to increased carbon dioxide

How Can We Tackle Climate Change and Global Warming?

Cutting back on fossil fuels
Expanding the number of forests and trees
Utilizing renewable energy sources
The introduction of carbon-free technology
Environmentally friendly transportation
Utilizing more renewable sources that exist in nature, such as solar and geothermal power.

Concluding Remarks

We hope our guide on writing an essay on climate change and the environment had positive effects on your writing process. If you are still unsure about how to continue your climate change essay, there’s another solution you should know.

You can use an essay outline tool like the one we have at INK. This helps to create the structure of your climate change essay for you! This way, you can devote more time to researching instead of thinking about the structure.

Best of luck to you in writing essay of the effects of climate change on the environment. We hope our post was able to help you increase awareness on how human activity affects the Earth!

Outline for Climate Change Essay: Writing an Essay

Abir Ghenaiet

Abir is a data analyst and researcher. Among her interests are artificial intelligence, machine learning, and natural language processing. As a humanitarian and educator, she actively supports women in tech and promotes diversity.

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6.4 Annotated Student Sample: “Slowing Climate Change” by Shawn Krukowski

Learning outcomes.

By the end of this section, you will be able to:

Identify the features common to proposals.
Analyze the organizational structure of a proposal and how writers develop ideas.
Articulate how writers use and cite evidence to build credibility.
Identify sources of evidence within a text and in source citations.

Introduction

The proposal that follows was written by student Shawn Krukowski for a first-year composition course. Shawn’s assignment was to research a contemporary problem and propose one or more solutions. Deeply concerned about climate change, Shawn chose to research ways to slow the process. In his proposal, he recommends two solutions he thinks are most promising.

Living by Their Own Words

A call to action.

student sample text The earth’s climate is changing. Although the climate has been changing slowly for the past 22,000 years, the rate of change has increased dramatically. Previously, natural climate changes occurred gradually, sometimes extending over thousands of years. Since the mid-20th century, however, climate change has accelerated exponentially, a result primarily of human activities, and is reaching a crisis level. end student sample text

student sample text Critical as it is, however, climate change can be controlled. Thanks to current knowledge of science and existing technologies, it is possible to respond effectively. Although many concerned citizens, companies, and organizations in the private sector are taking action in their own spheres, other individuals, corporations, and organizations are ignoring, or even denying, the problem. What is needed to slow climate change is unified action in two key areas—mitigation and adaptation—spurred by government leadership in the United States and a global commitment to addressing the problem immediately. end student sample text

annotated text Introduction. The proposal opens with an overview of the problem and pivots to the solution in the second paragraph. end annotated text

annotated text Thesis Statement. The thesis statement in last sentence of the introduction previews the organization of the proposal and the recommended solutions. end annotated text

Problem: Negative Effects of Climate Change

annotated text Heading. Centered, boldface headings mark major sections of the proposal. end annotated text

annotated text Body. The three paragraphs under this heading discuss the problem. end annotated text

annotated text Topic Sentence. The paragraph opens with a sentence stating the topics developed in the following paragraphs. end annotated text

student sample text For the 4,000 years leading up to the Industrial Revolution, global temperatures remained relatively constant, with a few dips of less than 1°C. Previous climate change occurred so gradually that life forms were able to adapt to it. Some species became extinct, but others survived and thrived. In just the past 100 years, however, temperatures have risen by approximately the same amount that they rose over the previous 4,000 years. end student sample text

annotated text Audience. Without knowing for sure the extent of readers’ knowledge of climate change, the writer provides background for them to understand the problem. end annotated text

student sample text The rapid increase in temperature has a negative global impact. First, as temperatures rise, glaciers and polar ice are melting at a faster rate; in fact, by the middle of this century, the Arctic Ocean is projected to be ice-free in summer. As a result, global sea levels are projected to rise from two to four feet by 2100 (U.S. Global Change Research Program [USGCRP], 2014a). If this rise actually does happen, many coastal ecosystems and human communities will disappear. end student sample text

annotated text Discussion of the Problem. The first main point of the problem is discussed in this paragraph. end annotated text

annotated text Statistics as Evidence. The writer provides specific numbers and cites the source in APA style. end annotated text

annotated text Transitions . The writer uses transitions here (first, as a result , and second in the next paragraph) and elsewhere to make connections between ideas and to enable readers to follow them more easily. At the same time, the transitions give the proposal coherence. end annotated text

student sample text Second, weather of all types is becoming more extreme: heat waves are hotter, cold snaps are colder, and precipitation patterns are changing, causing longer droughts and increased flooding. Oceans are becoming more acidic as they increase their absorption of carbon dioxide. This change affects coral reefs and other marine life. Since the 1980s, hurricanes have increased in frequency, intensity, and duration. As shown in Figure 6.5, the 2020 hurricane season was the most active on record, with 30 named storms, a recording-breaking 11 storms hitting the U.S. coastline (compared to 9 in 1916), and 10 named storms in September—the highest monthly number on record. Together, these storms caused more than $40 billion in damage. Not only was this the fifth consecutive above-normal hurricane season, it was preceded by four consecutive above-normal years in 1998 to 2001 (National Oceanic and Atmospheric Administration, 2020). end student sample text

annotated text Discussion of the Problem. The second main point of the problem is discussed in this paragraph. end annotated text

annotated text Visual as Evidence. The writer refers to “Figure 6.4” in the text and places the figure below the paragraph. end annotated text

annotated text Source Citation in APA Style: Visual. The writer gives the figure a number, a title, an explanatory note, and a source citation. The source is also cited in the list of references. end annotated text

Solutions: Mitigation and Adaptation

annotated text Heading. The centered, boldface heading marks the start of the solutions section of the proposal. end annotated text

annotated text Body. The eight paragraphs under this heading discuss the solutions given in the thesis statement. end annotated text

student sample text To control the effects of climate change, immediate action in two key ways is needed: mitigation and adaptation. Mitigating climate change by reducing and stabilizing the carbon emissions that produce greenhouse gases is the only long-term way to avoid a disastrous future. In addition, adaptation is imperative to allow ecosystems, food systems, and development to become more sustainable. end student sample text

student sample text Mitigation and adaptation will not happen on their own; action on such a vast scale will require governments around the globe to take initiatives. The United States needs to cooperate with other nations and assume a leadership role in fighting climate change. end student sample text

annotated text Objective Stance. The writer presents evidence (facts, statistics, and examples) in neutral, unemotional language, which builds credibility, or ethos, with readers. end annotated text

annotated text Heading. The flush-left, boldface heading marks the first subsection of the solutions. end annotated text

annotated text Topic Sentence. The paragraph opens with a sentence stating the solution developed in the following paragraphs. end annotated text

student sample text The first challenge is to reduce the flow of greenhouse gases into the atmosphere. The Union of Concerned Scientists (2020) warns that “net zero” carbon emissions—meaning that no more carbon enters the atmosphere than is removed—needs to be reached by 2050 or sooner. As shown in Figure 6.6, reducing carbon emissions will require a massive effort, given the skyrocketing rate of increase of greenhouse gases since 1900 (USGCRP, 2014b). end student sample text

annotated text Synthesis. In this paragraph, the writer synthesizes factual evidence from two sources and cites them in APA style. end annotated text

annotated text Visual as Evidence. The writer refers to “Figure 6.5” in the text and places the figure below the paragraph. end annotated text

student sample text Significant national policy changes must be made and must include multiple approaches; here are two areas of concern: end student sample text

annotated text Presentation of Solutions. For clarity, the writer numbers the two items to be discussed. end annotated text

student sample text 1. Transportation systems. In the United States in 2018, more than one-quarter—28.2 percent—of emissions resulted from the consumption of fossil fuels for transportation. More than half of these emissions came from passenger cars, light-duty trucks, sport utility vehicles, and minivans (U.S. Environmental Protection Agency [EPA], 2020). Priorities for mitigation should include using fuels that emit less carbon; improving fuel efficiency; and reducing the need for travel through urban planning, telecommuting and videoconferencing, and biking and pedestrian initiatives. end student sample text

annotated text Source Citation in APA Style: Group Author. The parenthetical citation gives the group’s name, an abbreviation to be used in subsequent citations, and the year of publication. end annotated text

student sample text Curtailing travel has a demonstrable effect. Scientists have recorded a dramatic drop in emissions during government-imposed travel and business restrictions in 2020. Intended to slow the spread of COVID-19, these restrictions also decreased air pollution significantly. For example, during the first six weeks of restrictions in the San Francisco Bay area, traffic was reduced by about 45 percent, and emissions were roughly a quarter lower than the previous six weeks. Similar findings were observed around the globe, with reductions of up to 80 percent (Bourzac, 2020). end student sample text

annotated text Source Citation in APA Style: One Author. The parenthetical citation gives the author’s name and the year of publication. end annotated text

student sample text 2. Energy production. The second-largest source of emissions is the use of fossil fuels to produce energy, primarily electricity, which accounted for 26.9 percent of U.S. emissions (EPA, 2020). Fossil fuels can be replaced by solar, wind, hydro, and geothermal sources. Solar voltaic systems have the potential to become the least expensive energy in the world (Green America, 2020). Solar sources should be complemented by wind power, which tends to increase at night when the sun is absent. According to the Copenhagen Consensus, the most effective way to combat climate change is to increase investment in green research and development (Lomborg, 2020). Notable are successes in the countries of Morocco and The Gambia, both of which have committed to investing in national programs to limit emissions primarily by generating electricity from renewable sources (Mulvaney, 2019). end student sample text

annotated text Synthesis. The writer develops the paragraph by synthesizing evidence from four sources and cites them in APA style. end annotated text

student sample text A second way to move toward net zero is to actively remove carbon dioxide from the atmosphere. Forests and oceans are so-called “sinks” that collect and store carbon (EPA, 2020). Tropical forests that once made up 12 percent of global land masses now cover only 5 percent, and the loss of these tropical forest sinks has caused 16 to 19 percent of greenhouse gas emissions (Green America, 2020). Worldwide reforestation is vital and demands both commitment and funding on a global scale. New technologies also allow “direct air capture,” which filers carbon from the air, and “carbon capture,” which prevents it from leaving smokestacks. end student sample text

student sample text All of these technologies should be governmentally supported and even mandated, where appropriate. end student sample text

annotated text Synthesis. The writer develops the paragraph by synthesizing evidence from two sources and cites them in APA style. end annotated text

annotated text Heading. The flush-left, boldface heading marks the second subsection of the solutions. end annotated text

student sample text Historically, civilizations have adapted to climate changes, sometimes successfully, sometimes not. Our modern civilization is largely the result of climate stability over the past 12,000 years. However, as the climate changes, humans must learn to adapt on a national, community, and individual level in many areas. While each country sets its own laws and regulations, certain principles apply worldwide. end student sample text

student sample text 1. Infrastructure. Buildings—residential, commercial, and industrial—produce about 33 percent of greenhouse gas emissions worldwide (Biello, 2007). Stricter standards for new construction, plus incentives for investing in insulation and other improvements to existing structures, are needed. Development in high-risk areas needs to be discouraged. Improved roads and transportation systems would help reduce fuel use. Incentives for decreasing energy consumption are needed to reduce rising demands for power. end student sample text

student sample text 2. Food waste. More than 30 percent of the food produced in the United States is never consumed, and food waste causes 44 gigatons of carbon emissions a year (Green America, 2020). In a landfill, the nutrients in wasted food never return to the soil; instead, methane, a greenhouse gas, is produced. High-income countries such as the United States need to address wasteful processing and distribution systems. Low-income countries, on the other hand, need an infrastructure that supports proper food storage and handling. Educating consumers also must be a priority. end student sample text

annotated text Source Citation in APA Style: Group Author. The parenthetical citation gives the group’s name and the year of publication. end annotated text

student sample text 3. Consumerism. People living in consumer nations have become accustomed to abundance. Many purchases are nonessential yet consume fossil fuels to manufacture, package, market, and ship products. During World War II, the U.S. government promoted the slogan “Use It Up, Wear It Out, Make It Do, or Do Without.” This attitude was widely accepted because people recognized a common purpose in the war effort. A similar shift in mindset is needed today. end student sample text

student sample text Adaptation is not only possible but also economically advantageous. One case study is Walmart, which is the world’s largest company by revenue. According to Dearn (2020), the company announced a plan to reduce its global emissions to zero by 2040. Among the goals is powering its facilities with 100 percent renewable energy and using electric vehicles with zero emissions. As of 2020, about 29 percent of its energy is from renewable sources. Although the 2040 goal applies to Walmart facilities only, plans are underway to reduce indirect emissions, such as those from its supply chain. According to CEO Doug McMillon, the company’s commitment is to “becoming a regenerative company—one that works to restore, renew and replenish in addition to preserving our planet, and encourages others to do the same” (Dearn, 2020). In addition to encouraging other corporations, these goals present a challenge to the government to take action on climate change. end student sample text

annotated text Extended Example as Evidence. The writer indicates where borrowed information from the source begins and ends, and cites the source in APA style. end annotated text

annotated text Source Citation in APA Style: One Author. The parenthetical citation gives only the year of publication because the author’s name is cited in the sentence. end annotated text

Objections to Taking Action

annotated text Heading. The centered, boldface heading marks the start of the writer’s discussion of potential objections to the proposed solutions. end annotated text

annotated text Body. The writer devotes two paragraphs to objections. end annotated text

student sample text Despite scientific evidence, some people and groups deny that climate change is real or, if they admit it exists, insist it is not a valid concern. Those who think climate change is not a problem point to Earth’s millennia-long history of changing climate as evidence that life has always persisted. However, their claims do not consider the difference between “then” and “now.” Most of the change predates human civilization, which has benefited from thousands of years of stable climate. The rapid change since the Industrial Revolution is unprecedented in human history. end student sample text

student sample text Those who deny climate change or its dangers seek primarily to relax or remove pollution standards and regulations in order to protect, or maximize profit from, their industries. To date, their lobbying has been successful. For example, the world’s fossil-fuel industry received $5.3 trillion in 2015 alone, while the U.S. wind-energy industry received $12.3 billion in subsidies between 2000 and 2020 (Green America, 2020). end student sample text

Conclusion and Recommendation

annotated text Heading. The centered, boldface heading marks the start of the conclusion and recommendation. end annotated text

annotated text Conclusion and Recommendation. The proposal concludes with a restatement of the proposed solutions and a call to action. end annotated text

student sample text Greenhouse gases can be reduced to acceptable levels; the technology already exists. But that technology cannot function without strong governmental policies prioritizing the environment, coupled with serious investment in research and development of climate-friendly technologies. end student sample text

student sample text The United States government must place its full support behind efforts to reduce greenhouse gasses and mitigate climate change. Rejoining the Paris Agreement is a good first step, but it is not enough. Citizens must demand that their elected officials at the local, state, and national levels accept responsibility to take action on both mitigation and adaptation. Without full governmental support, good intentions fall short of reaching net-zero emissions and cannot achieve the adaptation in attitude and lifestyle necessary for public compliance. There is no alternative to accepting this reality. Addressing climate change is too important to remain optional. end student sample text

Biello, D. (2007, May 25). Combatting climate change: Farming out global warming solutions. Scientific American. https://www.scientificamerican.com/article/combating-climate-change-farming-forestry/

Bourzac, K. (2020, September 25). COVID-19 lockdowns had strange effects on air pollution across the globe. Chemical & Engineering News. https://cen.acs.org/environment/atmospheric-chemistry/COVID-19-lockdowns-had-strange-effects-on-air-pollution-across-the-globe/98/i37

Dearn, G. (2020, September 21). Walmart said it will eliminate its carbon footprint by 2040 — but not for its supply chain, which makes up the bulk of its emissions. Business Insider. https://www.businessinsider.com/walmart-targets-zero-carbon-emissions-2040-not-suppliers-2020-9

Green America (2020). Top 10 solutions to reverse climate change. https://www.greenamerica.org/climate-change-100-reasons-hope/top-10-solutions-reverse-climate-change.

Lomborg, B. (2020, July 17). The alarm about climate change is blinding us to sensible solutions. The Globe and Mail. https://www.theglobeandmail.com/opinion/article-the-alarm-about-climate-change-is-blinding-us-to-sensible-solutions/

Mulvaney, K. (2019, September 19). Climate change report card: These countries are reaching targets. National Geographic . https://www.nationalgeographic.com/environment/2019/09/climate-change-report-card-co2-emissions/

National Oceanic and Atmospheric Administration (2020, November 24). Record-breaking Atlantic hurricane season draws to an end. https://www.noaa.gov/media-release/record-breaking-atlantic-hurricane-season-draws-to-end

Union of Concerned Scientists (2020). Climate solutions. https://www.ucsusa.org/climate/solutions

U.S. Environmental Protection Agency (2020). Sources of greenhouse gas emissions. Greenhouse Gas Emissions. https://www.epa.gov/ghgemissions/sources-greenhouse-gas-emissions

U.S. Global Change Research Program (2014a). Melting ice. National Climate Assessment. https://nca2014.globalchange.gov/report/our-changing-climate/melting-ice

U.S. Global Change Research Program (2014b). Our changing climate. National Climate Assessment. https://nca2014.globalchange.gov/highlights/report-findings/our-changing-climate#tab1-images

annotated text References Page in APA Style. All sources cited in the text of the report—and only those sources—are listed in alphabetical order with full publication information. See the Handbook for more on APA documentation style. end annotated text

The following link takes you to another model of an annotated sample paper on solutions to animal testing posted by the University of Arizona’s Global Campus Writing Center.

Discussion Questions

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Climate change, energy, environment and sustainability topics research guide

What is climate change.

Climate change refers to long-term shifts in temperatures and weather patterns. The world is now warming faster than at any point in recorded history, which disrupts the usual balance of nature and is a threat to human beings and other forms of life on Earth. This topic guide includes sample keywords and search terms, databases to find sources, and samples of online books.

Example keywords and subtopics

Example keywords or search terms:

Climate change
global warming
greenhouse effect or greenhouse gas
climate crisis
environmental change
clean energy
alternative energy or renewable energy
green energy or renewable energy or clean energy
Low carbon or carbon neutral
Carbon offsetting
sustainability environment or sustainability
environmental protection
pollution or contamination
impact or effect or influence
cost or price or expense or money or financial
fossil fuels or coal or oil or gas

Tip: This is a big topic with lots written so you can often focus on one or two subtopics. This will help to find more relevant sources, more quickly and be a better fit for an assignment.

Possible subtopics ideas: Pick one or two subtopics and then add those words to your search.

Health impacts of climate changes (e.g. air pollution, water pollution, etc.)
impacts on a specific city, state, region or country
political impacts (e.g. voting, government policy, etc.)
impact on specific population or culture (e.g. children, elderly, racial or ethic group, country, etc.)
specific types of renewable or alternative energy (e.g. solar, wind, bio, etc.)
example of new technology (e.g. electric cars or electric vehicles or hybrid vehicles
economic impacts (e.g. business, employment, industry (e.g. oil, coal, etc.)
weather and impacts (e.g. rising sea levels, flooding, droughts or heat waves, etc.)
media aspects (e.g. news coverage, advertising, misinformation, movies, music, etc.)
Tutorial: Creating an effective search strategy

Creating an effective search strategy tutorial video. 3 minutes 24 seconds.

Use meaningful keywords to find the best sources
Apply search strategies like AND and OR to connect keywords
Tutorial: What is a library database and why should I use one?

What is a library database and why should I use one tutorial video. 3 minutes.

Identify what a library database is
Recognize the two main types of library databases
Know why you should use them
Understand why searching a library database is different than searching the general internet

Databases for finding sources

Article Databases -

Use articles to find new research, specific information and evidence to support or refute a claim. You can also look at the bibliography or works cited to find additional sources. Some articles give an overview of a specific topic -- sometimes called "review articles" or "meta-analyses" or "systematic review." Databases are like mini-search engines for finding articles (e.g. Business Source Premier database searches business journals, business magazines and business newspapers). Pick a database that searches the subject of articles you want to find.

Agricultural & Environmental Science Database Search journals and literature on agriculture, pollution, animals, environment, policy, natural resources, water issues and more. Searches tools like AGRICOLA, Environmental Sciences & Pollution Management (ESPM), and Digests of Environmental Impact Statements (EIS) databases.
GreenFILE Collection of scholarly, government and general-interest titles. Multidisciplinary by nature, GreenFILE draws on the connections between the environment and agriculture, education, law, health and technology. Topics covered include global climate change, green building, pollution, sustainable agriculture, renewable energy, recycling, and more.
Ethnic NewsWatch Ethnic NewsWatch is a current resource of full-text newspapers, magazines, and journals of the ethnic and minority press from 1990, providing researchers access to essential, often overlooked perspectives.
Opposing Viewpoints in Context Find articles on current issues, including viewpoint articles, topic overviews, statistics, primary documents, magazine and newspaper articles.

Sample of online books

Below are a selection of online books and readings on the broad topic. We have more online books, journal articles, and sources in our Libraries Search and article databases.

A climate policy revolution : what the science of complexity reveals about saving our planet by Roland Kupers ISBN: 9780674246812 Publication Date: 2020 "In this book, Roland Kupers argues that the climate crisis is well suited to the bottom-up, rapid, and revolutionary change complexity science theorizes; he succinctly makes the case that complexity science promises policy solutions to address climate change."

Get help from the U Libraries - Online!

Peer Research Consultants Make an online 30 minute appointment for one-on-one peer assistance with your research. Get help with researching your topic, finding sources, citing sources and more. Peer Research Consultants can also help you get started with faculty-sponsored research.
Chat 24/7 online with the Libraries Ask us anything! Chat with a librarian, 24 hours a day, 7 days a week with any research or library questions.
Meet with a librarian Schedule an online consultations for personalized research support primarily for University of Minnesota faculty, instructors, graduate and undergraduate students and staff.

Yale Program on Climate Change Communication

About YPCCC
Yale Climate Connections
Student Employment
For The Media
Past Events
YPCCC in the News
Climate Change in the American Mind (CCAM)
Publications
Climate Opinion Maps
Climate Opinion Factsheets
Six Americas Super Short Survey (SASSY)
Resources for Educators
All Tools & Interactives
Partner with YPCCC

Home / For Educators: Grades 6-12 / Climate Explained: Introductory Essays About Climate Change Topics

Climate Explained: Introductory Essays About Climate Change Topics

Filed under: backgrounders for educators ,.

Climate Explained, a part of Yale Climate Connections, is an essay collection that addresses an array of climate change questions and topics, including why it’s cold outside if global warming is real, how we know that humans are responsible for global warming, and the relationship between climate change and national security.

More Activities like this

Climate Change Basics: Five Facts, Ten Words

Backgrounders for Educators

To simplify the scientific complexity of climate change, we focus on communicating five key facts about climate change that everyone should know.

Why should we care about climate change?

Having different perspectives about global warming is natural, but the most important thing that anyone should know about climate change is why it matters.

External Resources

Looking for resources to help you and your students build a solid climate change science foundation? We’ve compiled a list of reputable, student-friendly links to help you do just that!

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The Center for Global Studies

Climate change argumentation.

Carmen Vanderhoof, Curriculum and Instruction, College of Education, Penn State

Carmen Vanderhoof is a doctoral candidate in Science Education at Penn State. Her research employs multimodal discourse analysis of elementary students engaged in a collaborative engineering design challenge in order to examine students’ decision-making practices. Prior to resuming graduate studies, she was a secondary science teacher and conducted molecular biology research.

Subject(s): Earth Science
Topic: Climate Change and Sustainability
Grade/Level: 9-12 (can be adapted to grades 6-8)
Objectives: Students will be able to write a scientific argument using evidence and reasoning to support claims. Students will also be able to reflect on the weaknesses in their own arguments in order to improve their argument and then respond to other arguments.
Suggested Time Allotment: 4-5 hours (extra time for extension)

This lesson is derived from Dr. Peter Buckland’s sustainability presentation for the Center for Global Studies . Dr. Peter Buckland, a Penn State alumnus, is a postdoctoral fellow for the Sustainability Institute. He has drawn together many resources for teaching about climate change, sustainability, and other environmental issues.

While there are many resources for teaching about climate change and sustainability, it may be tough to figure out where to start. There are massive amounts of data available to the general public and students need help searching for good sources of evidence. Prior to launching into a search, it would be worthwhile figuring out what the students already know about climate change, where they learned it, and how they feel about efforts to reduce our carbon footprint. There are many options for eliciting prior knowledge, including taking online quizzes, whole-class discussion, or drawing concept maps. For this initial step, it is important that students feel comfortable to share, without engaging in disagreements. The main idea is to increase students’ understanding about global warming, rather than focus on the potential controversial nature of this topic.

A major goal of this unit is to engage students in co-constructing evidence-based explanations through individual writing, sharing, re-writing, group discussion, and whole group reflection. The argumentation format presented here contains claims supported by evidence and reasoning (Claims Evidence Reasoning – CER). Argumentation in this sense is different from how the word “argument” is used in everyday language. Argumentation is a collaborative process towards an end goal, rather than a competition to win (Duschl & Osborne, 2002). Scientific argumentation is the process of negotiating and communicating findings through a series of claims supported by evidence from various sources along with a rationale or reasoning linking the claim with the evidence. For students, making the link between claim and evidence can be the most difficult part of the process.

Where does the evidence come from?

Evidence and data are often used synonymously, but there is a difference. Evidence is “the representation of data in a form that undergirds an argument that works to answer the original question” (Hand et al., 2009, p. 129). This explains why even though scientists may use the same data to draw explanations from, the final product may take different forms depending on which parts of the data were used and how. For example, in a court case experts from opposing sides may use the same data to persuade the jury to reach different conclusions. Another way to explain this distinction to students is “the story built from the data that leads to a claim is the evidence” (Hand et al., 2009, p. 129). Evidence can come from many sources – results from controlled experiments, measurements, books, articles, websites, personal observations, etc. It is important to discuss with students the issue of the source’s reliability and accuracy. When using data freely available online, ask yourself: Who conducted the study? Who funded the research? Where was it published or presented?

What is a claim and how do I find it?

A scientific claim is a statement that answers a question or an inference based on information, rather than just personal opinion.

How can I connect the claim(s) with the evidence?

That’s where the justification or reasoning comes in. This portion of the argument explains why the evidence is relevant to the claim or how the evidence supports the claim.

Implementation

Learning context and connecting to state standards.

This interdisciplinary unit can be used in an earth science class or adapted to environmental science, chemistry, or physics. The key to adapting the lesson is guiding students to sources of data that fit the discipline they are studying.

For earth science , students can explain the difference between climate and weather, describe the factors associated with global climate change, and explore a variety of data sources to draw their evidence from. Pennsylvania Academic Standards for earth and space science (secondary): 3.3.12.A1, 3.3.12.A6, 3.3.10.A7.

For environmental science , students can analyze the costs and benefits of pollution control measures. Pennsylvania Academic Standards for Environment and Ecology (secondary): 4.5.12.C.

For chemistry and physics , students can explain the function of greenhouse gases, construct a model of the greenhouse effect, and model energy flow through the atmosphere. Pennsylvania Academic Standards for Physical Sciences (secondary): 3.2.10.B6.

New Generation Science Standards (NGSS) Connections

Human impacts and global climate change are directly addressed in the NGSS. Disciplinary Core Ideas (DCI): HS-ESS3-3, HS-ESS3-4, HS-ESS3-5, HS-ESS3-6.

Lesson 1: Introduction to climate change

What are greenhouse gases and the greenhouse effect? (sample answer: greenhouse gases like carbon dioxide and methane contribute to overall heating of the atmosphere; these gases trap heat just like the glass in a greenhouse or in a car)
What is the difference between weather and climate? (sample answer: weather is the daily temperature and precipitation measurements, while climate is a much longer pattern over multiple years)

Drawing of the greenhouse effect – as individuals or in pairs, have students look up the greenhouse effect and draw a diagram to represent it; share out with the class

Optional: figure out students’ beliefs about global warming using the Yale Six Americas Survey (students answer a series of questions and at the end they are given one of the following categories: alarmed, concerned, cautious, disengaged, doubtful, dismissive).

Lesson 2: Searching for and evaluating evidence

Compare different data sources and assess their credibility
Temperature
Precipitation
Storm surge
Ask the students to think about what types of claims they can make about climate change using the data they found (Sample claims: human activity is causing global warming or sea-level rise in the next fifty years will affect coastal cities like Amsterdam, Hong Kong, or New Orleans).

Lesson 3: Writing an argument using evidence

Claim – an inference or a statement that answers a question
Evidence – an outside source of information that supports the claim, often drawn from selected data
Reasoning – the justification/support for the claim; what connects the evidence with the claim
Extending arguments – have students exchange papers and notice the strengths of the other arguments they are reading (can do multiple cycles of reading); ask students to go back to their original argument and expand it with more evidence and/or more justification for why the evidence supports the claim
Anticipate Rebuttals – ask students to think and write about any weaknesses in their own argument

Lesson 4: Argumentation discussion

rebuttal – challenges a component of someone’s argument – for example, a challenge to the evidence used in the original argument
counterargument – a whole new argument that challenges the original argument
respect group members and their ideas
wait for group members to finish their turns before speaking
be mindful of your own contributions to the discussion (try not to take over the whole discussion so others can contribute too; conversely, if you didn’t already talk, find a way to bring in a new argument, expand on an existing argument, or challenge another argument)
Debate/discussion – In table groups have students share their arguments and practice rebuttals and counterarguments
Whole-group reflection – ask students to share key points from their discussion

Lesson 5: Argumentation in action case study

Mumbai, india case study.

Rishi is a thirteen year old boy who attends the Gayak Rafi Nagar Urdu Municipal school in Mumbai. There is a massive landfill called Deonar right across from his school. Every day 4,000 tons of waste are piled on top of the existing garbage spanning 132 hectares (roughly half a square mile). Rishi ventures out to the landfill after school to look for materials that he can later trade for a little bit of extra money to help his family. He feels lucky that he gets to go to school during the day; others are not so lucky. One of his friends, Aamir, had to stop going to school and work full time after his dad got injured. They often meet to chat while they dig through the garbage with sticks. Occasionally, they find books in okay shape, which aren’t worth anything in trade, but to them they are valuable.

One day Rishi was out to the market with his mom and saw the sky darken with a heavy smoke that blocked out the sun. They both hurried home and found out there was a state of emergency and the schools closed for two days. It took many days to put out the fire at Deonar. He heard his dad say that the fire was so bad that it could be seen from space. He wonders what it would be like to see Mumbai from up there. Some days he wishes the government would close down Deonar and clean it up. Other days he wonders what would happen to all the people that depend on it to live if the city shuts down Deonar.

Mumbai is one of the coastal cities that are considered vulnerable with increasing global temperature and sea level rise. The urban poor are most affected by climate change. Their shelter could be wiped out by a tropical storm and rebuilding would be very difficult.

Write a letter to a public official who may be able to influence policy in Mumbai.

What would you recommend they do? Should they close Deonar? What can they do to reduce air pollution in the city and prepare for possible storms? Remember to use evidence in your argument.

If students want to read the articles that inspired the case study direct them to: http://unhabitat.org/urban-themes/climate-change/

http://www.bloomberg.com/slideshow/2012-07-06/top-20-cities-with-billions-at-risk-from-climate-change.html#slide16

http://www.bloomberg.com/news/articles/2015-07-26/smelly-dumps-drive-away-affordable-homes-in-land-starved-mumbai

http://www.cnn.com/2016/02/05/asia/mumbai-giant-garbage-dump-fire/

Resources:

Lines of Evidence video from the National Academies of Sciences, Engineering, and Medicine http://nas-sites.org/americasclimatechoices/videos-multimedia/climate-change-lines-of-evidence-videos/
Climate Literacy and Energy Awareness Network (CLEAN)
Climate maps from the National Oceanic and Atmospheric Administration
Sources of data from NASA
Explore the original source of the Proceedings of the National Academies of Sciences (PNAS) study

Differentiated Instruction

For visual learners – use diagrams, encourage students to map out their arguments prior to writing them
For auditory learners – use the lines of evidence video
For ESL students – provide them with a variety of greenhouse gases diagrams, allow for a more flexible argument format and focus on general meaning-making – ex. using arrows to connect their sources of evidence to claims
For advanced learners – ask them to search through larger data sets and make comparisons between data from different sources; they can also research environmental policies and why they stalled out in congress
For learners that need more support – print out excerpts from articles; pinpoint the main ideas to help with the research; help students connect their evidence with their claims; consider allowing students to work in pairs to accomplish the writing task

Argument write-up – check that students’ arguments contain claims supported by evidence and reasoning and that they thought about possible weaknesses in their own arguments.

Case study letter – check that students included evidence in their letter.

References:

Duschl, R. A., & Osborne, J. (2002). Supporting and promoting argumentation discourse in science education.

Hand, B. et al. (2009) Negotiating Science: The Critical Role of Argumentation in Student Inquiry. Portsmouth, NH: Heinemann.

McNeill, K. L., & Krajcik, J. (2012). Claim, evidence and reasoning: Supporting grade 5 – 8 students in constructing scientiﬁc explanations. New York, NY: Pearson Allyn & Bacon.

Sawyer, R. K. (Ed.). (2014). The Cambridge handbook of the learning sciences. New York, NY: Cambridge University Press.

https://www3.epa.gov/climatechange/kids/basics/today/greenhouse-gases.html

http://unhabitat.org/urban-themes/climate-change/

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Thesis Topics

The dissertation projects of the DK (in the first phase from 2014 to 2018) contribute to finding answers to three questions:

How do we understand and deal with climate change uncertainties in the natural and social sciences as well as from the perspective of normative theories?
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A review of the global climate change impacts, adaptation, and sustainable mitigation measures

Kashif abbass.

1 School of Economics and Management, Nanjing University of Science and Technology, Nanjing, 210094 People’s Republic of China

Muhammad Zeeshan Qasim

2 Jiangsu Key Laboratory of Chemical Pollution Control and Resources Reuse, School of Environmental and Biological Engineering, Nanjing University of Science and Technology, Xiaolingwei 200, Nanjing, 210094 People’s Republic of China

Huaming Song

Muntasir murshed.

3 School of Business and Economics, North South University, Dhaka, 1229 Bangladesh

4 Department of Journalism, Media and Communications, Daffodil International University, Dhaka, Bangladesh

Haider Mahmood

5 Department of Finance, College of Business Administration, Prince Sattam Bin Abdulaziz University, 173, Alkharj, 11942 Saudi Arabia

Ijaz Younis

Associated data.

Data sources and relevant links are provided in the paper to access data.

Climate change is a long-lasting change in the weather arrays across tropics to polls. It is a global threat that has embarked on to put stress on various sectors. This study is aimed to conceptually engineer how climate variability is deteriorating the sustainability of diverse sectors worldwide. Specifically, the agricultural sector’s vulnerability is a globally concerning scenario, as sufficient production and food supplies are threatened due to irreversible weather fluctuations. In turn, it is challenging the global feeding patterns, particularly in countries with agriculture as an integral part of their economy and total productivity. Climate change has also put the integrity and survival of many species at stake due to shifts in optimum temperature ranges, thereby accelerating biodiversity loss by progressively changing the ecosystem structures. Climate variations increase the likelihood of particular food and waterborne and vector-borne diseases, and a recent example is a coronavirus pandemic. Climate change also accelerates the enigma of antimicrobial resistance, another threat to human health due to the increasing incidence of resistant pathogenic infections. Besides, the global tourism industry is devastated as climate change impacts unfavorable tourism spots. The methodology investigates hypothetical scenarios of climate variability and attempts to describe the quality of evidence to facilitate readers’ careful, critical engagement. Secondary data is used to identify sustainability issues such as environmental, social, and economic viability. To better understand the problem, gathered the information in this report from various media outlets, research agencies, policy papers, newspapers, and other sources. This review is a sectorial assessment of climate change mitigation and adaptation approaches worldwide in the aforementioned sectors and the associated economic costs. According to the findings, government involvement is necessary for the country’s long-term development through strict accountability of resources and regulations implemented in the past to generate cutting-edge climate policy. Therefore, mitigating the impacts of climate change must be of the utmost importance, and hence, this global threat requires global commitment to address its dreadful implications to ensure global sustenance.

Introduction

Worldwide observed and anticipated climatic changes for the twenty-first century and global warming are significant global changes that have been encountered during the past 65 years. Climate change (CC) is an inter-governmental complex challenge globally with its influence over various components of the ecological, environmental, socio-political, and socio-economic disciplines (Adger et al. 2005 ; Leal Filho et al. 2021 ; Feliciano et al. 2022 ). Climate change involves heightened temperatures across numerous worlds (Battisti and Naylor 2009 ; Schuurmans 2021 ; Weisheimer and Palmer 2005 ; Yadav et al. 2015 ). With the onset of the industrial revolution, the problem of earth climate was amplified manifold (Leppänen et al. 2014 ). It is reported that the immediate attention and due steps might increase the probability of overcoming its devastating impacts. It is not plausible to interpret the exact consequences of climate change (CC) on a sectoral basis (Izaguirre et al. 2021 ; Jurgilevich et al. 2017 ), which is evident by the emerging level of recognition plus the inclusion of climatic uncertainties at both local and national level of policymaking (Ayers et al. 2014 ).

Climate change is characterized based on the comprehensive long-haul temperature and precipitation trends and other components such as pressure and humidity level in the surrounding environment. Besides, the irregular weather patterns, retreating of global ice sheets, and the corresponding elevated sea level rise are among the most renowned international and domestic effects of climate change (Lipczynska-Kochany 2018 ; Michel et al. 2021 ; Murshed and Dao 2020 ). Before the industrial revolution, natural sources, including volcanoes, forest fires, and seismic activities, were regarded as the distinct sources of greenhouse gases (GHGs) such as CO 2 , CH 4 , N 2 O, and H 2 O into the atmosphere (Murshed et al. 2020 ; Hussain et al. 2020 ; Sovacool et al. 2021 ; Usman and Balsalobre-Lorente 2022 ; Murshed 2022 ). United Nations Framework Convention on Climate Change (UNFCCC) struck a major agreement to tackle climate change and accelerate and intensify the actions and investments required for a sustainable low-carbon future at Conference of the Parties (COP-21) in Paris on December 12, 2015. The Paris Agreement expands on the Convention by bringing all nations together for the first time in a single cause to undertake ambitious measures to prevent climate change and adapt to its impacts, with increased funding to assist developing countries in doing so. As so, it marks a turning point in the global climate fight. The core goal of the Paris Agreement is to improve the global response to the threat of climate change by keeping the global temperature rise this century well below 2 °C over pre-industrial levels and to pursue efforts to limit the temperature increase to 1.5° C (Sharma et al. 2020 ; Sharif et al. 2020 ; Chien et al. 2021 .

Furthermore, the agreement aspires to strengthen nations’ ability to deal with the effects of climate change and align financing flows with low GHG emissions and climate-resilient paths (Shahbaz et al. 2019 ; Anwar et al. 2021 ; Usman et al. 2022a ). To achieve these lofty goals, adequate financial resources must be mobilized and provided, as well as a new technology framework and expanded capacity building, allowing developing countries and the most vulnerable countries to act under their respective national objectives. The agreement also establishes a more transparent action and support mechanism. All Parties are required by the Paris Agreement to do their best through “nationally determined contributions” (NDCs) and to strengthen these efforts in the coming years (Balsalobre-Lorente et al. 2020 ). It includes obligations that all Parties regularly report on their emissions and implementation activities. A global stock-take will be conducted every five years to review collective progress toward the agreement’s goal and inform the Parties’ future individual actions. The Paris Agreement became available for signature on April 22, 2016, Earth Day, at the United Nations Headquarters in New York. On November 4, 2016, it went into effect 30 days after the so-called double threshold was met (ratification by 55 nations accounting for at least 55% of world emissions). More countries have ratified and continue to ratify the agreement since then, bringing 125 Parties in early 2017. To fully operationalize the Paris Agreement, a work program was initiated in Paris to define mechanisms, processes, and recommendations on a wide range of concerns (Murshed et al. 2021 ). Since 2016, Parties have collaborated in subsidiary bodies (APA, SBSTA, and SBI) and numerous formed entities. The Conference of the Parties functioning as the meeting of the Parties to the Paris Agreement (CMA) convened for the first time in November 2016 in Marrakesh in conjunction with COP22 and made its first two resolutions. The work plan is scheduled to be finished by 2018. Some mitigation and adaptation strategies to reduce the emission in the prospective of Paris agreement are following firstly, a long-term goal of keeping the increase in global average temperature to well below 2 °C above pre-industrial levels, secondly, to aim to limit the rise to 1.5 °C, since this would significantly reduce risks and the impacts of climate change, thirdly, on the need for global emissions to peak as soon as possible, recognizing that this will take longer for developing countries, lastly, to undertake rapid reductions after that under the best available science, to achieve a balance between emissions and removals in the second half of the century. On the other side, some adaptation strategies are; strengthening societies’ ability to deal with the effects of climate change and to continue & expand international assistance for developing nations’ adaptation.

However, anthropogenic activities are currently regarded as most accountable for CC (Murshed et al. 2022 ). Apart from the industrial revolution, other anthropogenic activities include excessive agricultural operations, which further involve the high use of fuel-based mechanization, burning of agricultural residues, burning fossil fuels, deforestation, national and domestic transportation sectors, etc. (Huang et al. 2016 ). Consequently, these anthropogenic activities lead to climatic catastrophes, damaging local and global infrastructure, human health, and total productivity. Energy consumption has mounted GHGs levels concerning warming temperatures as most of the energy production in developing countries comes from fossil fuels (Balsalobre-Lorente et al. 2022 ; Usman et al. 2022b ; Abbass et al. 2021a ; Ishikawa-Ishiwata and Furuya 2022 ).

This review aims to highlight the effects of climate change in a socio-scientific aspect by analyzing the existing literature on various sectorial pieces of evidence globally that influence the environment. Although this review provides a thorough examination of climate change and its severe affected sectors that pose a grave danger for global agriculture, biodiversity, health, economy, forestry, and tourism, and to purpose some practical prophylactic measures and mitigation strategies to be adapted as sound substitutes to survive from climate change (CC) impacts. The societal implications of irregular weather patterns and other effects of climate changes are discussed in detail. Some numerous sustainable mitigation measures and adaptation practices and techniques at the global level are discussed in this review with an in-depth focus on its economic, social, and environmental aspects. Methods of data collection section are included in the supplementary information.

Review methodology

Related study and its objectives.

Today, we live an ordinary life in the beautiful digital, globalized world where climate change has a decisive role. What happens in one country has a massive influence on geographically far apart countries, which points to the current crisis known as COVID-19 (Sarkar et al. 2021 ). The most dangerous disease like COVID-19 has affected the world’s climate changes and economic conditions (Abbass et al. 2022 ; Pirasteh-Anosheh et al. 2021 ). The purpose of the present study is to review the status of research on the subject, which is based on “Global Climate Change Impacts, adaptation, and sustainable mitigation measures” by systematically reviewing past published and unpublished research work. Furthermore, the current study seeks to comment on research on the same topic and suggest future research on the same topic. Specifically, the present study aims: The first one is, organize publications to make them easy and quick to find. Secondly, to explore issues in this area, propose an outline of research for future work. The third aim of the study is to synthesize the previous literature on climate change, various sectors, and their mitigation measurement. Lastly , classify the articles according to the different methods and procedures that have been adopted.

Review methodology for reviewers

This review-based article followed systematic literature review techniques that have proved the literature review as a rigorous framework (Benita 2021 ; Tranfield et al. 2003 ). Moreover, we illustrate in Fig. 1 the search method that we have started for this research. First, finalized the research theme to search literature (Cooper et al. 2018 ). Second, used numerous research databases to search related articles and download from the database (Web of Science, Google Scholar, Scopus Index Journals, Emerald, Elsevier Science Direct, Springer, and Sciverse). We focused on various articles, with research articles, feedback pieces, short notes, debates, and review articles published in scholarly journals. Reports used to search for multiple keywords such as “Climate Change,” “Mitigation and Adaptation,” “Department of Agriculture and Human Health,” “Department of Biodiversity and Forestry,” etc.; in summary, keyword list and full text have been made. Initially, the search for keywords yielded a large amount of literature.

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Methodology search for finalized articles for investigations.

Source : constructed by authors

Since 2020, it has been impossible to review all the articles found; some restrictions have been set for the literature exhibition. The study searched 95 articles on a different database mentioned above based on the nature of the study. It excluded 40 irrelevant papers due to copied from a previous search after readings tiles, abstract and full pieces. The criteria for inclusion were: (i) articles focused on “Global Climate Change Impacts, adaptation, and sustainable mitigation measures,” and (ii) the search key terms related to study requirements. The complete procedure yielded 55 articles for our study. We repeat our search on the “Web of Science and Google Scholars” database to enhance the search results and check the referenced articles.

In this study, 55 articles are reviewed systematically and analyzed for research topics and other aspects, such as the methods, contexts, and theories used in these studies. Furthermore, this study analyzes closely related areas to provide unique research opportunities in the future. The study also discussed future direction opportunities and research questions by understanding the research findings climate changes and other affected sectors. The reviewed paper framework analysis process is outlined in Fig. 2 .

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Framework of the analysis Process.

Natural disasters and climate change’s socio-economic consequences

Natural and environmental disasters can be highly variable from year to year; some years pass with very few deaths before a significant disaster event claims many lives (Symanski et al. 2021 ). Approximately 60,000 people globally died from natural disasters each year on average over the past decade (Ritchie and Roser 2014 ; Wiranata and Simbolon 2021 ). So, according to the report, around 0.1% of global deaths. Annual variability in the number and share of deaths from natural disasters in recent decades are shown in Fig. 3 . The number of fatalities can be meager—sometimes less than 10,000, and as few as 0.01% of all deaths. But shock events have a devastating impact: the 1983–1985 famine and drought in Ethiopia; the 2004 Indian Ocean earthquake and tsunami; Cyclone Nargis, which struck Myanmar in 2008; and the 2010 Port-au-Prince earthquake in Haiti and now recent example is COVID-19 pandemic (Erman et al. 2021 ). These events pushed global disaster deaths to over 200,000—more than 0.4% of deaths in these years. Low-frequency, high-impact events such as earthquakes and tsunamis are not preventable, but such high losses of human life are. Historical evidence shows that earlier disaster detection, more robust infrastructure, emergency preparedness, and response programmers have substantially reduced disaster deaths worldwide. Low-income is also the most vulnerable to disasters; improving living conditions, facilities, and response services in these areas would be critical in reducing natural disaster deaths in the coming decades.

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Global deaths from natural disasters, 1978 to 2020.

Source EMDAT ( 2020 )

The interior regions of the continent are likely to be impacted by rising temperatures (Dimri et al. 2018 ; Goes et al. 2020 ; Mannig et al. 2018 ; Schuurmans 2021 ). Weather patterns change due to the shortage of natural resources (water), increase in glacier melting, and rising mercury are likely to cause extinction to many planted species (Gampe et al. 2016 ; Mihiretu et al. 2021 ; Shaffril et al. 2018 ).On the other hand, the coastal ecosystem is on the verge of devastation (Perera et al. 2018 ; Phillips 2018 ). The temperature rises, insect disease outbreaks, health-related problems, and seasonal and lifestyle changes are persistent, with a strong probability of these patterns continuing in the future (Abbass et al. 2021c ; Hussain et al. 2018 ). At the global level, a shortage of good infrastructure and insufficient adaptive capacity are hammering the most (IPCC 2013 ). In addition to the above concerns, a lack of environmental education and knowledge, outdated consumer behavior, a scarcity of incentives, a lack of legislation, and the government’s lack of commitment to climate change contribute to the general public’s concerns. By 2050, a 2 to 3% rise in mercury and a drastic shift in rainfall patterns may have serious consequences (Huang et al. 2022 ; Gorst et al. 2018 ). Natural and environmental calamities caused huge losses globally, such as decreased agriculture outputs, rehabilitation of the system, and rebuilding necessary technologies (Ali and Erenstein 2017 ; Ramankutty et al. 2018 ; Yu et al. 2021 ) (Table (Table1). 1 ). Furthermore, in the last 3 or 4 years, the world has been plagued by smog-related eye and skin diseases, as well as a rise in road accidents due to poor visibility.

Main natural danger statistics for 1985–2020 at the global level

Source: EM-DAT ( 2020 )

Climate change and agriculture

Global agriculture is the ultimate sector responsible for 30–40% of all greenhouse emissions, which makes it a leading industry predominantly contributing to climate warming and significantly impacted by it (Grieg; Mishra et al. 2021 ; Ortiz et al. 2021 ; Thornton and Lipper 2014 ). Numerous agro-environmental and climatic factors that have a dominant influence on agriculture productivity (Pautasso et al. 2012 ) are significantly impacted in response to precipitation extremes including floods, forest fires, and droughts (Huang 2004 ). Besides, the immense dependency on exhaustible resources also fuels the fire and leads global agriculture to become prone to devastation. Godfray et al. ( 2010 ) mentioned that decline in agriculture challenges the farmer’s quality of life and thus a significant factor to poverty as the food and water supplies are critically impacted by CC (Ortiz et al. 2021 ; Rosenzweig et al. 2014 ). As an essential part of the economic systems, especially in developing countries, agricultural systems affect the overall economy and potentially the well-being of households (Schlenker and Roberts 2009 ). According to the report published by the Intergovernmental Panel on Climate Change (IPCC), atmospheric concentrations of greenhouse gases, i.e., CH 4, CO 2 , and N 2 O, are increased in the air to extraordinary levels over the last few centuries (Usman and Makhdum 2021 ; Stocker et al. 2013 ). Climate change is the composite outcome of two different factors. The first is the natural causes, and the second is the anthropogenic actions (Karami 2012 ). It is also forecasted that the world may experience a typical rise in temperature stretching from 1 to 3.7 °C at the end of this century (Pachauri et al. 2014 ). The world’s crop production is also highly vulnerable to these global temperature-changing trends as raised temperatures will pose severe negative impacts on crop growth (Reidsma et al. 2009 ). Some of the recent modeling about the fate of global agriculture is briefly described below.

Decline in cereal productivity

Crop productivity will also be affected dramatically in the next few decades due to variations in integral abiotic factors such as temperature, solar radiation, precipitation, and CO 2 . These all factors are included in various regulatory instruments like progress and growth, weather-tempted changes, pest invasions (Cammell and Knight 1992 ), accompanying disease snags (Fand et al. 2012 ), water supplies (Panda et al. 2003 ), high prices of agro-products in world’s agriculture industry, and preeminent quantity of fertilizer consumption. Lobell and field ( 2007 ) claimed that from 1962 to 2002, wheat crop output had condensed significantly due to rising temperatures. Therefore, during 1980–2011, the common wheat productivity trends endorsed extreme temperature events confirmed by Gourdji et al. ( 2013 ) around South Asia, South America, and Central Asia. Various other studies (Asseng, Cao, Zhang, and Ludwig 2009 ; Asseng et al. 2013 ; García et al. 2015 ; Ortiz et al. 2021 ) also proved that wheat output is negatively affected by the rising temperatures and also caused adverse effects on biomass productivity (Calderini et al. 1999 ; Sadras and Slafer 2012 ). Hereafter, the rice crop is also influenced by the high temperatures at night. These difficulties will worsen because the temperature will be rising further in the future owing to CC (Tebaldi et al. 2006 ). Another research conducted in China revealed that a 4.6% of rice production per 1 °C has happened connected with the advancement in night temperatures (Tao et al. 2006 ). Moreover, the average night temperature growth also affected rice indicia cultivar’s output pragmatically during 25 years in the Philippines (Peng et al. 2004 ). It is anticipated that the increase in world average temperature will also cause a substantial reduction in yield (Hatfield et al. 2011 ; Lobell and Gourdji 2012 ). In the southern hemisphere, Parry et al. ( 2007 ) noted a rise of 1–4 °C in average daily temperatures at the end of spring season unti the middle of summers, and this raised temperature reduced crop output by cutting down the time length for phenophases eventually reduce the yield (Hatfield and Prueger 2015 ; R. Ortiz 2008 ). Also, world climate models have recommended that humid and subtropical regions expect to be plentiful prey to the upcoming heat strokes (Battisti and Naylor 2009 ). Grain production is the amalgamation of two constituents: the average weight and the grain output/m 2 , however, in crop production. Crop output is mainly accredited to the grain quantity (Araus et al. 2008 ; Gambín and Borrás 2010 ). In the times of grain set, yield resources are mainly strewn between hitherto defined components, i.e., grain usual weight and grain output, which presents a trade-off between them (Gambín and Borrás 2010 ) beside disparities in per grain integration (B. L. Gambín et al. 2006 ). In addition to this, the maize crop is also susceptible to raised temperatures, principally in the flowering stage (Edreira and Otegui 2013 ). In reality, the lower grain number is associated with insufficient acclimatization due to intense photosynthesis and higher respiration and the high-temperature effect on the reproduction phenomena (Edreira and Otegui 2013 ). During the flowering phase, maize visible to heat (30–36 °C) seemed less anthesis-silking intermissions (Edreira et al. 2011 ). Another research by Dupuis and Dumas ( 1990 ) proved that a drop in spikelet when directly visible to high temperatures above 35 °C in vitro pollination. Abnormalities in kernel number claimed by Vega et al. ( 2001 ) is related to conceded plant development during a flowering phase that is linked with the active ear growth phase and categorized as a critical phase for approximation of kernel number during silking (Otegui and Bonhomme 1998 ).

The retort of rice output to high temperature presents disparities in flowering patterns, and seed set lessens and lessens grain weight (Qasim et al. 2020 ; Qasim, Hammad, Maqsood, Tariq, & Chawla). During the daytime, heat directly impacts flowers which lessens the thesis period and quickens the earlier peak flowering (Tao et al. 2006 ). Antagonistic effect of higher daytime temperature d on pollen sprouting proposed seed set decay, whereas, seed set was lengthily reduced than could be explicated by pollen growing at high temperatures 40◦C (Matsui et al. 2001 ).

The decline in wheat output is linked with higher temperatures, confirmed in numerous studies (Semenov 2009 ; Stone and Nicolas 1994 ). High temperatures fast-track the arrangements of plant expansion (Blum et al. 2001 ), diminution photosynthetic process (Salvucci and Crafts‐Brandner 2004 ), and also considerably affect the reproductive operations (Farooq et al. 2011 ).

The destructive impacts of CC induced weather extremes to deteriorate the integrity of crops (Chaudhary et al. 2011 ), e.g., Spartan cold and extreme fog cause falling and discoloration of betel leaves (Rosenzweig et al. 2001 ), giving them a somehow reddish appearance, squeezing of lemon leaves (Pautasso et al. 2012 ), as well as root rot of pineapple, have reported (Vedwan and Rhoades 2001 ). Henceforth, in tackling the disruptive effects of CC, several short-term and long-term management approaches are the crucial need of time (Fig. 4 ). Moreover, various studies (Chaudhary et al. 2011 ; Patz et al. 2005 ; Pautasso et al. 2012 ) have demonstrated adapting trends such as ameliorating crop diversity can yield better adaptability towards CC.

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Schematic description of potential impacts of climate change on the agriculture sector and the appropriate mitigation and adaptation measures to overcome its impact.

Climate change impacts on biodiversity

Global biodiversity is among the severe victims of CC because it is the fastest emerging cause of species loss. Studies demonstrated that the massive scale species dynamics are considerably associated with diverse climatic events (Abraham and Chain 1988 ; Manes et al. 2021 ; A. M. D. Ortiz et al. 2021 ). Both the pace and magnitude of CC are altering the compatible habitat ranges for living entities of marine, freshwater, and terrestrial regions. Alterations in general climate regimes influence the integrity of ecosystems in numerous ways, such as variation in the relative abundance of species, range shifts, changes in activity timing, and microhabitat use (Bates et al. 2014 ). The geographic distribution of any species often depends upon its ability to tolerate environmental stresses, biological interactions, and dispersal constraints. Hence, instead of the CC, the local species must only accept, adapt, move, or face extinction (Berg et al. 2010 ). So, the best performer species have a better survival capacity for adjusting to new ecosystems or a decreased perseverance to survive where they are already situated (Bates et al. 2014 ). An important aspect here is the inadequate habitat connectivity and access to microclimates, also crucial in raising the exposure to climate warming and extreme heatwave episodes. For example, the carbon sequestration rates are undergoing fluctuations due to climate-driven expansion in the range of global mangroves (Cavanaugh et al. 2014 ).

Similarly, the loss of kelp-forest ecosystems in various regions and its occupancy by the seaweed turfs has set the track for elevated herbivory by the high influx of tropical fish populations. Not only this, the increased water temperatures have exacerbated the conditions far away from the physiological tolerance level of the kelp communities (Vergés et al. 2016 ; Wernberg et al. 2016 ). Another pertinent danger is the devastation of keystone species, which even has more pervasive effects on the entire communities in that habitat (Zarnetske et al. 2012 ). It is particularly important as CC does not specify specific populations or communities. Eventually, this CC-induced redistribution of species may deteriorate carbon storage and the net ecosystem productivity (Weed et al. 2013 ). Among the typical disruptions, the prominent ones include impacts on marine and terrestrial productivity, marine community assembly, and the extended invasion of toxic cyanobacteria bloom (Fossheim et al. 2015 ).

The CC-impacted species extinction is widely reported in the literature (Beesley et al. 2019 ; Urban 2015 ), and the predictions of demise until the twenty-first century are dreadful (Abbass et al. 2019 ; Pereira et al. 2013 ). In a few cases, northward shifting of species may not be formidable as it allows mountain-dwelling species to find optimum climates. However, the migrant species may be trapped in isolated and incompatible habitats due to losing topography and range (Dullinger et al. 2012 ). For example, a study indicated that the American pika has been extirpated or intensely diminished in some regions, primarily attributed to the CC-impacted extinction or at least local extirpation (Stewart et al. 2015 ). Besides, the anticipation of persistent responses to the impacts of CC often requires data records of several decades to rigorously analyze the critical pre and post CC patterns at species and ecosystem levels (Manes et al. 2021 ; Testa et al. 2018 ).

Nonetheless, the availability of such long-term data records is rare; hence, attempts are needed to focus on these profound aspects. Biodiversity is also vulnerable to the other associated impacts of CC, such as rising temperatures, droughts, and certain invasive pest species. For instance, a study revealed the changes in the composition of plankton communities attributed to rising temperatures. Henceforth, alterations in such aquatic producer communities, i.e., diatoms and calcareous plants, can ultimately lead to variation in the recycling of biological carbon. Moreover, such changes are characterized as a potential contributor to CO 2 differences between the Pleistocene glacial and interglacial periods (Kohfeld et al. 2005 ).

Climate change implications on human health

It is an understood corporality that human health is a significant victim of CC (Costello et al. 2009 ). According to the WHO, CC might be responsible for 250,000 additional deaths per year during 2030–2050 (Watts et al. 2015 ). These deaths are attributed to extreme weather-induced mortality and morbidity and the global expansion of vector-borne diseases (Lemery et al. 2021; Yang and Usman 2021 ; Meierrieks 2021 ; UNEP 2017 ). Here, some of the emerging health issues pertinent to this global problem are briefly described.

Climate change and antimicrobial resistance with corresponding economic costs

Antimicrobial resistance (AMR) is an up-surging complex global health challenge (Garner et al. 2019 ; Lemery et al. 2021 ). Health professionals across the globe are extremely worried due to this phenomenon that has critical potential to reverse almost all the progress that has been achieved so far in the health discipline (Gosling and Arnell 2016 ). A massive amount of antibiotics is produced by many pharmaceutical industries worldwide, and the pathogenic microorganisms are gradually developing resistance to them, which can be comprehended how strongly this aspect can shake the foundations of national and global economies (UNEP 2017 ). This statement is supported by the fact that AMR is not developing in a particular region or country. Instead, it is flourishing in every continent of the world (WHO 2018 ). This plague is heavily pushing humanity to the post-antibiotic era, in which currently antibiotic-susceptible pathogens will once again lead to certain endemics and pandemics after being resistant(WHO 2018 ). Undesirably, if this statement would become a factuality, there might emerge certain risks in undertaking sophisticated interventions such as chemotherapy, joint replacement cases, and organ transplantation (Su et al. 2018 ). Presently, the amplification of drug resistance cases has made common illnesses like pneumonia, post-surgical infections, HIV/AIDS, tuberculosis, malaria, etc., too difficult and costly to be treated or cure well (WHO 2018 ). From a simple example, it can be assumed how easily antibiotic-resistant strains can be transmitted from one person to another and ultimately travel across the boundaries (Berendonk et al. 2015 ). Talking about the second- and third-generation classes of antibiotics, e.g., most renowned generations of cephalosporin antibiotics that are more expensive, broad-spectrum, more toxic, and usually require more extended periods whenever prescribed to patients (Lemery et al. 2021 ; Pärnänen et al. 2019 ). This scenario has also revealed that the abundance of resistant strains of pathogens was also higher in the Southern part (WHO 2018 ). As southern parts are generally warmer than their counterparts, it is evident from this example how CC-induced global warming can augment the spread of antibiotic-resistant strains within the biosphere, eventually putting additional economic burden in the face of developing new and costlier antibiotics. The ARG exchange to susceptible bacteria through one of the potential mechanisms, transformation, transduction, and conjugation; Selection pressure can be caused by certain antibiotics, metals or pesticides, etc., as shown in Fig. 5 .

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A typical interaction between the susceptible and resistant strains.

Source: Elsayed et al. ( 2021 ); Karkman et al. ( 2018 )

Certain studies highlighted that conventional urban wastewater treatment plants are typical hotspots where most bacterial strains exchange genetic material through horizontal gene transfer (Fig. 5 ). Although at present, the extent of risks associated with the antibiotic resistance found in wastewater is complicated; environmental scientists and engineers have particular concerns about the potential impacts of these antibiotic resistance genes on human health (Ashbolt 2015 ). At most undesirable and worst case, these antibiotic-resistant genes containing bacteria can make their way to enter into the environment (Pruden et al. 2013 ), irrigation water used for crops and public water supplies and ultimately become a part of food chains and food webs (Ma et al. 2019 ; D. Wu et al. 2019 ). This problem has been reported manifold in several countries (Hendriksen et al. 2019 ), where wastewater as a means of irrigated water is quite common.

Climate change and vector borne-diseases

Temperature is a fundamental factor for the sustenance of living entities regardless of an ecosystem. So, a specific living being, especially a pathogen, requires a sophisticated temperature range to exist on earth. The second essential component of CC is precipitation, which also impacts numerous infectious agents’ transport and dissemination patterns. Global rising temperature is a significant cause of many species extinction. On the one hand, this changing environmental temperature may be causing species extinction, and on the other, this warming temperature might favor the thriving of some new organisms. Here, it was evident that some pathogens may also upraise once non-evident or reported (Patz et al. 2000 ). This concept can be exemplified through certain pathogenic strains of microorganisms that how the likelihood of various diseases increases in response to climate warming-induced environmental changes (Table (Table2 2 ).

Examples of how various environmental changes affect various infectious diseases in humans

Source: Aron and Patz ( 2001 )

A recent example is an outburst of coronavirus (COVID-19) in the Republic of China, causing pneumonia and severe acute respiratory complications (Cui et al. 2021 ; Song et al. 2021 ). The large family of viruses is harbored in numerous animals, bats, and snakes in particular (livescience.com) with the subsequent transfer into human beings. Hence, it is worth noting that the thriving of numerous vectors involved in spreading various diseases is influenced by Climate change (Ogden 2018 ; Santos et al. 2021 ).

Psychological impacts of climate change

Climate change (CC) is responsible for the rapid dissemination and exaggeration of certain epidemics and pandemics. In addition to the vast apparent impacts of climate change on health, forestry, agriculture, etc., it may also have psychological implications on vulnerable societies. It can be exemplified through the recent outburst of (COVID-19) in various countries around the world (Pal 2021 ). Besides, the victims of this viral infection have made healthy beings scarier and terrified. In the wake of such epidemics, people with common colds or fever are also frightened and must pass specific regulatory protocols. Living in such situations continuously terrifies the public and makes the stress familiar, which eventually makes them psychologically weak (npr.org).

CC boosts the extent of anxiety, distress, and other issues in public, pushing them to develop various mental-related problems. Besides, frequent exposure to extreme climatic catastrophes such as geological disasters also imprints post-traumatic disorder, and their ubiquitous occurrence paves the way to developing chronic psychological dysfunction. Moreover, repetitive listening from media also causes an increase in the person’s stress level (Association 2020 ). Similarly, communities living in flood-prone areas constantly live in extreme fear of drowning and die by floods. In addition to human lives, the flood-induced destruction of physical infrastructure is a specific reason for putting pressure on these communities (Ogden 2018 ). For instance, Ogden ( 2018 ) comprehensively denoted that Katrina’s Hurricane augmented the mental health issues in the victim communities.

Climate change impacts on the forestry sector

Forests are the global regulators of the world’s climate (FAO 2018 ) and have an indispensable role in regulating global carbon and nitrogen cycles (Rehman et al. 2021 ; Reichstein and Carvalhais 2019 ). Hence, disturbances in forest ecology affect the micro and macro-climates (Ellison et al. 2017 ). Climate warming, in return, has profound impacts on the growth and productivity of transboundary forests by influencing the temperature and precipitation patterns, etc. As CC induces specific changes in the typical structure and functions of ecosystems (Zhang et al. 2017 ) as well impacts forest health, climate change also has several devastating consequences such as forest fires, droughts, pest outbreaks (EPA 2018 ), and last but not the least is the livelihoods of forest-dependent communities. The rising frequency and intensity of another CC product, i.e., droughts, pose plenty of challenges to the well-being of global forests (Diffenbaugh et al. 2017 ), which is further projected to increase soon (Hartmann et al. 2018 ; Lehner et al. 2017 ; Rehman et al. 2021 ). Hence, CC induces storms, with more significant impacts also put extra pressure on the survival of the global forests (Martínez-Alvarado et al. 2018 ), significantly since their influences are augmented during higher winter precipitations with corresponding wetter soils causing weak root anchorage of trees (Brázdil et al. 2018 ). Surging temperature regimes causes alterations in usual precipitation patterns, which is a significant hurdle for the survival of temperate forests (Allen et al. 2010 ; Flannigan et al. 2013 ), letting them encounter severe stress and disturbances which adversely affects the local tree species (Hubbart et al. 2016 ; Millar and Stephenson 2015 ; Rehman et al. 2021 ).

Climate change impacts on forest-dependent communities

Forests are the fundamental livelihood resource for about 1.6 billion people worldwide; out of them, 350 million are distinguished with relatively higher reliance (Bank 2008 ). Agro-forestry-dependent communities comprise 1.2 billion, and 60 million indigenous people solely rely on forests and their products to sustain their lives (Sunderlin et al. 2005 ). For example, in the entire African continent, more than 2/3rd of inhabitants depend on forest resources and woodlands for their alimonies, e.g., food, fuelwood and grazing (Wasiq and Ahmad 2004 ). The livings of these people are more intensely affected by the climatic disruptions making their lives harder (Brown et al. 2014 ). On the one hand, forest communities are incredibly vulnerable to CC due to their livelihoods, cultural and spiritual ties as well as socio-ecological connections, and on the other, they are not familiar with the term “climate change.” (Rahman and Alam 2016 ). Among the destructive impacts of temperature and rainfall, disruption of the agroforestry crops with resultant downscale growth and yield (Macchi et al. 2008 ). Cruz ( 2015 ) ascribed that forest-dependent smallholder farmers in the Philippines face the enigma of delayed fruiting, more severe damages by insect and pest incidences due to unfavorable temperature regimes, and changed rainfall patterns.

Among these series of challenges to forest communities, their well-being is also distinctly vulnerable to CC. Though the detailed climate change impacts on human health have been comprehensively mentioned in the previous section, some studies have listed a few more devastating effects on the prosperity of forest-dependent communities. For instance, the Himalayan people have been experiencing frequent skin-borne diseases such as malaria and other skin diseases due to increasing mosquitoes, wild boar as well, and new wasps species, particularly in higher altitudes that were almost non-existent before last 5–10 years (Xu et al. 2008 ). Similarly, people living at high altitudes in Bangladesh have experienced frequent mosquito-borne calamities (Fardous; Sharma 2012 ). In addition, the pace of other waterborne diseases such as infectious diarrhea, cholera, pathogenic induced abdominal complications and dengue has also been boosted in other distinguished regions of Bangladesh (Cell 2009 ; Gunter et al. 2008 ).

Pest outbreak

Upscaling hotter climate may positively affect the mobile organisms with shorter generation times because they can scurry from harsh conditions than the immobile species (Fettig et al. 2013 ; Schoene and Bernier 2012 ) and are also relatively more capable of adapting to new environments (Jactel et al. 2019 ). It reveals that insects adapt quickly to global warming due to their mobility advantages. Due to past outbreaks, the trees (forests) are relatively more susceptible victims (Kurz et al. 2008 ). Before CC, the influence of factors mentioned earlier, i.e., droughts and storms, was existent and made the forests susceptible to insect pest interventions; however, the global forests remain steadfast, assiduous, and green (Jactel et al. 2019 ). The typical reasons could be the insect herbivores were regulated by several tree defenses and pressures of predation (Wilkinson and Sherratt 2016 ). As climate greatly influences these phenomena, the global forests cannot be so sedulous against such challenges (Jactel et al. 2019 ). Table Table3 3 demonstrates some of the particular considerations with practical examples that are essential while mitigating the impacts of CC in the forestry sector.

Essential considerations while mitigating the climate change impacts on the forestry sector

Source : Fischer ( 2019 )

Climate change impacts on tourism

Tourism is a commercial activity that has roots in multi-dimensions and an efficient tool with adequate job generation potential, revenue creation, earning of spectacular foreign exchange, enhancement in cross-cultural promulgation and cooperation, a business tool for entrepreneurs and eventually for the country’s national development (Arshad et al. 2018 ; Scott 2021 ). Among a plethora of other disciplines, the tourism industry is also a distinct victim of climate warming (Gössling et al. 2012 ; Hall et al. 2015 ) as the climate is among the essential resources that enable tourism in particular regions as most preferred locations. Different places at different times of the year attract tourists both within and across the countries depending upon the feasibility and compatibility of particular weather patterns. Hence, the massive variations in these weather patterns resulting from CC will eventually lead to monumental challenges to the local economy in that specific area’s particular and national economy (Bujosa et al. 2015 ). For instance, the Intergovernmental Panel on Climate Change (IPCC) report demonstrated that the global tourism industry had faced a considerable decline in the duration of ski season, including the loss of some ski areas and the dramatic shifts in tourist destinations’ climate warming.

Furthermore, different studies (Neuvonen et al. 2015 ; Scott et al. 2004 ) indicated that various currently perfect tourist spots, e.g., coastal areas, splendid islands, and ski resorts, will suffer consequences of CC. It is also worth noting that the quality and potential of administrative management potential to cope with the influence of CC on the tourism industry is of crucial significance, which renders specific strengths of resiliency to numerous destinations to withstand against it (Füssel and Hildén 2014 ). Similarly, in the partial or complete absence of adequate socio-economic and socio-political capital, the high-demanding tourist sites scurry towards the verge of vulnerability. The susceptibility of tourism is based on different components such as the extent of exposure, sensitivity, life-supporting sectors, and capacity assessment factors (Füssel and Hildén 2014 ). It is obvious corporality that sectors such as health, food, ecosystems, human habitat, infrastructure, water availability, and the accessibility of a particular region are prone to CC. Henceforth, the sensitivity of these critical sectors to CC and, in return, the adaptive measures are a hallmark in determining the composite vulnerability of climate warming (Ionescu et al. 2009 ).

Moreover, the dependence on imported food items, poor hygienic conditions, and inadequate health professionals are dominant aspects affecting the local terrestrial and aquatic biodiversity. Meanwhile, the greater dependency on ecosystem services and its products also makes a destination more fragile to become a prey of CC (Rizvi et al. 2015 ). Some significant non-climatic factors are important indicators of a particular ecosystem’s typical health and functioning, e.g., resource richness and abundance portray the picture of ecosystem stability. Similarly, the species abundance is also a productive tool that ensures that the ecosystem has a higher buffering capacity, which is terrific in terms of resiliency (Roscher et al. 2013 ).

Climate change impacts on the economic sector

Climate plays a significant role in overall productivity and economic growth. Due to its increasingly global existence and its effect on economic growth, CC has become one of the major concerns of both local and international environmental policymakers (Ferreira et al. 2020 ; Gleditsch 2021 ; Abbass et al. 2021b ; Lamperti et al. 2021 ). The adverse effects of CC on the overall productivity factor of the agricultural sector are therefore significant for understanding the creation of local adaptation policies and the composition of productive climate policy contracts. Previous studies on CC in the world have already forecasted its effects on the agricultural sector. Researchers have found that global CC will impact the agricultural sector in different world regions. The study of the impacts of CC on various agrarian activities in other demographic areas and the development of relative strategies to respond to effects has become a focal point for researchers (Chandioet al. 2020 ; Gleditsch 2021 ; Mosavi et al. 2020 ).

With the rapid growth of global warming since the 1980s, the temperature has started increasing globally, which resulted in the incredible transformation of rain and evaporation in the countries. The agricultural development of many countries has been reliant, delicate, and susceptible to CC for a long time, and it is on the development of agriculture total factor productivity (ATFP) influence different crops and yields of farmers (Alhassan 2021 ; Wu 2020 ).

Food security and natural disasters are increasing rapidly in the world. Several major climatic/natural disasters have impacted local crop production in the countries concerned. The effects of these natural disasters have been poorly controlled by the development of the economies and populations and may affect human life as well. One example is China, which is among the world’s most affected countries, vulnerable to natural disasters due to its large population, harsh environmental conditions, rapid CC, low environmental stability, and disaster power. According to the January 2016 statistical survey, China experienced an economic loss of 298.3 billion Yuan, and about 137 million Chinese people were severely affected by various natural disasters (Xie et al. 2018 ).

Mitigation and adaptation strategies of climate changes

Adaptation and mitigation are the crucial factors to address the response to CC (Jahanzad et al. 2020 ). Researchers define mitigation on climate changes, and on the other hand, adaptation directly impacts climate changes like floods. To some extent, mitigation reduces or moderates greenhouse gas emission, and it becomes a critical issue both economically and environmentally (Botzen et al. 2021 ; Jahanzad et al. 2020 ; Kongsager 2018 ; Smit et al. 2000 ; Vale et al. 2021 ; Usman et al. 2021 ; Verheyen 2005 ).

Researchers have deep concern about the adaptation and mitigation methodologies in sectoral and geographical contexts. Agriculture, industry, forestry, transport, and land use are the main sectors to adapt and mitigate policies(Kärkkäinen et al. 2020 ; Waheed et al. 2021 ). Adaptation and mitigation require particular concern both at the national and international levels. The world has faced a significant problem of climate change in the last decades, and adaptation to these effects is compulsory for economic and social development. To adapt and mitigate against CC, one should develop policies and strategies at the international level (Hussain et al. 2020 ). Figure 6 depicts the list of current studies on sectoral impacts of CC with adaptation and mitigation measures globally.

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Sectoral impacts of climate change with adaptation and mitigation measures.

Conclusion and future perspectives

Specific socio-agricultural, socio-economic, and physical systems are the cornerstone of psychological well-being, and the alteration in these systems by CC will have disastrous impacts. Climate variability, alongside other anthropogenic and natural stressors, influences human and environmental health sustainability. Food security is another concerning scenario that may lead to compromised food quality, higher food prices, and inadequate food distribution systems. Global forests are challenged by different climatic factors such as storms, droughts, flash floods, and intense precipitation. On the other hand, their anthropogenic wiping is aggrandizing their existence. Undoubtedly, the vulnerability scale of the world’s regions differs; however, appropriate mitigation and adaptation measures can aid the decision-making bodies in developing effective policies to tackle its impacts. Presently, modern life on earth has tailored to consistent climatic patterns, and accordingly, adapting to such considerable variations is of paramount importance. Because the faster changes in climate will make it harder to survive and adjust, this globally-raising enigma calls for immediate attention at every scale ranging from elementary community level to international level. Still, much effort, research, and dedication are required, which is the most critical time. Some policy implications can help us to mitigate the consequences of climate change, especially the most affected sectors like the agriculture sector;

Warming might lengthen the season in frost-prone growing regions (temperate and arctic zones), allowing for longer-maturing seasonal cultivars with better yields (Pfadenhauer 2020 ; Bonacci 2019 ). Extending the planting season may allow additional crops each year; when warming leads to frequent warmer months highs over critical thresholds, a split season with a brief summer fallow may be conceivable for short-period crops such as wheat barley, cereals, and many other vegetable crops. The capacity to prolong the planting season in tropical and subtropical places where the harvest season is constrained by precipitation or agriculture farming occurs after the year may be more limited and dependent on how precipitation patterns vary (Wu et al. 2017 ).

The genetic component is comprehensive for many yields, but it is restricted like kiwi fruit for a few. Ali et al. ( 2017 ) investigated how new crops will react to climatic changes (also stated in Mall et al. 2017 ). Hot temperature, drought, insect resistance; salt tolerance; and overall crop production and product quality increases would all be advantageous (Akkari 2016 ). Genetic mapping and engineering can introduce a greater spectrum of features. The adoption of genetically altered cultivars has been slowed, particularly in the early forecasts owing to the complexity in ensuring features are expediently expressed throughout the entire plant, customer concerns, economic profitability, and regulatory impediments (Wirehn 2018 ; Davidson et al. 2016 ).

To get the full benefit of the CO 2 would certainly require additional nitrogen and other fertilizers. Nitrogen not consumed by the plants may be excreted into groundwater, discharged into water surface, or emitted from the land, soil nitrous oxide when large doses of fertilizer are sprayed. Increased nitrogen levels in groundwater sources have been related to human chronic illnesses and impact marine ecosystems. Cultivation, grain drying, and other field activities have all been examined in depth in the studies (Barua et al. 2018 ).

The technological and socio-economic adaptation

The policy consequence of the causative conclusion is that as a source of alternative energy, biofuel production is one of the routes that explain oil price volatility separate from international macroeconomic factors. Even though biofuel production has just begun in a few sample nations, there is still a tremendous worldwide need for feedstock to satisfy industrial expansion in China and the USA, which explains the food price relationship to the global oil price. Essentially, oil-exporting countries may create incentives in their economies to increase food production. It may accomplish by giving farmers financing, seedlings, fertilizers, and farming equipment. Because of the declining global oil price and, as a result, their earnings from oil export, oil-producing nations may be unable to subsidize food imports even in the near term. As a result, these countries can boost the agricultural value chain for export. It may be accomplished through R&D and adding value to their food products to increase income by correcting exchange rate misalignment and adverse trade terms. These nations may also diversify their economies away from oil, as dependence on oil exports alone is no longer economically viable given the extreme volatility of global oil prices. Finally, resource-rich and oil-exporting countries can convert to non-food renewable energy sources such as solar, hydro, coal, wind, wave, and tidal energy. By doing so, both world food and oil supplies would be maintained rather than harmed.

IRENA’s modeling work shows that, if a comprehensive policy framework is in place, efforts toward decarbonizing the energy future will benefit economic activity, jobs (outweighing losses in the fossil fuel industry), and welfare. Countries with weak domestic supply chains and a large reliance on fossil fuel income, in particular, must undertake structural reforms to capitalize on the opportunities inherent in the energy transition. Governments continue to give major policy assistance to extract fossil fuels, including tax incentives, financing, direct infrastructure expenditures, exemptions from environmental regulations, and other measures. The majority of major oil and gas producing countries intend to increase output. Some countries intend to cut coal output, while others plan to maintain or expand it. While some nations are beginning to explore and execute policies aimed at a just and equitable transition away from fossil fuel production, these efforts have yet to impact major producing countries’ plans and goals. Verifiable and comparable data on fossil fuel output and assistance from governments and industries are critical to closing the production gap. Governments could increase openness by declaring their production intentions in their climate obligations under the Paris Agreement.

It is firmly believed that achieving the Paris Agreement commitments is doubtlful without undergoing renewable energy transition across the globe (Murshed 2020 ; Zhao et al. 2022 ). Policy instruments play the most important role in determining the degree of investment in renewable energy technology. This study examines the efficacy of various policy strategies in the renewable energy industry of multiple nations. Although its impact is more visible in established renewable energy markets, a renewable portfolio standard is also a useful policy instrument. The cost of producing renewable energy is still greater than other traditional energy sources. Furthermore, government incentives in the R&D sector can foster innovation in this field, resulting in cost reductions in the renewable energy industry. These nations may export their technologies and share their policy experiences by forming networks among their renewable energy-focused organizations. All policy measures aim to reduce production costs while increasing the proportion of renewables to a country’s energy system. Meanwhile, long-term contracts with renewable energy providers, government commitment and control, and the establishment of long-term goals can assist developing nations in deploying renewable energy technology in their energy sector.

Author contribution

KA: Writing the original manuscript, data collection, data analysis, Study design, Formal analysis, Visualization, Revised draft, Writing-review, and editing. MZQ: Writing the original manuscript, data collection, data analysis, Writing-review, and editing. HS: Contribution to the contextualization of the theme, Conceptualization, Validation, Supervision, literature review, Revised drapt, and writing review and editing. MM: Writing review and editing, compiling the literature review, language editing. HM: Writing review and editing, compiling the literature review, language editing. IY: Contribution to the contextualization of the theme, literature review, and writing review and editing.

Availability of data and material

Declarations.

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The authors declare no competing interests.

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Contributor Information

Kashif Abbass, Email: nc.ude.tsujn@ssabbafihsak .

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Across UBC, faculty and students contribute to research on climate change. See below for recent theses on a few select topics, and search cIRcle , UBC's open access repository, for publications, theses/dissertation, and presentations to find more.

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Home > Environmental Studies > Student Theses 2001-2013

Student Theses 2001-2013

Theses/dissertations from 2017 2017.

The Disappearing Wetland Act: Climate Change, Development, and Protection , Jessica P. Doughty

Theses/Dissertations from 2013 2013

The Centrality of Ecological Design: Achieving Sustainability in an Era of Free-Market Capitalist Framework , Eddy Andrade

A Vicious CERCLA, Or The Twilight of the Superfund , Donald Borenstein

Saving the World’s Remaining Tigers: Panthera’s Work and the Role of Non-Profits in Wildlife Conservation , John Byrne

New York City’s Water Challenges: History, Politics, and Design , Jessica Crowley

Giving Back to the Community: Addressing the Environmental Literacy Gap Through Socially and Environmentally Responsible Business Practices , David Garcia

Wasting Plates: Addressing Food Waste in the United States , Sarah Geuss

Too Pig to Fail: Considering Regulatory Solutions to the Environmental Damages Caused by Industrial Hog Farms in North Carolina , Samir Hafez

Sandy and the City: The Need for Coastal Policy Reform , Jonathan Hilburg

Drilling for Arctic Oil: Is it Worth the Risk? , Emily Kain

The Pedestrianization of New York City: An Environmental History and Critique of Urban Motorization and A Look at New York City’s New Era of Planning , Anna Kobara

Hurricane Sandy: Using Environmental History, Economics, Politics and Urban Planning to Prepare For the Next One , Julia Maguire

Our Failing Food System: Productivity Versus Sustainability , Alyson Murphy

Exploring the Drivers of CSR and Creating a Sustainable Corporate Institution: Environmental Education, Politics, and Business Practices , Eric Osuna

Composting Food Waste: A Method That Can Improve Soil Quality and Reduce Greenhouse Gas Emissions , Gentiana Quni

Assessment of Impact of Socioeconomic Factors on Conservation Awareness in the Tarangire-Manyara Ecosystem , Karianne Rivera

The Sustainable Future of the Metropolis: Greening New York City Building By Building , Lizbeth Sanchez

Trash Talk: Solid Waste Disposal in New York City , Alexander Williams

Hurricane Sandy: A Chance to Identify Vulnerabilities, Learn from the Past, and Increase Future Resiliency , Julianne Yee

Theses/Dissertations from 2012 2012

Going Green at New York-Presbyterian: Hospitals As Sustainable Businesses , Samantha Allegro

A Stronger Role For the United States President in Environmental Policy , Elizabeth Anderson

Simulating Climate Risk Into Markets and Policies: A New Approach to Financial Analysis and Policy Formation , Miguel Bantigue

Environmental Education Reform: Using Experiential Learning to Influence Environmental Policy-Making By Fostering a Sense of Environmental Citizenship and Eco-Literacy , Nicol Belletiere

Internship Report: Earthjustice & the Fracking Battle in New York's Marcellus Shale , John Byrne

Coal: How We Achieved Our Dependency and Its True Cost , Kelly Caggiano

Recycling Furniture: The Ecological, Economic and Social Benefits , Michele Calabrese

Internship Report UNEP: The Effects of Climate Change in Arctic Zones , Diana Cartaya-Acosta

Environmental Racism in South Africa: A Sustainable Green Solution , Danielle Darmofal

The Bronx, Beavers and Birthrights: The Case For Urban Wildlife , Richard Day

The Economics of Biodiversity , Paige Doyle

Environmental Communications: Case Study of New York City's Double Crested Cormorant , Marisa Galdi

Not a Walk In the Park: Environmental Justice in New York City , Lindsey Grier

The Economic and Environmental Justice Implications of Hydraulic Fracturing in 21st Century North America , Katie Medved

The Bottling Craze: Exposing the Environmental Effects of Bottled Vs. Tap Water , Michele Paccagnini

How the United States Will Find a Sustainable Future Through Increased Nuclear Productivity , Ian Pruitt

Group For the East End: The Role of Childhood Environmental Education in Improving Learning Behaviors and the Health of Humans and the Environment , Brian Riley

The Role of Modern Zoos in Wildlife Conservation: From the WCS to the Wild , John Scott

Global Climate Change Vs. Global Warming: What Is the Difference "Global Climate Change" and "Global Warming"? , Nadia Seeteram

Lost in Translation: Environmental Communication Issues in Media and Politics , Carolyn Wegemann

Theses/Dissertations from 2011 2011

The Ins and Outs of Corporate Greenwashing , Jennifer Bender

A River Runs Through It: Community Access to the Bronx River in Tremont and Hunts Point , Matthew Bodnar

The Future is Green; Urban Agriculture in the Bronx , Patty Gouris

All in Our Backyard: Exploring how Environmental Discrimination Affects Health and Social Conditions in the South Bronx , Mireille Martineau

Theses/Dissertations from 2010 2010

The Bronx River Alliance: A Model Community Action Organization And an Internship in Development , John Hinck

Enrique Reef: Degradation and Protective Measures , Dana Mitchell

The Human Population Growth and its Ecological Consequences on Kenya and Tanzania , Lauren Noll

Environmental Consciousness: Human Motivation for Thinking Ecologically , Rob Pigue

Economics of Carbon Regulation: An Exploration to the Nuance of Carbon Regulation , Timothy J. Schwartz

New York Botanical Garden Internship: From Photography to Policy , Christine Willeford

Theses/Dissertations from 2009 2009

Environmental Health and Climate Change: The Case of Lyme Disease , Matthew Abad

Recycling Tendencies of Fordham University's Population , Jeremy Aiss, Vincent Ammirato, Anamarie Beluch, and Christopher Torres

The Business of Sustainability , Andrea Brady

Waste Mismanagement: Fighting Environmental Injustice in Mott Haven and Hunts Point , Elizabeth Friedrich

Environmental Internship & The Fordham Eco-Roof Proposal , Anthony Giovannone

The Putnam Railroad Corridor Restoration Project: A Comprehensive Plan for Paired Ecological Restoration and Greenway Construction , Patrick J. Hopkins Jr.

Land Use Policy and Development on Long Island , Richard Murdocco

From the Bronx into the Wild! My Adventurous Experience at the Bronx Zoo , Lauren Noll

For the Birds! , Robert Patterson

Managing Infestation of the Invasive Viburnum Leaf Beetle (Pyrrhalta viburni) at the New York Botanical Garden , Gregory Russo

Environmental History of Japan , Amy Seagroves

Theses/Dissertations from 2008 2008

A Healthy Environment is a Healthy Body , Matthew Abad

Stormwater Runoff, Combined Sewer Overflow, and Environmental Justice in the Bronx , Natalie Collao

Solving a Crisis: Water Quality & Storm Water Infrastructure in New York City , Kelsey Ripper

The New Social Movement: Environmental Justice in the Bronx , Kelsey Ripper

Environmental Justice and Street Science: A Fusion of Community Knowledge and Environmental Health Justice to Address the Asthma Epidemic in Urban Communities , Natalie Robiou

Urban Wildlife and Leopold’s Land Ethic: “The squirrels on a college campus convey the same lesson as the redwoods. . . .” , Natalie Robiou

Unpasteurized Milk and Soft Cheese Outbreaks: An Overview of Consumer Safety , Taygan Yilmaz

Theses/Dissertations from 2007 2007

The Environmental Justice Movement in the United States , Harrison Delfin

Natural River Restoration in Urban Ecology: The Bronx River , Samuel P. Loor

Theses/Dissertations from 2006 2006

The H5N1 Avian Influenza Virus: Globalization, Climate Change, and Other Anthropogenic Factors in New Emergent Diseases , Quan Luong

The Environmental Effects of War , Philip Swintek

Theses/Dissertations from 2005 2005

Identification of Genetically Modified Organisms in Foodstuffs , Anamarie Beluch

The Moral Dilemma of Genetically Modified Foods (GMOs) , Anamarie Beluch

Theses/Dissertations from 2003 2003

The History of Community Gardens in New York City: The Role of Urban Agriculture and Green Roofs in Addressing Environmental Racism , Rosamarie Ridge

Theses/Dissertations from 2002 2002

Bronx River Restoration: Report and Assessment , Teresa Crimmens

Environmental Audit of the Rose Hill Campus , Nicole Marshall, Maria Nissi, Brian Flaherty, Carl Van Ostrand, and Ian McClelland

Theses/Dissertations from 2001 2001

Bronx River Restoration: Report and Assessment , Nicole Marshall

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AN ACCUMULATION OF CATASTROPHE: A POLITICAL ECONOMY OF WILDFIRE IN THE WESTERN UNITED STATES Dockstader, Sue ( University of Oregon , 2024-03-25 ) This dissertation is an environmental sociological study of wildland fire in what is now the western United States. It examines wildfire management from roughly the 1900s to the present time employing a Marxist historical ...
Managing Life's Future: Species Essentialism and Evolutionary Normativity in Conservation Policy, Practice, and Imaginaries Maggiulli, Katrina ( University of Oregon , 2024-01-10 ) Folk essentialist and normative understandings of species are not only prevalent in popular layperson communities, but also end up undergirding United States conservation policy and practice due to the simplistic clarity ...
Unsettled Ecologies: Alienated Species, Indigenous Restoration, and U.S. Empire in a Time of Climate Chaos Fink, Lisa ( University of Oregon , 2024-01-10 ) This dissertation traces environmental thinking about invasive species from Western-colonial, diasporic settlers of color, and Indigenous perspectives within U.S. settler colonialism. Considering environmental discourses ...
Futuremaking in a Disaster Zone: Everyday Climate Change Adaptation amongst Quechua Women in the Peruvian Cordillera Blanca Moulton, Holly ( University of Oregon , 2024-01-10 ) Indigenous women in Peru are often labeled “triply vulnerable” to climate change due to race, gender, and economic marginalization. Despite Peru’s focus on gender, Indigeneity, and intersectionality in national adaptation ...
Land Acts: Land's Agency in American Literature, Law, and History from the Colonial Period to Removal Keeler, Kyle ( University of Oregon , 2024-01-10 ) This dissertation examines land’s agency and relationships to land in the places now known as the United States as these relationships appear in literature and law from early colonization to the removal period. Land Acts ...
PALEOTEMPERATURE, VEGETATION CHANGE, FIRE HISTORY, AND LAKE PRODUCTIVITY FOR THE LAST 14,500 YEARS AT GOLD LAKE, PACIFIC NORTHWEST, USA Baig, Jamila ( University of Oregon , 2024-01-09 ) The postglacial history of vegetation, wildfire, and climate in the Cascade Range (Oregon) is only partly understood. This study uses high-resolution analysis from a 13-meter, 14,500-year sediment core from Gold Lake to ...
On Western Juniper Climate Relations Reis, Schyler ( University of Oregon , 2022-10-26 ) Western juniper woodlands are highly sensitive to climate in terms of tree-ring growth, seedling establishment and range distribution. Understanding the dynamics of western juniper woodlands to changes in precipitation, ...
Stories We Tell, Stories We Eat: Mexican Foodways, Cultural Identity, and Ideological Struggle in Netflix’s Taco Chronicles Sanchez, Bela ( University of Oregon , 2022-10-26 ) Food is a biological necessity imbued with numerous social, cultural, and economic implications for identity production and everyday meaning-making. Food television is a unique medium for the meanings of food and foodways ...
Soil Nutrient Additions Shift Orthopteran Herbivory and Invertebrate Community Composition Altmire, Gabriella ( University of Oregon , 2022-10-26 ) Anthropogenic alterations to global pools of nitrogen and phosphorus are driving declines in plant diversity across grasslands. As such, concern over biodiversity loss has precipitated a host of studies investigating how ...
Multispecies Memoir: Self, Genre, and Species Justice in Contemporary Culture Otjen, Nathaniel ( University of Oregon , 2022-10-04 ) Liberal humanism articulates an individual, rational, autonomous, universal, and singularly human subject that possesses various rights and freedoms. Although the imagined subject at the heart of liberal humanist philosophy ...
Understanding How Changes in Disturbance Regimes and Long-Term Climate Shape Ecosystem and Landscape Structure and Function Wright, Jamie ( University of Oregon , 2022-10-04 ) Long-term and anthropic climatic change intersecting with disturbances alters ecosystem structure and function across spatiotemporal scales. Quantifying ecosystem responses can be convoluted, therefore utilizing multiproxy ...
Ikpíkyav (To Fix Again): Drawing From Karuk World Renewal To Contest Settler Discourses Of Vulnerability Vinyeta, Kirsten ( University of Oregon , 2022-10-04 ) The Klamath River Basin of Northern California has historically been replete with fire-adapted ecosystems and Indigenous communities. For the Karuk Tribe, fire has been an indispensable tool for both spiritual practice and ...
Grassland Restoration in Heterogeneous, Changing, and Human Dominated Systems Brambila, Alejandro ( University of Oregon , 2022-10-04 ) Ecological restoration is a powerful tool to promote biodiversity and ecosystem function. Understanding underlying system variability and directional change can help predict outcomes of restoration interventions. Spatial ...
Restoring What? And for Whom? Listening to Karuk Ecocultural Revitalization Practitioners and Uncovering Settler Logics in Ecological Restoration. Worl, Sara ( University of Oregon , 2022-05-10 ) What does it mean to restore a landscape degraded by settler colonialism? How might a well intentionedprocess like ecological restoration end up causing harm from underlying settler colonial logics? This thesis explores ...
Instigating Communities of Solidarity: An Exploration of Participatory, Informal, Temporary Urbanisms Meier, Briana ( University of Oregon , 2021-11-23 ) This dissertationexamines the potential for participatory, informal urbanisms to buildcollaborative relations across ontological, cultural, and political difference. This research contributes to thefield of urban, environmental ...
The Holy Oak School of Art and Ecology: A Proposal for Arts-Based Environmental Education Programming Best, Krysta ( University of Oregon , 2021-11-23 ) The following is a proposal for arts-based environmental education programming in elementary schools, after-school programs, and day-camp programs, entitled the Holy School of Art and Ecology. Ecophenomenological, arts-based ...
Settler Colonial Listening and the Silence of Wilderness in the Boundary Waters Canoe Area Hilgren, Bailey ( University of Oregon , 2021-11-23 ) The Boundary Waters Canoe Area soundscape in northern Minnesota has a long and contested history but is most often characterized today as a pristine and distinctly silent wilderness. This thesis traces the construction and ...
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Home > CMC > CMC_STUDENT > CMC_THESES > 2583

CMC Senior Theses

Climate change in fiction: the evolution and challenges of environmental apocalyptic literature.

Lauren Gode Follow

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Environment, Economics, and Politics (EEP)

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This thesis examines the several aspects and variations of environmental apocalyptic literature, and its potential ability to mobilize action against the imminent threat of global climate change. It delves into the intersection between climate research and fiction, as well as the rhetorical techniques used in works such as The Death of Grass by John Christopher, The Drowned World by J.G. Ballard, Oryx and Crake by Margaret Atwood, and The Road by Cormac McCarthy, and covers the complementarity between climate fiction and works of non-fiction such as The Great Derangement by Amitav Ghosh. Finally, this thesis will assess the effectiveness of climate change fiction’s capacity to stress and address the immediacy of approaching climate calamities, as well as argue the importance of environmental apocalyptic literature in the effort to motivate readers towards action to prevent disasters caused by climate change.

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Gode, Lauren, "Climate Change in Fiction: The Evolution and Challenges of Environmental Apocalyptic Literature" (2021). CMC Senior Theses . 2583. https://scholarship.claremont.edu/cmc_theses/2583

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Banks Made Big Climate Promises. A New Study Doubts They Work.

Using European Central Bank lending data, researchers said there was not evidence that voluntary commitments were effective in reducing emissions.

Fumes coming out of a factory in the distance, with houses in the foreground.

By Eshe Nelson

Reporting from London

Two and half years ago, bankers and investors attended the United Nations climate summit in Glasgow, an annual event normally dominated by activists and policymakers. It was considered a milestone as the financial sector agreed to put its might into tackling climate change.

Hundreds of banks, insurers and asset managers vowed to plow $130 trillion in capital into reducing carbon emissions and financing the energy transition as they introduced the Glasgow Financial Alliance for Net Zero . But a recent study, published by the European Central Bank, disputed the effectiveness of those promises.

“Our results cast doubt on the efficacy of voluntary climate commitments for reducing financed emissions, whether through divestment or engagement,” wrote economists from the central bank, the Massachusetts Institute of Technology and Columbia Business School who analyzed lending by European banks that had signed on to the Net-Zero Banking Alliance, the banking group of the Glasgow initiative.

The researchers found that since 2018 the banks had reduced lending 20 percent to sectors they had targeted in their climate goals, such as oil and gas and transport. That seems like progress, but the researchers argued it was not sufficient because the decline was the same for banks that had not made the same commitment.

“It’s not OK for the net-zero bank to act exactly like the non-net-zero bank, because we need that to scale up financing,” said Parinitha Sastry, an assistant professor of finance at Columbia Business School and one of the paper’s authors. “We want there to be a behavioral change.”

Expectations for banks from policymakers and climate activists are high. Every year trillions of dollars need to be invested in clean energy if the world is to reach net-zero carbon emissions by 2050, according to the International Energy Agency. Most of that cost will need to be financed privately, and banks are the key facilitators in those deals.

Many banks clamored to make net-zero pledges around the summit in Glasgow, known as COP26. But as pressure builds to lower emissions, climate activists are concerned about waning commitments from banks because of mounting political pressure, demand for cheap energy and shifting geopolitical alliances.

The researchers used data from the European Central Bank on lending from more than 300 European banks. Of those, about 10 percent had joined the Net-Zero Banking Alliance. They tended to be larger and lend more to high-carbon sectors like mining, particularly outside the eurozone.

The economists found that banks in the alliance did not change the interest rates on loans to firms with high emissions and that the companies that received the loans were not more likely to set decarbonization targets. In fact, all banks acted the same regardless of the methods available to them to reduce emissions, including divesting from high emitters, increasing investment to green activities and engaging with firms to cut their own emissions, Ms. Sastry said.

“It’s hard to really say from this evidence that the net-zero commitments are leading to changes in behavior by banks,” she said.

The Net-Zero Banking Alliance, which is backed by the United Nations, is among the strictest of the voluntary climate groups that banks can join. Members have committed to setting emissions targets for 2030, with interim targets for 2050, as well as promises to publish their emissions data annually.

In response to the report, the alliance said it was too early to judge their effectiveness. Members have only just begun to deliver transition plans and other progress reports, Sarah Kemmitt, the secretariat lead for the alliance, said in a statement.

“We believe it is premature to draw conclusions on whether the commitments N.Z.B.A. members banks choose to make have resulted in reductions in their financed emissions,” she said.

The banking group and similar financial coalitions have been confronting a series of challenges, especially in the face of growing backlash against green and other socially responsible initiatives in the United States. The Net-Zero Banking Alliance has been accused of watering down the commitments to appease Wall Street banks, its largest members. The alliance for insurers lost about half its members last year, and Climate Action 100+, a group for investors, suffered departures of prominent members this year.

But for some, the groups are not stringent enough.

GLS, a German bank, pulled out as a founding member of the Net-Zero Banking Alliance last year after a report by European nonprofit groups said the largest banks in the alliance had funneled $270 billion into fossil fuel expansions since they joined.

“What sense does it make to be in an alliance like that?” said Antje Tönnis, a spokeswoman for GLS. “Plus, it is a fair bit of work. Reporting is involved but doesn’t have any consequences.”

Another founding member, Triodos Bank in the Netherlands, said it hoped to strengthen the commitments.

The alliance's “updated guidelines are not strict enough and provide banks with too much leeway,” Jacco Minnaar, the bank’s chief commercial officer, said in a statement. But he acknowledged that they had improved. “We are convinced we will have the most impact within this global commitment,” he said.

Eshe Nelson is a reporter based in London, covering economics and business news for The New York Times. More about Eshe Nelson

Learn More About Climate Change

Have questions about climate change? Our F.A.Q. will tackle your climate questions, big and small .

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Big brands like Procter & Gamble and Nestlé say a new generation of recycling plants will help them meet environmental goals, but the technology is struggling to deliver .

The Italian energy giant Eni sees future profits from collecting carbon dioxide and pumping it into natural gas fields that have been exhausted.

New satellite-based research reveals how land along the East Coast is slumping into the ocean, compounding the danger from global sea level rise . A major culprit: the overpumping of groundwater.

Did you know the ♻ symbol doesn’t mean something is actually recyclable ? Read on about how we got here, and what can be done.

False claim 'climate crisis hoax' statement signed by thousands of scientists | Fact check

The claim: Thousands of scientists sign 'climate crisis hoax' document

A Sept. 14 article ( direct link , archive link ) circulating on Facebook claims a large group of scientists downplayed the dangers of climate change in a signed declaration.

"Thousands of Scientists Unite to Expose ‘Climate Crisis’ Hoax," reads the headline of the article, which was published on the website News Addicts.

The article was shared more than 400 times in six weeks on Facebook, according to Crowdtangle, a social media analytics tool.

Our rating: False

Thousands of scientists did not sign the document referenced in the article. The document lists only around 1,600 purported signatories, the vast majority of whom have no listed expertise in climate science. Hundreds of the purported signatories are not listed as being scientists of any kind, according to a USA TODAY count.

'Declaration' signed by engineers, medical workers and wine steward

While the article's headline references "thousands of scientists," the article's text states that only 1,609 scientists "gathered together to sign a declaration , proclaiming that 'there is no climate emergency.'"

The document , published by the Global Climate Intelligence Group in August, describes the purported signatories as "scientists and professionals," not just "scientists." USA TODAY found hundreds of examples of listed signatories that were not described as scientists − including engineers, medical workers, psychologists, lawyers, architects, philosophers, teachers and information technology and business professionals.

The intelligence group did not respond to USA TODAY questions about the number of scientists and climate and atmospheric scientists, specifically, who signed the document.

USA TODAY found around 100 purported signatories listed as having college degrees in the fields of climate science, climatology, meteorology, paleoclimatology, environmental science, atmospheric science or atmospheric physics or as being scientists in those fields.

More than a dozen additional signatories were listed as "climate researchers." Many of these individuals were also listed as retired from other, unrelated professions or were listed as "independent."

Other signatories listed credentials far outside climate science. Titles listed include:

Senior ship designer
Financial advice specialist
Leadership development and coaching
Sculptor, designer and innovator
Commercial fisherman
Airline pilot
Historical linguist
Lifetime explorer of truth
IT professional
PhD in mental health

AFP analyzed a version of the document last year , when it had around 1,200 purported signatories. At that time, six of the listed individuals were deceased, AFP reported.

Fact check : Global warming is affecting Antarctica, but image of flowers is from elsewhere

Reality of climate change supported by thousands of peer-reviewed papers

Modern global warming − which is causing polar ice melt , sea level rise , and increased heat wave frequency − has been documented by multiple independent research organizations . The warming is caused by an increase in atmospheric greenhouse gas concentrations due to human behavior .

These facts are supported by the 2021 Intergovernmental Panel on Climate Change report , which investigated and outlined the most contemporary climate and climate change science available .

"It is unequivocal that human influence has warmed the atmosphere, ocean and land," reads the report . "Human-induced climate change is already affecting many weather and climate extremes in every region across the globe. Evidence of observed changes in extremes such as heatwaves, heavy precipitation, droughts and tropical cyclones, and, in particular, their attribution to human influence, has strengthened."

The report cites nearly 13,000 peer-reviewed papers as well as hundreds of technical reports and books, according to a 2023 analysis from the climate change panel . Taken collectively, these citations include the work of around 39,000 unique authors , Sarah Connors, who co-authored the analysis and now works for the European Space Agency, told USA TODAY.

Most of the citations − more than 9,000 − are from the fields of earth and planetary science (which include climate science and atmospheric science disciplines) and environmental science. The rest are related to agricultural science, biological science, biochemistry, genetics, molecular biology, energy, the social sciences and medicine, are considered "multidisciplinary" or are undefined by the analysis.

Fact check: Greenland's Petermann Glacier is shrinking; movement doesn't mean it's growing

USA TODAY reached out News Addicts for comment but did not immediately receive a response.

The claim was also debunked by PolitiFact and Climate Feedback

Our fact-check sources:

Sarah Connors , Oct. 27, Email exchange with USA TODAY
Intergovernmental Panel on Climate Change Sixth Assessment Report, 2021, Climate Change 2021: The Physical Science Basis
Intergovernmental Panel on Climate Change Sixth Assessment Report, 2021, Summary for policymakers
Intergovernmental Panel on Climate Change, accessed Oct. 25, About the IPCC
Carbon Brief, March 16, Guest post: What 13,500 citations reveal about the IPCC’s climate science report
NASA Earth Observatory, accessed Oct. 25, World of Change: Global Temperatures
NASA Vital Signs of the Planet, accessed Oct. 25, Causes
NASA Vital Signs of the Planet, accessed Oct. 25, Ice sheets
NASA Vital Signs of the Planet, accessed Oct. 25, Sea level
Environmental Protection Agency, July 2022, Climate Change Indicators: Heat Waves
AFP, Sept. 9, 2022, Climate 'declaration' recirculates debunked claims

Thank you for supporting our journalism. You can subscribe to our print edition, ad-free app or e-newspaper here .

Our fact-check work is supported in part by a grant from Facebook.

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International Edition

More From Forbes

International court receives 91 written statements in climate change opinion.

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THE HAGUE, NETHERLANDS - APRIL 09: (Photo by Dursun Aydemir/Anadolu via Getty Images)

The International Court of Justice has announced that a record high 91 member states and organizations have submitted written statements on its advisory opinion on the Obligations of States in respect of Climate Change. At the request of the United Nations General Assembly , the ICJ will determine the existing financial liability of countries for their contribution to climate change. Parties have until June 24 to submit responses. The Court states that the written statements will not be made public until the beginning of oral arguments. This is the first time the Court has indicated that oral arguments will occur on this opinion.

On March 29, 2023, the UNGA asked the ICJ to issue an advisory opinion on the legal obligations of countries in preventing climate change. The opinion, while non-binding, will give an indicator of how the Court may interpret future climate related litigation and guide future legislative development.

The UN sent an initial package of relevant laws and treaties. The Court determined that members states and international organizations should also be given the opportunity to weigh in on their legal arguments and opinions through written statements.

It is unknown what international organizations were denied the opportunity to submit written statements, as the Court only announced organizations that were approved. The Court has authorized the African Union; the Alliance of Small Island States (AOSIS); the Commission of Small Island States on Climate Change and International Law; the European Union; the Forum Fisheries Agency (FFA); the International Union for Conservation of Nature; the Melanesian Spearhead Group (MSG); the Organisation of African, Caribbean and Pacific States (OACPS); the Organization of the Petroleum Exporting Countries (OPEC); the Pacific Islands Forum; the Parties to the Nauru Agreement Office (PNAO); and the World Health Organization to participate in the proceedings.

The press release went on to state “Pursuant to Article 106 of the Rules of Court, the Court may decide to make the written statements accessible to the public on or after the opening of the oral proceedings in the case.” This is notable as the Court had initially indicating that oral arguments would not occur.

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However, the Court has been clear that it is amending the process as needed . This included multiple extensions to the deadline to submit written statements , delaying the process by five months . Due to the record volume of written statements, it is likely that the June 24 deadline for responses will also be extended. The addition of oral arguments practically guarantees the final opinion will not be issued until 2025 or 2026.

The written statements filed by member states (in order of receipt by the Court): Portugal; the Democratic Republic of the Congo; Colombia; Palau; Tonga; Singapore; Peru; Solomon Islands; Canada; the Cook Islands; Seychelles; Kenya; Denmark, Finland, Iceland, Norway and Sweden (jointly); the Philippines; Albania; Vanuatu; the Federated States of Micronesia; Saudi Arabia; Sierra Leone; Switzerland; Liechtenstein; Grenada; Saint Lucia; Saint Vincent and the Grenadines; Belize; the United Kingdom of Great Britain and Northern Ireland; the Kingdom of the Netherlands; the Bahamas; the United Arab Emirates; the Marshall Islands; France; New Zealand; Slovenia; Kiribati; China; Timor-Leste; the Republic of Korea; India; Japan; Samoa; the Islamic Republic of Iran; Latvia; Mexico; South Africa; Ecuador; Cameroon; Spain; Barbados; Sri Lanka; Madagascar; Uruguay; Egypt; Chile; Namibia; Tuvalu; Romania; the United States of America; Bangladesh; Kuwait; Argentina; Mauritius; Nauru; Costa Rica; Indonesia; Pakistan; the Russian Federation; Antigua and Barbuda; El Salvador; the Plurinational State of Bolivia; Australia; Brazil; Viet Nam; the Dominican Republic; Ghana; Thailand; Germany; Nepal; Burkuna Faso; and The Gambia.

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