What do today’s Conservation + Climate Announcements mean for outdoorists?

Today was a big day for climate and conservation in the United States. President Biden signed a series of new policies aimed at tackling climate change. From committing to 30×30 to replacing federal fleets with zero emission vehicles, there’s a lot to digest.

We encourage you to read the “FACT SHEET: President Biden Takes Executive Actions to Tackle the Climate Crisis at Home and Abroad, Create Jobs, and Restore Scientific Integrity Across Federal Government” in full, but if you’re itching to dive straight to the more outdoor-related bits, we’ve pulled ’em for you to make it easier to understand.

Excerpts below are from the Tackling the Climate Crisis at Home and Abroad Executive Order: 

  • “directs the Secretary of the Interior to pause on entering into new oil and natural gas leases on public lands or offshore waters to the extent possible, launch a rigorous review of all existing leasing and permitting practices related to fossil fuel development on public lands and waters, and identify steps that can be taken to double renewable energy production from offshore wind by 2030. The order does not restrict energy activities on lands that the United States holds in trust for Tribes. The Secretary of the Interior will continue to consult with Tribes regarding the development and management of renewable and conventional energy resources, in conformance with the U.S. government’s trust responsibilities.”
  • “directs federal agencies to eliminate fossil fuel subsidies as consistent with applicable law and identify new opportunities to spur innovation, commercialization, and deployment of clean energy technologies and infrastructure.”
  • “commits to the goal of conserving at least 30 percent of our lands and oceans by 2030 and launches a process for stakeholder engagement from agricultural and forest landowners, fishermen, Tribes, States, Territories, local officials, and others to identify strategies that will result in broad participation.”
  • “calls for the establishment of a Civilian Climate Corps Initiative to put a new generation of Americans to work conserving and restoring public lands and waters, increasing reforestation, increasing carbon sequestration in the agricultural sector, protecting biodiversity, improving access to recreation, and addressing the changing climate.”
  • “reaffirms that the President will host a Leaders’ Climate Summit on Earth Day, April 22, 2021.”

We are thrilled with today’s actions, but acknowledge that all these positive initiatives and commitments must be met with accountability and follow-through. As we shift our advocacy towards more proactive efforts, we must continue to resolve ourselves to remain vigilante that good policy is not just signed, but put into action.

Here are a few resources from around the outdoor community for more information on today’s big announcements:

Stay tuned with Outdoor Advocacy Project on Instagram and Twitter for the latest updates!

What Science Says We Can Do About Climate Change

Recycling is dead and it wasn’t enough in the first place. Science points to key actionable steps we can take as individuals to help mitigate climate change and build a healthier future. According to science, we CAN mitigate climate change, we just need to act quickly and as a community. The following is a list of actions for individuals to take that will make the most impact. Let’s do this y’all. And remember, ultimately, the most important change that needs to be made is systematic. It’s not just a burden that should be held on the individual level, but those individual changes can be catalysts to sparking systematic change.

Note: We recognize that many of these actions require privilege, monetary and otherwise, so rather than judge yourself (or others… mind your own sustainable beeswax wrappers!) for what you can’t do, focus on what you can do. And remember: the best things we can possibly do are to vote and to consume what we need, not everything we want.

Photo by Laura Mitulla on Unsplash

Eat more plants

Healthy bodies are awesome, but what you eat affects the planet way more than it affects your body. In fact, limiting animal product consumption is considered to be the best way to help save the planet and decrease carbon emissions (source). And no, you don’t have to be a Hardcore Henry and buy all the foofoo organic greens from Whole Foods.

According to the UN, the production of animal products is responsible for more greenhouse gas emissions than the transportation sector- aka your car (source). This means that eating a steak produces more emissions than driving to and from work. That’s WILD. But it makes sense when you think about the 7.5 billion people that need to be fed and the processes that put meat, eggs, and cheese on grocery store shelves. 

Producing meat typically requires deforestation to provide land for housing or grazing livestock, which releases massive amounts of CO2 into the atmosphere (source). This is why the burning of the Amazon for cattle farming was such a huge deal. Then there’s the supply chain, which at its basics includes cutting the meat with machines, transporting the meat in vehicles, and storing it in refrigerators under fluorescent lights, all of which require burning fossil fuels. So, yeah. It makes sense that animal products account for 18% of greenhouse gas emissions (source), which is a lot since most emissions are produced by big industry. This also signifies that there is no possible way to significantly reduce individual greenhouse gasses without decreasing our animal product consumption. 

Theoretically, you can reduce your carbon footprint by 73% by switching to a vegan diet (source). But let’s be honest: although a vegan diet is cheaper than a carnivore diet (source), veganism is a privilege because many people do not have access to inexpensive fruits and veggies year-round. Luckily, we can still greatly reduce individual emissions by eating 90% less meat and 60% less dairy, which is equivalent to eating animal products for one meal a day (source). Yes, this will require some lifestyle changes, but plenty of people have done it before. There are many ways to decrease our animal product consumption, you just need to find a way that is right for you. Here’s a fun blog post on how to get started!

Support reproductive justice

One of the best things we can do, according to data, is to have fewer children (source). This is a complicated topic, but we need to talk about it because climate change isn’t giving us time to beat around the bush. 

We don’t believe in telling people what types of families to have or not have, so we want to offer a way to think about this commonly discussed climate mitigation strategy that doesn’t infringe on individual rights. One of our fave organizations, the SisterSong Women of Color Reproductive Justice Collective, gives us this definition of reproductive justice that we can use to frame our conversation: “the human right to maintain personal bodily autonomy, have children, not have children, and parent the children we have in safe and sustainable communities.” Let’s break that down while thinking about climate change.

“The human right to maintain personal bodily autonomy, have children, [or] not have children”:

Telling people to have fewer children to save the planet not only infringes on reproductive justice, but can get, well, eugenics-y. Instead of telling people what to do, we need to vote and advocate for access to education and tools that people need to make the best reproductive choices for themselves. In some cases, this includes having access to resources that allow them to not have children.

“…parent the children we have in safe and sustainable communities”:

Further, supporting reproductive justice means voting and advocating for the enactment of environmental regulations to protect the health of our children. This is especially important in areas that have minimal resources because these communities are often near environmentally unsafe living conditions, whereas communities that have more privilege can avoid those areas (source). 

In short, while having fewer humans on the planet does reduce resource use, everyone should be free to have the type of family they want, free from judgment.

Turn off the lights & take the bus

During World War II, CO2 emissions seriously dropped it like it’s hot (source). This is surprising for a time when the production of planes, tanks, and bombs was at an all-time high. The reduction in CO2 emissions was in part due to citizens turning off their lights at night to prevent an enemy attack. Although we are no longer living in war times, we are facing serious environmental catastrophes, which can also be solved by turning off the lights–and taking the bus, driving instead of flying, putting on a sweater instead of turning up the heat, or being as cool as Greta Thunberg and traveling by sailboat around the world (source). 

Our energy consumption in the form of electricity, gasoline, and natural gas produces carbon emissions, the major cause of climate change. Yet, there are such simple ways individuals can limit their emissions. Turning off the light when you leave the room isn’t that hard, taking the bus lets you people watch and listen to a podcast all at the same time, and guys, have you ever seen Brianna Madia’s smile while driving? It’s obviously way more fun than flying. Plus, you get to see all the beautiful landscapes the world has to offer. 

Simple steps can be taken to reduce emissions. Not all climate change mitigation steps have to be complicated, just turn off the damn lights. 

Photo by Josh Carter on Unsplash

Vote & call your representatives

According to the 2018 Intergovernmental Panel on Climate Change report, we only have ten years to cut emissions in half before climate change causes irreversible effects (source). This means that a candidate’s position on climate change needs to be our top priority when voting because once legislation is finally put into action, those ten years will be coming to an end. Yeah, it’s scary but as difficult as politicians make environmental policy change seem, we’ve done it before.

Since the industrial revolution, there has been one major climate change success — the shrinking of the ozone hole over Antarctica. The main purpose of the ozone layer is to absorb harmful UV rays that cause cancer, cataracts, and limit plant growth among other things. But, we carved a big a$$ hole in it when we started producing chemicals with big scary names like Chlorofluorocarbons (CFCs) and Hydrochlorofluorocarbons (HCFCs) (source). These chemicals were actually very common and found in aerosol sprays, refrigerators, and air conditioners, and break down the protective ozone layer in the stratosphere. 

Then the Montreal Protocol came along. Enacted in 1989, the Montreal Protocol On Substances that Deplete the Ozone is an international treaty that phased out the production of CFCs, HCFCs, and other chemicals (source). Since then, the ozone layer has begun to recover and is estimated to reach 1980’s levels between 2050 and 2070 (source here and here).

So go call your senators and representatives and tell them that climate change is a BIG DEAL. Vote in your local, state, and national elections for policies and people who will get the job done (learn more about that via OIA’s Vote the Outdoors campaign). Share with your mom, your friends, and your co-workers why voting is important. We CAN mitigate climate change. We’ve done it before and we can do it again. 

Other steps to take

This is where we talk about privilege, because it’s a major problem in advocacy and environmental justice. Not all people have the resources to live sustainably because fossil fuel consumption is ingrained into our society. The following are actionable steps we need to take when we have the resources to do so. 

Boycott fast fashion: The textile industry is the most polluting industry in the world (source). So, although the the super cute dress from H&M–or Old Navy, Gap, Forever 21, Urban Outfitters, etc–looks really cool, it is NOT cool for the environment. Instead, you can purchase clothing second hand on websites like Poshmark and Facebook Marketplace or buy from companies committed to sustainability and transparency such as Toad & Co. and Prana. 

Buy local: Supply chains are dirty and food, furniture, household products, and other everyday items have a massive carbon footprint (source). Buying local produce and other products limit carbon emissions from transportation, while also stimulating your town’s economy. It’s a win-win for everyone.

Avoid plastic packaging: Plastics are made of fossil fuels and we’re not really sure if they break down in landfills (source). Yet, almost everything we buy is wrapped in it. Avoiding plastic packaging on food and other household products by buying local or in bulk will limit your carbon emissions and keep waste out of landfills. 

Go outside: No, seriously go outside. Advocacy and environmental justice are emotionally and physically draining, and therefore we need to remind ourselves what we’re fighting for. So go run, hike, bike, kayak, snow shoe, motto, ski, climb, wakeboard, paraglide or whatever makes you feel re-energized. This won’t look the same for everyone and that’s okay because we are all on the planet’s side. And we are one hell of a community.

<strong>Savannah Adkins</strong>
Savannah Adkins

During some daylight hours, Savannah is a climate change scientist studying how dirt makes all of our lives possible. But her real profession is as a house plant addict, mountain biker, & attempter of skiing down mountains. In her free time, Savannah enjoys dancing around the house, drinking wine, and listening to the Grateful Dead. Oh, and making poop jokes… always making poop jokes.

<strong>Chiara Forrester</strong>
Chiara Forrester

Chiara is happiest when she’s in the mountains on skis, a bike, or running. She also loves Ariana Grande (117 hours this year, thanks Spotify), making dinner with friends, and laughing too loudly at her own jokes. An ecologist who’s passionate about science communication and increasing diversity in STEM, Chiara is currently a PhD candidate in Boulder, CO, studying alpine plant ecology, undergraduate education, and the use of science in federal land management.

How Climate Change Affects More Than Just the Weather

So, you get it. CO2 levels are increasing, global temperatures are rising, and weather patterns are changing. But, these aren’t the only reasons climate change is such a big deal. Climate change is affecting every aspect of our lives from the food we eat and the air we breathe to the health of our beloved wild spaces. Below is a shortlist of how climate change affects us, our food, our water, and plants and animals. It is far from exhaustive because climate science is forrealz complex. So if you take anything away from this article, make sure you know that climate change is affecting everything on earth.

Photo by Massimo Rivenci on Unsplash


We recognize that this needs an entire article, and we’re working on it! Here’s our summary in the meantime: Climate change is and will continue to have overall negative impacts on human health. As weather patterns change and pollution continues to increase, water and land availability are affected, both of which are essential to growing food, breathing clean air, and drinking clean water. Since food, water, and clean air are vital to human health, climate change has the strongest health impacts on those that are poor, elderly, young, and chronically sick. In the U.S., communities of color are disproportionately impacted because they are more likely to live near environmentally unsafe living conditions, whereas communities that have more privilege can avoid those areas. Globally, climate change will most severely impact communities that are dependent on fishing and hunting, or located in already food-insecure areas, water-scarce regions, and small island states.


Plants are a crucial part of our ecosystem because we eat them and breathe in what they “breathe” out. With climate change, plants everywhere are greening up and blooming earlier and earlier each year. This can affect their relationships with pollinators (potentially causing them to interact less often if their life cycles are out of sync), but also can serve as a very helpful indicator to scientists of the areas that climate change is most affecting. Not all plants are responding in the same way, with some experiencing population decline and some (often invasive species) responding positively. 


The biggest problem animals face when it comes to climate change is the loss of inhabitable land. As temperatures warm, species have to move to higher elevations to reach environments similar to their original homes. As of 2011, half of all species (including plants) have moved over 10 miles per decade (source here and here) to more suitable land. But, there is only so much land available at these elevations, which causes crowding and creates competition for food, water, and territory. There are winners and losers in this search for a new home and when a species is outcompeted, they are more likely to go extinct. 


Soil is the source of all life on land. Nutrients in soils are absorbed by plants, incorporated into leaves, fruit, bark, and roots, and then eaten by animals (including humans). These nutrients such as, such as nitrogen, phosphorus, sulfur, potassium, and calcium are ultimately incorporated into DNA, muscle, bones, and other tissues vital to life. But, humans have significantly altered the nutrients available in soils by draining the soil of nutrients through over-farming and through causing excess nutrients to accumulate through over-fertilizing. This either depletes the soil of nutrients or acidifies it, respectively, both of which limit plant growth and ultimately limit food sources for animals.


The ocean is really taking a hit when it comes to climate change because it soaks up excess heat and CO2. This limits the effects of climate change for us on land, but only for a limited amount of time and at huge costs. The ocean is becoming warmer and more acidic, which is leading to sea-level rise (warm water expands, and land ice is melting which is projected to cause 1-4 feet of sea-level rise by 2100) and extremely negative impacts on ocean life which then reduces fish stocks, food security and income from tourism. 


The term biodiversity describes the variety of life on earth, which is important because plants, animals, bacteria, and fungi are all interconnected *cue the Circle of Life*. No organism can all alone, and (generally speaking) the more diverse an ecosystem is, the more resources there are. Climate change causes a decline in biodiversity in many ways, but the biggest threat to biodiversity is the loss of habitat. Rises in temperature, extreme weather, and urban sprawl destroy the homes of organisms and force them to move to another similar environment. It’d be all fine and dandy if there was unlimited space for organisms to move to, but there isn’t. The limited environments for certain species to live happily ever after means that some species don’t make it, which creates a snowball effect for all other organisms on earth.

Food Availability

Excess atmospheric CO2 can be taken up by plants and in theory, this is a great tool we can use to help mitigate climate change, except for when it comes to our food. When plant growth increases due to higher levels of CO2,  they incorporate less nitrogen, magnesium, calcium, and other minerals into their leaves, fruit, and roots, all of which are essential to bone, muscle, and brain function (source here, here and here). This means the crops we grow are less nutritious and we will need to eat more to get the nutrients we need, which causes another issue: there is a limited amount of viable land to use for agriculture. 

Water Quality

When water gets warmer there is typically less oxygen in it, which leads to negative effects on aquatic life, and can lead to the excessive growth of algae that degrade water quality. More precipitation is expected to occur in the form of rain rather than snow (in areas that typically get snow). More rain means that more pollutants get picked up from areas surrounding bodies of water, and then carried into the water we consume. 

Chiara Forrester
Chiara Forrester

Chiara is happiest when she’s in the mountains on skis, a bike, or running. She also loves Ariana Grande (117 hours this year, thanks Spotify), making dinner with friends, and laughing too loudly at her own jokes. An ecologist who’s passionate about science communication and increasing diversity in STEM, Chiara is currently a PhD candidate in Boulder, CO, studying alpine plant ecology, undergraduate education, and the use of science in federal land management.

Savannah Adkins
Savannah Adkins

During some daylight hours, Savannah is a climate change scientist studying how dirt makes all of our lives possible. But her real profession is as a house plant addict, mountain biker, & attempter of skiing down mountains. In her free time, Savannah enjoys dancing around the house, drinking wine, and listening to the Grateful Dead. Oh, and making poop jokes… always making poop jokes.

Climate Change Glossary

Anthropogenic: A word to describe anything that is human-caused. 

Biodiversity: The variety of life forms across the world. For instance, areas with lots of species have more biodiversity than areas with not very many species. Organisms from single-celled to large animals interact with one another, so when biodiversity declines, so does the health of the ecosystem. For humans, in particular, the decline of biodiversity means a decline in natural resources, on which our lives depend on. 

Biodegradable: Ideally, a biodegradable product is one that can be broken down by processes like composting. However, just because a material breaks down relatively quickly compared to a non-biodegradable product doesn’t mean it is good for the environment. For example, biodegradable polyethylene is a plastic that breaks faster than other plastics, but it breaks down into microplastics that pollute our water sources and aquatic life (including the fish we eat, so those microplastics end up in us). 

Biofuel: A fuel sourced from renewable sources, which are typically plants, such as trees, corn, and sugar. These plants are burned for energy. 

Climate Change: Long-term changes in the Earth’s climate that include an increase in global temperatures, weather patterns, weather extremes, and changes to populations and ecosystems. The climate change we see today is caused by human use of fossil fuels because of land-use changes combined with the burning of fossil fuels that release Carbon Dioxide, Methane, Nitrous Oxides, and other “greenhouse gasses”. Greenhouse gases trap the heat that would typically escape our atmosphere, increasing global average temperatures. Warmer air also causes more water evaporation, which forms more clouds and causes extreme weather events. Climate change is complicated, and this description is the bare minimum, so check out our Climate Science 101 article for more.  

Carbon Dioxide: CO2 is the main greenhouse gas that drives climate change. It is the byproduct of animal respiration and other life cycles but is also produced through any combustion reaction. This includes burning fossil fuels, wood, trash, etc. 

Carbon Footprint: The net amount of carbon (in the form of CO2, methane, and fossil fuel use) emitted by an individual, company, or during the manufacturing of a product.  

Carbon Neutral: A process where there is no net release of CO2. For a country or company to be carbon neutral, the amount of CO2 they release needs to be balanced out through carbon offsetting. 

Carbon Offsetting: You can think of this as being akin to “I ate a donut for breakfast so I’m going to eat a salad for lunch”. This is a way of compensating for emissions through funding or participating in efforts to remove CO2, methane, and other human-made greenhouse gasses from the atmosphere. You can do this through investing in offset projects that work on renewable energy (i.e. wind, solar, hydroelectric), methane collection and combustion (conversion of methane to Carbon Dioxide, which has a lower global warming potential), destruction of industrial pollutants, land-use change and protection (avoids deforestation and promotes reforestation), and more. Make sure to research the project you are investing in to avoid scams. 

Carbon Sequestration: The process of removing CO2 from the atmosphere and storing it naturally or industrially. The “natural” way CO2 can be stored is through growing trees and other vegetation because plants use COto grow (photosynthesis). This is why avoiding deforestation and promoting reforestation is important. Carbon capture and storage is an up and coming technology where CO2 is stored underground. Unfortunately, this method is not reliable because the technology cannot yet be implemented around the world.  

Climate vs. Weather: Weather is the day-to-day, short term changes in the atmosphere that includes temperature, humidity, precipitation, cloudiness, visibility, and wind.  Climate is the weather averaged over a long period of time either for a particular place, region or globally. Climate is usually averaged over a 30-year time period and gives us statistical information about normal weather patterns and the ranges of extremes.   

Deforestation: The permanent removal of forests, which releases massive amounts of CO2 through soil disturbance. When soil is disturbed, all the wee lil soil microbes (bacteria, fungi, and other cellular organisms) are introduced to new food sources and they grow way faster, which releases more CO2.  

Eco-Friendly: just like sustainability, this term is vague unless defined by the company that is transparent about the processes of the product. 

Feedback Loop: This is nature’s version of a never-ending Rube Goldberg machine. Or in science, when a portion or all of a system’s outputs are used as inputs that kick off another process. For example, ice typically reflects light because it is white (the same reason you’re hotter in a black t-shirt on a sunny day, because black absorbs heat while white reflects it). As the ice melts in the Arctic Ocean, there is a smaller area of ice that reflects the sun’s heat back into the atmosphere. This means that heat is instead absorbed by ocean water, which heats it up and increases the melting of the remaining ice. 

Fossil fuel: Non-renewable natural resources such as coal, oil, and natural gas, which are made of hydrocarbons (molecules made of hydrogen and carbon, aka dead things that have carbon in them) that have been pressurized underground over millions of years. When burned, fossil fuels create enough energy to move our cars, heat our homes, and make our clothes, but this releases much more COthan was being released to the atmosphere before the industrial revolution. 

Global Average Temperature: the mean surface temperature of the earth. This is different from local temperatures because the global average temp is found through thousands of satellite measurements, a network of over 3,000 temperature observation stations, and sea surface temperature measurements taken by merchant ships around the world. These measurements are averaged to find the Global Average Temperature. 

Global Warming vs. Climate Change: These two terms are often used interchangeably, but they shouldn’t be. Global warming describes the increase of Earth’s average surface temperature due to human-made greenhouse gas emissions, while climate change refers to long-term changes in Earth’s climate. Climate change includes temperature, changes in weather patterns, variation in snow-pack, sea-level changes, and more. 

Global Warming Potential: The warming effect of each greenhouse gas. For example, methane has a warming effect 23 times higher than Carbon Dioxide. That’s why carbon offsetting projects include turning methane into CO(see carbon offsetting for more information). 

Greenhouse Gasses: Natural and industrial gasses that trap heat from the Earth and warm the Troposphere (the atmospheric layer closest to earth). These gasses include Carbon Dioxide (CO2), Water Vapor (H2O), methane (CH4), Nitrous Oxide (N2O/ NOx), Ozone (O3), and more. Through industrialization, we have exponentially increased these gas concentrations in the atmosphere.  

Greenhouse Effect: The insulating effect of natural and industrial gasses. When light from the sun reaches the planet, it bounces back out as infrared heat. The accumulation of greenhouse gasses causes global temperatures to rise because they absorb heat that would typically bounce back out of our atmosphere.  

Greenwashing: The practice of making an unsustainable product appear eco-friendly.

Methane: CH4is a major greenhouse gas that is the main compound of ”Natural Gas”. It is also a byproduct of cow respiration, which is a major source of atmospheric methane that continues to rise as world populations rise and meat demand increases. Fun Fact: cow methane isn’t from their farts or burps, but from their breath. They actually can’t burp due to the design of their digestive system. 

Mitigation: Actions taken to reduce or prevent greenhouse gas emissions. 

Non-Toxic: This is an unregulated term. Therefore, one toxic chemical can be traded for another and be called non-toxic. Through manufacturing processes, all chemicals end up polluting water or soil because they can escape containment throughout the creation, transportation, and use of the chemical. 

Ocean Acidification: The ocean has the ability to absorb excess COfrom the atmosphere, which in one sense is great because it acts as a buffer to climate change. However, when water and CO2 mix, it creates Carbonic Acid, which makes ocean water more acidic. This affects marine life by killing coral reefs (which are home to many economically important fish) and prevents marine animals from building shells and skeletal structures (also affecting economically valuable organisms, such as oysters). 

Pre-Industrial Levels of CO2: The Industrial Revolution introduced fossil fuel combustion to the western world, which allowed our lives to become exponentially more convenient. Pre-Industrial CO2 levels were about 280 parts per million (ppm) and were 412.4 ppm as of December 16, 2019. We can find historical CO2 levels by analyzing the air trapped in ice cores

Recyclable: Ideally, a recyclable product is broken down and used to make “new” products. However, while many materials are technically recyclable, recycling them is not practical. Most recyclable materials are not actually recycled because it costs too much money or requires even more fossil fuels to recycle them.  

Reforestation: Replanting trees in areas that were once a forest. This increases carbon sequestration. 

Renewable Energy: Energy created from sources that can be replenished in a short period of time. Common renewable energy sources include wood, water movement (dams using water to generate power), geothermal (heat within the earth), wind, and solar. 

Tipping Point: A threshold of change that will have irreversible effects once we pass it. Tipping points common in media include exceeding 2 oC of global temperature rise and ice collapse. On top of this, a tipping point in one ecosystem can lead to a tipping point in another ecosystem creating a cascading effect across the globe.

Sea-Level Rise: This is caused by two main factors. First, as global temperatures rise, glaciers melt and release more water into the oceans. At the same time, as the water gets warmer it expands.  Since the early 1990s, global sea levels have risen 2.6 inches and continue to rise about 1/8th of an inch per year. This is dangerous for coastal communities whose homes and livelihoods are threatened by this rise. More water and higher temperatures also cause an increase in evaporation, which increases cloud formation, which changes weather patterns and is why we can have increased rain in one area and severe droughts in another. 

Sustainability:  Environmentally, this is the avoidance of the depletion of natural resources in order to maintain ecological balance. This is vague, so a company needs to define its own sustainability standard and be transparent about the tradeoffs involved. Defining this will include knowing the sources of all materials and supply chain emissions. 

If there are additional words or a term you would like defined, fill out the form below!

How to Talk to Climate Skeptics – and Understanding Who They Are

It feels really good to have people agree with you. In fact, it feels so good that we tend to only surround ourselves with people who have the same viewpoints as us. But when we come across someone who doesn’t agree with us, our natural instinct is to become immediately defensive and double down on our own opinions. It’s challenging to have conversations outside of our comfortable social bubbles, but to fight climate change, we need support from more than just the people who look like us and talk like us. In this article, we hope to provide you with a better understanding of why people think the way they do and equip you with some tools to engage in a constructive climate conversation. 

We all agree with each other more than we think.

Most people generally do believe in climate change – that fact probably isn’t very surprising. The data actually tell us that only about 16% of Americans don’t believe in climate change. Right now you might be thinking you’ve got a pretty good idea of who to blame for that 16% (other than Obama; thanks Obama). But as it turns out, we’re pretty bad at trying to predict who the climate believers and skeptics are. Us believers might assume that skeptics aren’t as highly educated or informed, but that’s not the case: general attitudes about global warming are unrelated to scientific literacy and education. You might be thinking, “what about… Republicans?” Wrong again! Data from multiple surveys actually show that the majority of Republicans believe in climate change. 

Why are people resistant to climate change policies even if they believe the science?

If majorities of both Republicans and Democrats believe in climate change, then what’s holding us back from coming together on climate issues? The answer, per usual, is each other. Republicans might not be skeptical of climate change, but they are skeptical of Democrats – and Democrats, in turn, are skeptical of Republicans. Psychologists have repeatedly shown that individuals tend to favor party over policy. That is, voters are more likely to support policies that are put forward by their own political party and reactively reject policies that are put forward by the opposing party, with little regard for the policy itself.  Unfortunately, these partisan allegiances seem to extend to climate policies as well, with Republicans opposing climate policies in large part because they are often proposed by Democrats. 

But there’s hope in this big ol’ mess. People cannot and should not be reduced to simply “Republicans” and “Democrats” – we are all so much more than that. And a path forward is right in front of us: if we’re able to distance ourselves from political labels and traps, we can uncover our commonalities and focus on solving this gigantic problem together. Of course, this is easier said than done. But a better understanding of the human mind and motivations for why people oppose climate policy can help us empathize with others, and offers us a much better chance at a constructive conversation.

Cognitive dissonance and the psychology of climate policy resistance

Now for the fun part: Let’s learn about a neat little psychological trick that, if you’re like me, will have you questioning nearly every decision you’ve ever made and shake you to your core: cognitive dissonance theory! 

Let’s unpack this theory with a simple example: Chiara’s a huge BBQ fan. She loves herself a fat slab of ribs with a side of corn dogs. As a scientist, she’s well aware that the meat industry is a huge contributor to climate change, but every week she heads to the butcher anyway. That mental discomfort she feels when a belief she holds (knowing that eating a lot of meat is bad for the planet) contradicts her actions (eating meat anyway) is what we refer to as cognitive dissonance. And people hate being in a state of dissonance. It’s sort of like being super hungry. It’s uncomfortable, we hate it, and the longer it persists the more motivated we are to get rid of it.

So how can Chiara reduce her dissonance? She can either change her actions to align with her beliefs, or she can change her beliefs to align with her actions. The first option means she has to quit eating meat, but she really doesn’t want to do that. The second option requires her to change her underlying beliefs about eating meat. To justify her actions, she can tell herself things like “my meat consumption won’t make a difference in the long run” or “I drive a Prius to work so I don’t need to stop eating meat”. If she’s feeling a particularly large amount of dissonance, Chiara might even seek out information that claims the meat industry isn’t contributing to climate change, or even that climate change itself isn’t real. By altering her beliefs about climate change, Chiara can keep eating meat without experiencing dissonance. And just like that, we’ve taken one of the authors of this article and turned her into a climate change skeptic (don’t worry, she’s not). 

This theory is powerful because it not only explains why Republicans are more likely to oppose climate change policy but also why anyone else whose values or actions are discordant with climate policy proposals might oppose them. For example, consider the case of Frank, a landowner in northern Texas who’s fallen on hard times. He’s approached by an oil and gas company to install a natural gas well on his property in exchange for royalties that will allow him to provide for his family. Though he was previously sympathetic to climate policy, Frank now finds himself in an elevated state of dissonance, where his family’s livelihood is intimately tied to the fossil fuel industry. To reduce his dissonance, Frank will likely start to downplay his beliefs around climate change.

An important takeaway here is that people who are acting to reduce dissonance by justifying their actions or a choice they made aren’t intentionally lying to you. Rather, they’re lying to themselves. This can all come off as very condescending, so it’s important to keep in mind that we are all guilty of this same conduct. For instance, you might really care about a farmer’s ability to support themselves, but then find yourself in a state of dissonance when that farmer’s choice to frack on their land clashes with your stance on environmentalism. To reduce dissonance, you’ll recharacterize the farmer as an ignorant and greedy opportunist. This doesn’t mean that you don’t understand the farmer’s financial motives, it just means you’re making it easier for yourself to sleep at night when you later vote to remove his access to that type of revenue. 

Now that we can understand a bit more about where people are coming from, and recognize what we have in common, what are the key ingredients to a constructive conversation?

Do it face to face. People have better first impressions, less conflict, feel more emotionally connected, and are more vulnerable when having conversations in-person rather than online. 

Paint a picture of a more positive future. Most narratives around climate change solutions paint a painful picture of a difficult future that will require substantial individual sacrifices. But if we do things right, the changes we make to address climate change could lead to a healthier, less expensive, more equitable, and guilt-free future. And while we understand why you want to convince Uncle Joe that climate change is scary and real, focusing on positive solutions is more effective in engaging people. It’s also critical in breaking down the cognitive dissonance that arises when we tell people that if they care about climate change, they’ll have to settle for a lower quality of life. Instead, focus on how policy and economic shifts could give us a better life even in a world undergoing climate change. We highly recommend listening to Ezra Klein’s conversation with Saul Griffith on this topic.

Leave party politics at the door. Like we said above, people tend to interpret information as positive or negative depending on which party presents it, so the less political you can remain the better. Further, using language like carbon “offsets” instead of carbon “taxes” can make people more amenable to your argument.

Use personal anecdotes and story-telling. Using stories, anecdotes, or narratives is an effective way of communicating science with non-experts, and local stories can make people want to engage more. Content presented in this format is also easier to understand.

Demonstrate vulnerability and show that making mistakes is okay. We need to do a much better job of normalizing the idea that it’s okay to make mistakes and change our minds – we’re all human! Most importantly, we must learn to forgive people when they do admit a mistake, and allow them space to change their minds. Attacking others for their views will only cause them to become more entrenched. Be vulnerable yourself; maybe share a story about a time you experienced dissonance and justified a poor choice, but were later were able to admit to yourself that you were wrong.

Show empathy and actively listen. Remember that you need to have a conversation with this person rather than direct your best monologue at them. Take a breath and prepare to actively listen. Remember that you have other things in common with them and that you both have reasons to hold the opinions you do (see all of the above). Going on a tirade that makes the other person feel steamrolled, misunderstood, or patronized will not be productive. People typically stick with the common opinion of their social group, so to reach someone, it’s important to maintain a positive relationship with them. Treat them with respect and kindness and show gratitude when they are willing to engage in a conversation with you. 

Talk about how strong of a consensus there is about climate change among scientists. Simply talking about how almost all climate scientists (97% to be exact) agree that climate change is real, pressing, and human-caused has been shown to increase climate change acceptance across party lines. 

Provide a brief mechanistic explanation of the greenhouse effect. Giving a brief explanation of the greenhouse effect increases climate change acceptance. You can even show them a fun video with Bill Nye. If you want to explain it yourself, here’s our two-liner: We’ve thrown our carbon cycle out of whack by burning fossil fuels, which means that we are now releasing more carbon dioxide into the atmosphere. Excess CO2 in the atmosphere traps heat from the sun — instead of heat from the sun bouncing off the Earth and back out of our atmosphere, it bounces right back toward us, which causes global temperatures to rise. Check out our Climate Science 101 article for more, or if the person you’re talking to has misconceptions about the science of climate change, check out our article on addressing specific climate change misconceptions

<strong>Shane Schwikert</strong>
Shane Schwikert

Shane is a teacher, researcher, and data enthusiast at the University of Colorado in Boulder, where he wailed his way to a PhD in Psychology, Neuroscience, and Cognitive Science. His hobbies range from dirt biking to backcountry skiing to gold panning, and he is an avid rock collector known for assembling his treasures in strategic piles throughout his apartment.

Chiara Forrester
Chiara Forrester

Chiara is happiest when she’s in the mountains on skis, a bike, or running. She also loves Ariana Grande (117 hours this year, thanks Spotify), making dinner with friends, and laughing too loudly at her own jokes. An ecologist who’s passionate about science communication and increasing diversity in STEM, Chiara is currently a PhD candidate in Boulder, CO, studying alpine plant ecology, undergraduate education, and the use of science in federal land management.

NOTE: THIS IS A LIVING RESOURCE! As with all resources on Outdoor Advocacy Project, there is always room to continue the conversation, add a new perspective, bolster the resources, and share new findings. Got something you want to add, change, challenge or amplify? Let us know in the comments, or e-mail team@outdooradvocacy.com to write your own.