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Which countries emit the most?"/><meta property="og:image" content="https://ourworldindata.org/app/uploads/2022/03/Screenshot-2022-03-04-at-16.51.31-768x480.png"/><meta property="og:site_name" content="Our World in Data"/><meta name="twitter:card" content="summary_large_image"/><meta name="twitter:site" content="@OurWorldInData"/><meta name="twitter:creator" content="@OurWorldInData"/><meta name="twitter:title" content="CO2 emissions"/><meta name="twitter:description" content="How much CO2 does the world emit? Which countries emit the most?"/><meta name="twitter:image" content="https://ourworldindata.org/app/uploads/2022/03/Screenshot-2022-03-04-at-16.51.31-768x480.png"/><link href="https://fonts.googleapis.com/css?family=Lato:300,400,400i,700,700i|Playfair+Display:400,700&amp;display=swap" rel="stylesheet"/><link rel="stylesheet" href="https://ourworldindata.org/assets/commons.css"/><link rel="stylesheet" href="https://ourworldindata.org/assets/owid.css"/><meta name="citation_title" content="CO₂ and Greenhouse Gas Emissions"/><meta name="citation_fulltext_html_url" content="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions"/><meta name="citation_fulltext_world_readable" content=""/><meta name="citation_publication_date" content="2020/05/11"/><meta name="citation_journal_title" content="Our World in Data"/><meta name="citation_journal_abbrev" content="Our World in Data"/><meta name="citation_author" content="Hannah Ritchie"/><meta name="citation_author" content="Max 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data-track-note="covid-banner-click">Explore our COVID-19 data</a></div></div><main><article class="page with-sidebar large-banner"><div class="offset-header"><header class="article-header"><div class="article-titles"><h1 class="entry-title">CO2 emissions</h1><div class="breadcrumb"><a href="/">Home</a><span class="separator"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="angle-right" class="svg-inline--fa fa-angle-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 256 512"><path fill="currentColor" d="M64 448c-8.188 0-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L178.8 256L41.38 118.6c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160c12.5 12.5 12.5 32.75 0 45.25l-160 160C80.38 444.9 72.19 448 64 448z"></path></svg></span><a data-track-note="breadcrumb" href="/co2-and-other-greenhouse-gas-emissions">CO₂ and GHG Emissions</a><span class="separator"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="angle-right" class="svg-inline--fa fa-angle-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 256 512"><path fill="currentColor" d="M64 448c-8.188 0-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L178.8 256L41.38 118.6c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160c12.5 12.5 12.5 32.75 0 45.25l-160 160C80.38 444.9 72.19 448 64 448z"></path></svg></span><span>CO₂ emissions</span></div></div><div class="authors-byline"><a href="/team">by Hannah Ritchie and Max Roser</a></div><div class="tools"><a href="#licence"><svg aria-hidden="true" focusable="false" data-prefix="fab" data-icon="creative-commons" class="svg-inline--fa fa-creative-commons " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 496 512"><path fill="currentColor" d="M245.8 214.9l-33.22 17.28c-9.43-19.58-25.24-19.93-27.46-19.93-22.13 0-33.22 14.61-33.22 43.84 0 23.57 9.21 43.84 33.22 43.84 14.47 0 24.65-7.09 30.57-21.26l30.55 15.5c-6.17 11.51-25.69 38.98-65.1 38.98-22.6 0-73.96-10.32-73.96-77.05 0-58.69 43-77.06 72.63-77.06 30.72-.01 52.7 11.95 65.99 35.86zm143.1 0l-32.78 17.28c-9.5-19.77-25.72-19.93-27.9-19.93-22.14 0-33.22 14.61-33.22 43.84 0 23.55 9.23 43.84 33.22 43.84 14.45 0 24.65-7.09 30.54-21.26l31 15.5c-2.1 3.75-21.39 38.98-65.09 38.98-22.69 0-73.96-9.87-73.96-77.05 0-58.67 42.97-77.06 72.63-77.06 30.71-.01 52.58 11.95 65.56 35.86zM247.6 8.05C104.7 8.05 0 123.1 0 256c0 138.5 113.6 248 247.6 248 129.9 0 248.4-100.9 248.4-248 0-137.9-106.6-248-248.4-248zm.87 450.8c-112.5 0-203.7-93.04-203.7-202.8 0-105.4 85.43-203.3 203.7-203.3 112.5 0 202.8 89.46 202.8 203.3-.01 121.7-99.68 202.8-202.8 202.8z"></path></svg>Reuse our work freely</a><a href="#citation"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="book" class="svg-inline--fa fa-book " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path fill="currentColor" d="M448 336v-288C448 21.49 426.5 0 400 0H96C42.98 0 0 42.98 0 96v320c0 53.02 42.98 96 96 96h320c17.67 0 32-14.33 32-31.1c0-11.72-6.607-21.52-16-27.1v-81.36C441.8 362.8 448 350.2 448 336zM143.1 128h192C344.8 128 352 135.2 352 144C352 152.8 344.8 160 336 160H143.1C135.2 160 128 152.8 128 144C128 135.2 135.2 128 143.1 128zM143.1 192h192C344.8 192 352 199.2 352 208C352 216.8 344.8 224 336 224H143.1C135.2 224 128 216.8 128 208C128 199.2 135.2 192 143.1 192zM384 448H96c-17.67 0-32-14.33-32-32c0-17.67 14.33-32 32-32h288V448z"></path></svg>Cite this research</a></div></header></div><div class="offset-subnavigation"><div class="site-subnavigation"><div class="site-subnavigation-scroll"><ul class="site-subnavigation-links"><li class="highlight"><a href="/co2-and-other-greenhouse-gas-emissions" data-track-note="co2-subnav-co2-and-ghg-emissions">CO₂ and GHG Emissions<svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="chevron-left" class="svg-inline--fa fa-chevron-left " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 320 512"><path fill="currentColor" d="M224 480c-8.188 0-16.38-3.125-22.62-9.375l-192-192c-12.5-12.5-12.5-32.75 0-45.25l192-192c12.5-12.5 32.75-12.5 45.25 0s12.5 32.75 0 45.25L77.25 256l169.4 169.4c12.5 12.5 12.5 32.75 0 45.25C240.4 476.9 232.2 480 224 480z"></path></svg></a></li><li class=""><a href="/co2-and-other-greenhouse-gas-emissions#co2-and-greenhouse-gas-emissions-country-profiles" data-track-note="co2-subnav-by-country">By country</a></li><li class=""><a href="/explorers/co2" data-track-note="co2-subnav-co2-data-explorer">Data explorer</a></li><li class="current"><a href="/co2-emissions" data-track-note="co2-subnav-co2-emissions">CO₂ emissions</a></li><li class=""><a href="/emissions-by-fuel" data-track-note="co2-subnav-by-fuel">CO₂ by fuel</a></li><li class=""><a href="/greenhouse-gas-emissions" data-track-note="co2-subnav-ghg-emissions">GHG emissions</a></li><li class=""><a href="/emissions-by-sector" data-track-note="co2-subnav-by-sector">By sector</a></li><li class=""><a href="/atmospheric-concentrations" data-track-note="co2-subnav-atm-concentrations">Atmospheric concentrations</a></li><li class=""><a href="/explorers/climate-change" data-track-note="co2-subnav-climate-impacts">Climate impacts</a></li></ul></div></div></div><div class="content-wrapper"><div class="toc-wrapper"><aside class="entry-sidebar"><div class="sticky-sentinel"></div><nav class="entry-toc"><ul><li><a href="#" data-track-note="toc-header">CO2 emissions</a></li><li class="section"><a href="#global-co2-emissions-from-fossil-fuels" data-track-note="toc-link">Global CO2 emissions from fossil fuels</a></li><li class="subsection"><a href="#global-co2-emissions-from-fossil-fuels-global-co2-emissions-from-fossil-fuels" data-track-note="toc-link">Global CO2 emissions from fossil fuels</a></li><li class="subsection"><a href="#global-co2-emissions-from-fossil-fuels-and-land-use-change" data-track-note="toc-link">Global CO2 emissions from fossil fuels and land use change</a></li><li class="subsection"><a href="#co2-emissions-by-region" data-track-note="toc-link">CO2 emissions by region</a></li><li class="section"><a href="#per-capita-co2-emissions" data-track-note="toc-link">Per capita CO2 emissions</a></li><li class="section"><a href="#annual-co2-emissions" data-track-note="toc-link">Annual CO2 emissions</a></li><li class="section"><a href="#annual-change-in-co2-emissions" data-track-note="toc-link">Annual change in CO2 emissions</a></li><li class="section"><a href="#cumulative-co2-emissions" data-track-note="toc-link">Cumulative CO2 emissions</a></li><li class="section"><a href="#consumption-based-trade-adjusted-emissions" data-track-note="toc-link">Consumption-based (trade-adjusted) emissions</a></li><li class="section"><a href="#decoupling-co2-emissions-from-economic-growth" data-track-note="toc-link">Decoupling CO₂ emissions from economic growth</a></li><li class="section"><a href="#global-inequalities-in-co2-emissions" data-track-note="toc-link">Global inequalities in CO2 emissions</a></li><li class="subsection"><a href="#global-inequalities-by-production" data-track-note="toc-link">Global inequalities by production</a></li><li class="subsection"><a href="#global-inequalities-by-consumption" data-track-note="toc-link">Global inequalities by consumption</a></li><li class="section"><a href="#how-do-we-measure-or-estimate-co2-emissions" data-track-note="toc-link">How do we measure or estimate CO2 emissions?</a></li><li class="section"><a href="#endnotes" data-track-note="toc-link">Endnotes</a></li><li class="section"><a href="#licence" data-track-note="toc-link">Licence</a></li><li class="section"><a href="#citation" data-track-note="toc-link">Citation</a></li></ul></nav><div class="toggle-toc"><button data-track-note="page-toggle-toc" aria-label="Open table of contents"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="bars" class="svg-inline--fa fa-bars " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path fill="currentColor" d="M0 96C0 78.33 14.33 64 32 64H416C433.7 64 448 78.33 448 96C448 113.7 433.7 128 416 128H32C14.33 128 0 113.7 0 96zM0 256C0 238.3 14.33 224 32 224H416C433.7 224 448 238.3 448 256C448 273.7 433.7 288 416 288H32C14.33 288 0 273.7 0 256zM416 448H32C14.33 448 0 433.7 0 416C0 398.3 14.33 384 32 384H416C433.7 384 448 398.3 448 416C448 433.7 433.7 448 416 448z"></path></svg><span class="label">Contents</span></button></div></aside></div><div class="offset-content"><div class="content-and-footnotes"><div class="article-content"><section><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>You can&nbsp;<strong><a href="https://github.com/owid/co2-data">download</a></strong>&nbsp;our complete <em>Our World in Data</em> CO<sub>2</sub> and Greenhouse Gas Emissions database.</p><hr class="wp-block-separator"><p>Carbon dioxide emissions are the primary driver of global climate change. It’s widely recognised that to avoid the worst impacts of climate change, the world needs to urgently reduce emissions. But, how this responsibility is shared between regions, countries, and individuals has been an endless point of contention in international discussions. </p><p>This debate arises from the various ways in which emissions are compared: as annual emissions by country; emissions per person; historical contributions; and whether they adjust for traded goods and services. These metrics can tell very different stories. </p><p>We teamed up with the YouTube channel, <em>Kurzgesagt</em>, to produce a video which explored these different metrics in detail: <a href="https://www.youtube.com/watch?v=ipVxxxqwBQw">‘Who is responsible for climate change? – Who needs to fix it?’</a>. All of the data and research featured in this video is contained in this article: below we look in detail at the many ways emissions are broken down.</p><div class="wp-container-62bb526c92ac5 wp-block-group">    <div class="block-wrapper"><div class="wp-block-owid-prominent-link with-image" data-no-lightbox="true" data-style="is-style-thin" data-title="&nbsp;‘Who is responsible for climate change? – Who needs to fix it?’"><a href="https://www.youtube.com/watch?v=ipVxxxqwBQw"><figure><img width="768" height="433" src="https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt-768x433.png" class="attachment-medium_large size-medium_large" alt="Co2 kurzgesagt" loading="lazy" srcset="https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt-768x433.png 768w, https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt-400x225.png 400w, https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt-800x451.png 800w, https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt-150x84.png 150w, https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt.png 1422w" sizes="(max-width: 768px) 100vw, 768px" data-high-res-src="https://ourworldindata.org/uploads/2020/06/CO2-Kurzgesagt.png"></figure><div class="content-wrapper"><div class="content">

<p>We teamed up with YouTube channel <em>Kurzgesagt</em> to make a video on comparisons of CO<sub>2</sub> emissions.</p>

</div><div class="title"><span>&nbsp;‘Who is responsible for climate change? – Who needs to fix it?’</span><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-right" class="svg-inline--fa fa-arrow-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path fill="currentColor" d="M438.6 278.6l-160 160C272.4 444.9 264.2 448 256 448s-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L338.8 288H32C14.33 288 .0016 273.7 .0016 256S14.33 224 32 224h306.8l-105.4-105.4c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160C451.1 245.9 451.1 266.1 438.6 278.6z"></path></svg></div></div></a></div></div>


<p>This page is just one in our collection of work on CO<sub>2</sub> and Greenhouse Gas Emissions. The rest can be explored via the navigation menu at the top of this page. There you can explore emissions of other greenhouse gases; where our emissions come from; what trajectories of future emissions look like; and what is driving emissions across the world. </p>



<p>In the navigation menu you also find Country Profiles, so you can see how your country is doing in reducing emissions, and our CO<sub>2</sub> Data Explorer where you can browse all of these metrics in one place.</p>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="global-co2-emissions-from-fossil-fuels"><strong>Global</strong> CO<sub>2</sub> emissions from fossil fuels<a class="deep-link" href="#global-co2-emissions-from-fossil-fuels"></a></h2></div><div class="in-this-section"><div class="label">In this section</div><div class="border"></div></div><ul class="subheadings"><li><a href="#global-co2-emissions-from-fossil-fuels-global-co2-emissions-from-fossil-fuels"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-down" class="svg-inline--fa fa-arrow-down " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 384 512"><path fill="currentColor" d="M374.6 310.6l-160 160C208.4 476.9 200.2 480 192 480s-16.38-3.125-22.62-9.375l-160-160c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0L160 370.8V64c0-17.69 14.33-31.1 31.1-31.1S224 46.31 224 64v306.8l105.4-105.4c12.5-12.5 32.75-12.5 45.25 0S387.1 298.1 374.6 310.6z"></path></svg><span><strong>Global</strong> CO<sub>2</sub> emissions from fossil fuels</span></a></li><li><a href="#global-co2-emissions-from-fossil-fuels-and-land-use-change"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-down" class="svg-inline--fa fa-arrow-down " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 384 512"><path fill="currentColor" d="M374.6 310.6l-160 160C208.4 476.9 200.2 480 192 480s-16.38-3.125-22.62-9.375l-160-160c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0L160 370.8V64c0-17.69 14.33-31.1 31.1-31.1S224 46.31 224 64v306.8l105.4-105.4c12.5-12.5 32.75-12.5 45.25 0S387.1 298.1 374.6 310.6z"></path></svg><span><strong>Global</strong> CO<sub>2</sub> emissions from fossil fuels and land use change</span></a></li><li><a href="#co2-emissions-by-region"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-down" class="svg-inline--fa fa-arrow-down " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 384 512"><path fill="currentColor" d="M374.6 310.6l-160 160C208.4 476.9 200.2 480 192 480s-16.38-3.125-22.62-9.375l-160-160c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0L160 370.8V64c0-17.69 14.33-31.1 31.1-31.1S224 46.31 224 64v306.8l105.4-105.4c12.5-12.5 32.75-12.5 45.25 0S387.1 298.1 374.6 310.6z"></path></svg><span>CO<sub>2</sub> emissions by region</span></a></li></ul></div></div><h3 id="global-co2-emissions-from-fossil-fuels-global-co2-emissions-from-fossil-fuels"><strong>Global</strong> CO<sub>2</sub> emissions from fossil fuels<a class="deep-link" href="#global-co2-emissions-from-fossil-fuels-global-co2-emissions-from-fossil-fuels"></a></h3><div class="wp-block-columns is-style-sticky-right">
<div class="wp-block-column">
<p>How have global emissions of carbon dioxide (CO<sub>2</sub>) changed over time? </p>



<p>In this chart we see the growth of global emissions from the mid-18th century through to today.</p>



<p> We see that prior to the Industrial Revolution, emissions were very low. Growth in emissions was still relatively slow until the mid-20th century. In&nbsp;<span data-type="block-wrapper" data-reactroot=""><span class="annotating-data-value"><script data-type="AnnotatingDataValue" type="component/props">{"value":6003238189,"template":"%year the world emitted 6 billion tonnes of CO<sub>2</sub>","year":1950,"unit":"tonnes","entityName":"World"}</script><span class=""><span class="data-value">1950 the world emitted 6 billion tonnes of CO<sub>2</sub></span></span></span></span>.</p>



<p>By&nbsp;<span data-type="block-wrapper" data-reactroot=""><span class="annotating-data-value"><script data-type="AnnotatingDataValue" type="component/props">{"value":22749574360,"template":"%year this had almost quadrupled, reaching more than 22 billion tonnes","year":1990,"unit":"tonnes","entityName":"World"}</script><span class=""><span class="data-value">1990 this had almost quadrupled, reaching more than 22 billion tonnes</span></span></span></span>. Emissions have continued to grow rapidly; we <span data-type="block-wrapper" data-reactroot=""><span class="annotating-data-value"><script data-type="AnnotatingDataValue" type="component/props">{"value":34807259099,"template":"now emit over 34 billion tonnes each year","year":2020,"unit":"tonnes","entityName":"World"}</script><span class=""><span class="data-value">now emit over 34 billion tonnes each year</span></span></span></span>.</p>



<p>Emissions growth has slowed over the last few years, but they have yet to reach their peak.</p>
</div>



<div class="wp-block-column">

                <figure data-grapher-src="https://ourworldindata.org/grapher/annual-co2-emissions-per-country?tab=chart&amp;country=~OWID_WRL" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/annual-co2-emissions-per-country?tab=chart&amp;country=~OWID_WRL" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/annual-co2-emissions-per-country-da8ccccaf5fc9d6bab92c3527f0cc596_v38_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Annual co2 emissions per country da8ccccaf5fc9d6bab92c3527f0cc596 v38 850x600"></div>
                        <div class="interactionNotice">
                            <span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="hand-pointer" class="svg-inline--fa fa-hand-pointer fa-w-14" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 617">
    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
</svg></span>
                            <span class="label">Click to open interactive version</span>
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                    </a>
                </figure>
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</div><h3 id="global-co2-emissions-from-fossil-fuels-and-land-use-change"><strong>Global</strong> CO<sub>2</sub> emissions from fossil fuels and land use change<a class="deep-link" href="#global-co2-emissions-from-fossil-fuels-and-land-use-change"></a></h3><div class="wp-block-columns is-style-sticky-right">
<div class="wp-block-column">
<p>How have global emissions of carbon dioxide (CO<sub>2</sub>) from fossil fuels <em>and </em>land use changed over time? </p>



<p>In this chart we see the growth of global emissions from the mid-18th century through to today.</p>



<p>We see that while emissions from fossil fuels have increased, emissions from land use change have declined slightly in recent years. Overall, this means total emissions have roughly stabilised over the past decade.</p>
</div>



<div class="wp-block-column">

                <figure data-grapher-src="https://ourworldindata.org/grapher/global-co2-fossil-plus-land-use?country=~OWID_WRL" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/global-co2-fossil-plus-land-use?country=~OWID_WRL" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/global-co2-fossil-plus-land-use-ed9cc8bcc7e00c8a5b0c73d8f2310738_v3_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Global co2 fossil plus land use ed9cc8bcc7e00c8a5b0c73d8f2310738 v3 850x600"></div>
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                            <span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="hand-pointer" class="svg-inline--fa fa-hand-pointer fa-w-14" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 617">
    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
</svg></span>
                            <span class="label">Click to open interactive version</span>
                        </div>
                    </a>
                </figure>
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</div><h3 id="co2-emissions-by-region">CO<sub>2</sub> emissions by region<a class="deep-link" href="#co2-emissions-by-region"></a></h3><div class="wp-block-columns is-style-sticky-right">
<div class="wp-block-column">
<p>This interactive chart shows the breakdown of  global CO<sub>2</sub> emissions by region.</p>



<p>We see that until well into the 20th century, global emissions were dominated by Europe and the United States. In 1900, more than 90% of emissions were produced in Europe or the US; even by 1950, they accounted for more than 85% of emissions each year.</p>



<p>But in recent decades this has changed significantly. </p>



<p>In the second half of the 20th century we see a significant rise in emissions in the rest of the world, particularly across Asia, and most notably, China.</p>



<p>The US and Europe now account for just under one-third of emissions.</p>
</div>



<div class="wp-block-column">

                <figure data-grapher-src="https://ourworldindata.org/grapher/annual-co-emissions-by-region" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/annual-co-emissions-by-region" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/annual-co-emissions-by-region_v36_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Annual co emissions by region v36 850x600"></div>
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    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
</svg></span>
                            <span class="label">Click to open interactive version</span>
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                    </a>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="per-capita-co2-emissions"><strong>Per capita</strong> CO<sub>2</sub> emissions<a class="deep-link" href="#per-capita-co2-emissions"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>Where in the world does the average person emit the most carbon dioxide (CO<sub>2</sub>) each year?</p><p>We can calculate the contribution of the average citizen of each country by dividing its total emissions by its population. This gives us CO<sub>2</sub> emissions per capita. In the visualization we see the differences in per capita emissions across the world.&nbsp;</p><p>Here we look at production-based emissions – that is, emissions produced within a country’s boundaries without accounting for how goods are traded across the world. In our post on <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#co2-embedded-in-trade">consumption-based emissions</a> we look at how these figures change when we account for trade. Production figures matter – these are the numbers that are taken into account for climate targets<a id="ref-1" class="ref" href="#note-1"><sup>1</sup></a> – and thanks to <a href="https://ourworldindata.org/contributed-most-global-co2">historical reconstructions</a> they are available for the entire world since the mid 18th century.</p><p>There are very large inequalities in per capita emissions across the world.&nbsp;</p><p>The world’s largest per capita CO<sub>2</sub> emitters are the major <a href="https://ourworldindata.org/fossil-fuels#oil-production-by-country">oil producing countries</a>; this is particularly true for those with relatively low <a href="https://ourworldindata.org/world-population-growth#population-growth-by-country">population size</a>. Most are in the Middle East: In 2017 Qatar had the highest emissions at 49 tonnes (t) per person, followed by Trinidad and Tobago (30t); Kuwait (25t); United Arab Emirates (25t); Brunei (24t); Bahrain (23t) and Saudi Arabia (19t).</p><p>However, many of the major oil producers have a relatively small population meaning their total <a href="https://ourworldindata.org/annual-co2-emissions">annual emissions</a> are low. More populous countries with some of the highest per capita emissions – and therefore high <a href="https://ourworldindata.org/annual-co2-emissions">total emissions</a> – are the United States, Australia, and Canada. Australia has an average per capita footprint of 17 tonnes, followed by the US at 16.2 tonnes, and Canada at 15.6 tonnes.</p><p>This is more than 3 times higher than the <a href="https://ourworldindata.org/grapher/co-emissions-per-capita?tab=chart&amp;country=USA+OWID_WRL+CAN+AUS">global average</a>, which in 2017 was 4.8 tonnes per person.</p><p>Since there is such a <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#co2-emissions-and-prosperity">strong relationship</a> between income and per capita CO<sub>2</sub> emissions, we’d expect this to be the case: that countries with high standards of living would have a high carbon footprint. But what becomes clear is that there can be large differences in per capita emissions, even between countries with similar standards of living. Many countries across Europe, for example, have much lower emissions than the US, Canada or Australia.&nbsp;</p><p>In fact, some European countries have emissions not far from the global average: In 2017 emissions in Portugal are 5.3 tonnes; 5.5t in France; and 5.8t per person in the UK. This is also much lower than some of their neighbours with similar standards of living, such as Germany, the Netherlands, or Belgium. The choice of energy sources plays a key role here: in the UK, Portugal and France, a much higher share of electricity is produced from nuclear and renewable sources – you can explore this electricity mix by country <a href="https://ourworldindata.org/grapher/world-electricity-by-source?country=FRA"><strong>here</strong></a>. This means a much lower share of electricity is produced from fossil fuels: in 2015, <a href="https://ourworldindata.org/grapher/share-of-electricity-production-from-fossil-fuels?country=FRA">only 6%</a> of France’s electricity came from fossil fuels, compared to <a href="https://ourworldindata.org/grapher/share-of-electricity-production-from-fossil-fuels?country=DEU">55% in Germany</a>.</p><p>Prosperity is a primary driver of CO<sub>2</sub> emissions, but clearly policy and technological choices make a difference.</p><p>Many countries in the world still have very low per capita CO<sub>2</sub> emissions. In many of the poorest countries in Sub-Saharan Africa – such as Chad, Niger and the Central African Republic – the average footprint is around 0.1 tonnes per year. That’s more than 160 times lower than the USA, Australia and Canada. In just 2.3 days the average American or Australian emits as much as the average Malian or Nigerien in a year.&nbsp;</p><p>This inequality in emissions across the world I explored in more detail in my post, ‘<a href="https://ourworldindata.org/share-co2-emissions">Who emits more than their share of CO</a><sub><a href="https://ourworldindata.org/share-co2-emissions">2</a></sub><a href="https://ourworldindata.org/share-co2-emissions"> emissions?</a>’</p></div><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/co-emissions-per-capita" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/co-emissions-per-capita" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/co-emissions-per-capita_v40_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Co emissions per capita v40 850x600"></div>
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                            <span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="hand-pointer" class="svg-inline--fa fa-hand-pointer fa-w-14" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 617">
    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="annual-co2-emissions"><strong>Annual</strong> CO<sub>2</sub> emissions<a class="deep-link" href="#annual-co2-emissions"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>Who emits the most CO<sub>2</sub> each year? In the treemap visualization we show annual CO<sub>2</sub> emissions by country, and aggregated by region. Treemaps are used to compare entities (such as countries or regions) in relation to others, and relative to the total. Here each inner rectangle represents a country – which are then nested and colored by region. The size of each rectangle corresponds to its annual CO<sub>2</sub> emissions in 2017. Combined, all rectangles represent the global total.</p><p>The emissions shown here relate to the country where CO<sub>2</sub> is produced (i.e.production-based CO<sub>2</sub>) , not to where the goods and services that generate emissions are finally consumed. We look at the difference in each country’s production vs. consumption (trade-adjusted) emissions <strong><a href="https://ourworldindata.org/grapher/production-vs-consumption-co2-emissions">here</a></strong>.</p><p>Asia is by far the largest emitter, accounting for 53% of global emissions. As it is <a href="https://ourworldindata.org/grapher/world-population-by-world-regions-post-1820?stackMode=relative">home to 60%</a> of the world’s population this means that per capita emissions in Asia are slightly lower than the world average, however.</p><p>China is, by a significant margin, Asia’s and the world’s largest emitter: it emits nearly 10 billion tonnes each year, more than one-quarter of global emissions.</p><p>North America – dominated by the USA – is the second largest regional emitter at 18% of global emissions. It’s followed closely by Europe with 17%. Here we have grouped the 28 countries of the European Union together, since they typically negotiate and <a href="https://climateactiontracker.org/countries/eu/">set targets</a> as a collective body. You can see the data for individual EU countries in the interactive maps which follow.</p><p>Africa and South America are both fairly small emitters: accounting for 3-4% of global emissions each. Both have emissions almost equal in size to international aviation and shipping. Both aviation and shipping are not included in national or regional emissions. This is because of disagreement over how emissions which cross country borders should be allocated: do they belong to the country of departure, or country of origin? How are connecting flights accounted for? The tensions in reaching international aviation and shipping deals are discussed in detail at the Carbon Brief <a href="https://www.carbonbrief.org/in-depth-will-countries-finally-agree-climate-deal-for-shipping"><strong>here</strong></a>.</p></div><div class="wp-block-column"><figure class="wp-block-image"><img loading="lazy" width="603" height="550" src="https://ourworldindata.org/uploads/2019/10/Annual-CO2-emissions-Treemap-1-603x550.png" alt="Annual co2 emissions treemap 1" class="wp-image-25353" srcset="https://ourworldindata.org/uploads/2019/10/Annual-CO2-emissions-Treemap-1-603x550.png 603w, https://ourworldindata.org/uploads/2019/10/Annual-CO2-emissions-Treemap-1-150x137.png 150w, https://ourworldindata.org/uploads/2019/10/Annual-CO2-emissions-Treemap-1-400x365.png 400w, https://ourworldindata.org/uploads/2019/10/Annual-CO2-emissions-Treemap-1-768x701.png 768w" sizes="(max-width: 603px) 100vw, 603px" data-high-res-src="https://ourworldindata.org/uploads/2019/10/Annual-CO2-emissions-Treemap-1.png"></figure></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="how-did-co2-emissions-change-over-time">How did CO<sub>2</sub> emissions change over time?<a class="deep-link" href="#how-did-co2-emissions-change-over-time"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>The same data is also explorable by country and over time in the interactive map.&nbsp;</p><p>By clicking on any country you can see how its annual emissions have changed, and compare it with other countries.</p></div><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/annual-co2-emissions-per-country" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/annual-co2-emissions-per-country" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/annual-co2-emissions-per-country_v38_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Annual co2 emissions per country v38 850x600"></div>
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    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
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                </figure></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="share-of-global-co2-emissions-by-country">Share of global CO<sub>2</sub> emissions by country<a class="deep-link" href="#share-of-global-co2-emissions-by-country"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>In the interactive chart you can explore each country’s <em>share</em> of global emissions. Using the timeline at the bottom of the map, you can see how the global distribution has changed since 1751. By clicking on any country you can see its evolution and compare it with others.</p><p>If you’re interested in which countries emit more or less than their ‘fair share’ based on their share of global population, you can explore this <a href="https://ourworldindata.org/share-co2-emissions"><strong>here</strong></a>.</p><p>The distribution of emissions has changed significantly over time. The UK was – until 1888, when it <a href="https://ourworldindata.org/grapher/annual-share-of-co2-emissions?tab=chart&amp;year=1890&amp;country=GBR+USA">was overtaken</a> by the US – the world’s largest emitter. This was because the UK was the first country to industrialize, a transition which later contributed to in massive improvements in living standards for much of its population.&nbsp;</p><p>Whilst rising CO<sub>2</sub> emissions have clear negative environmental consequences, it is also true that they have historically been a by-product of positive improvements in human living conditions. But, it’s also true that reducing CO<sub>2</sub> emissions is important to protect the living conditions of future generations. This perspective – that we must consider both the environmental and human welfare implications of emissions – is important if we are to build a future that is both sustainable and provides high standards of living for everyone.&nbsp;</p><p>Rising emissions and living standards in North America and Oceania followed soon after developments in the UK.</p><p>Many of the world’s largest emitters today are in Asia. However, Asia’s rapid rise in emissions has only occurred in very recent decades. This too has been a by-product of massive improvements in living standards: since 1950 life expectancy in Asia <a href="https://ourworldindata.org/grapher/life-expectancy?time=1770..2019&amp;country=Asia">has increased</a> from 41 to 74 years; it has seen a dramatic <a href="https://ourworldindata.org/grapher/share-of-the-population-living-in-extreme-poverty?tab=chart&amp;time=1981..2015&amp;country=East%20Asia%20%26%20Pacific+South%20Asia">fall in extreme poverty</a>; and for the first time most of its population <a href="https://ourworldindata.org/grapher/mean-years-of-schooling-long-run?tab=chart&amp;country=IND+CHN+BGD+JPN+KOR">received formal education</a>.</p><p>Whilst all countries must work collectively, action from the very top emitters will be essential. China, the USA and the 28 countries of the EU account for more than half of global emissions. Without commitment from these largest emitters, the world will not come close to meeting its global targets.</p></div><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/annual-share-of-co2-emissions" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/annual-share-of-co2-emissions" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/annual-share-of-co2-emissions_v30_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Annual share of co2 emissions v30 850x600"></div>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="annual-change-in-co2-emissions">Annual change in CO<sub>2</sub> emissions<a class="deep-link" href="#annual-change-in-co2-emissions"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right">
<div class="wp-block-column">
<p>This interactive chart shows the year-on-year growth rate of CO<sub>2</sub> emissions.</p>



<p>A positive figure in a given year indicates that emissions were <em>higher</em> than the previous year. A negative figure indicates they were <em>lower</em> than the year before. For example, a change of 1.5% indicates that global emissions were 1.5% higher than the previous year [–1.5% would mean they were 1.5% lower].</p>



<p>This measure allows us to see firstly where emissions are rising, and where they are falling; and secondly the rate at which emissions are changing – whether the growth in emissions are slowing down or accelerating.</p>
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                <figure data-grapher-src="https://ourworldindata.org/grapher/change-co2-annual-pct?tab=map" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/change-co2-annual-pct?tab=map" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/change-co2-annual-pct-a42c8357c168ebd03c90930b9d3c439b_v12_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Change co2 annual pct a42c8357c168ebd03c90930b9d3c439b v12 850x600"></div>
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    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
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<h5>Related chart:</h5>


    <div class="block-wrapper"><div class="wp-block-owid-prominent-link with-image" data-no-lightbox="true" data-style="is-style-thin" data-title="<em>Absolute</em> annual change in CO<sub>2</sub> emissions"><a href="https://ourworldindata.org/grapher/absolute-change-co2" target="_blank"><figure><img width="768" height="1" src="https://ourworldindata.org/uploads/2020/07/absolute-change-co2-1.svg" class="attachment-medium_large size-medium_large" alt="Absolute change co2 1" loading="lazy"></figure><div class="content-wrapper"><div class="content">

<p>What is the absolute [as opposed to the percentage] change in CO<sub>2</sub> emissions from year-to-year?</p>

</div><div class="title"><span><em>Absolute</em> annual change in CO<sub>2</sub> emissions</span><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-right" class="svg-inline--fa fa-arrow-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path fill="currentColor" d="M438.6 278.6l-160 160C272.4 444.9 264.2 448 256 448s-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L338.8 288H32C14.33 288 .0016 273.7 .0016 256S14.33 224 32 224h306.8l-105.4-105.4c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160C451.1 245.9 451.1 266.1 438.6 278.6z"></path></svg></div></div></a></div></div></div>
</div></section>







<section><div class="section-heading"><div class="wrapper"><div><h2 id="cumulative-co2-emissions"><strong>Cumulative</strong> CO<sub>2</sub> emissions<a class="deep-link" href="#cumulative-co2-emissions"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>Since 1751 the <a href="https://ourworldindata.org/grapher/cumulative-co2-emissions-region?stackMode=absolute">world has emitted</a> over 1.5 trillion tonnes of CO<sub>2</sub>.<a id="ref-2" class="ref" href="#note-2"><sup>2</sup></a> To reach our <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#future-emission-scenarios">climate goal</a> of limiting average temperature rise to 2°C, the world needs to urgently reduce emissions. One common argument is that those countries which have added most to the CO<sub>2</sub> in our atmosphere – contributing most to the problem today – should take on the greatest responsibility in tackling it. </p><p>We can compare each country’s total contribution to global emissions by looking at <em>cumulative</em> <em>CO<sub>2</sub></em>. We can calculate cumulative emissions by adding up each country’s annual CO<sub>2</sub> emissions over time. We did this calculation for each country and region over the period from 1751 through to 2017.<a id="ref-3" class="ref" href="#note-3"><sup>3</sup></a> </p><p>The distribution of cumulative emissions around the world is shown in the treemap. Treemaps are used to compare entities (such as countries or regions) in relation to others, and relative to the total. Here countries are presented as rectangles and colored by region. The size of each rectangle corresponds to the sum of CO<sub>2</sub> emissions from a country between 1751 and 2017. Combined, all rectangles represent the global total.</p><p>There are some key points we can learn from this perspective:</p><ul><li>the United States has emitted more CO<sub>2</sub> than any other country to date: at around 400 billion tonnes since 1751, it is responsible for 25% of historical emissions;</li><li>this is twice more than China – the world’s second largest national contributor;&nbsp;</li><li>the 28 countries of the European Union (EU-28) – which are grouped together here as they typically negotiate and <a href="https://climateactiontracker.org/countries/eu/">set targets</a> on a collaborative basis – is also a large historical contributor at 22%;</li><li>many of the large annual emitters today – such as India and Brazil – are not large contributors in a historical context;</li><li>Africa’s regional contribution – relative to its <a href="https://ourworldindata.org/grapher/world-population-by-world-regions-post-1820?stackMode=relative">population size</a> – has been very small. This is the result of very low per capita emissions – both historically and currently.</li></ul><p>All of this data is also explorable by country and over time in the interactive map. By clicking on any country you can see the country’s cumulative emissions over time, and compare it with other countries.</p></div><div class="wp-block-column"><figure class="wp-block-image"><img loading="lazy" width="660" height="550" src="https://ourworldindata.org/uploads/2019/10/Cumulative-CO2-treemap-660x550.png" alt="Cumulative co2 treemap" class="wp-image-25027" srcset="https://ourworldindata.org/uploads/2019/10/Cumulative-CO2-treemap-660x550.png 660w, https://ourworldindata.org/uploads/2019/10/Cumulative-CO2-treemap-150x125.png 150w, https://ourworldindata.org/uploads/2019/10/Cumulative-CO2-treemap-400x333.png 400w, https://ourworldindata.org/uploads/2019/10/Cumulative-CO2-treemap-768x640.png 768w" sizes="(max-width: 660px) 100vw, 660px" data-high-res-src="https://ourworldindata.org/uploads/2019/10/Cumulative-CO2-treemap.png"></figure><figure data-grapher-src="https://ourworldindata.org/grapher/cumulative-co-emissions" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/cumulative-co-emissions" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/cumulative-co-emissions_v26_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Cumulative co emissions v26 850x600"></div>
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    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
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                </figure></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="how-has-each-region-s-share-of-global-cumulative-co2-emissions-changed-over-time">How has each region’s share of global cumulative CO<sub>2</sub> emissions changed over time?<a class="deep-link" href="#how-has-each-region-s-share-of-global-cumulative-co2-emissions-changed-over-time"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>In the visualizations above we focused on each country or region’s total cumulative emissions (1) in absolute terms; and (2) at a single point in time: as of 2017.</p><p>In the chart we see the change in the share of global cumulative emissions by region over time – from 1751 through to 2017.&nbsp;</p><p>Up until 1950, more than half of historical CO<sub>2</sub> emissions were emitted by Europe. The vast majority of European emissions back then were emitted by the United Kingdom; as the <a href="https://ourworldindata.org/grapher/share-of-cumulative-co2?tab=chart&amp;country=GBR">data shows</a>, until 1882 more than half of the world’s cumulative emissions came from the UK alone.&nbsp;</p><p>Over the century which followed, industrialization in the USA rapidly increased its contribution.</p><p>It’s only over the past 50 years that growth in South America, Asia and Africa have increased these regions’ share of total contribution.</p></div><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/cumulative-co2-emissions-region" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/cumulative-co2-emissions-region" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/cumulative-co2-emissions-region_v26_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Cumulative co2 emissions region v26 850x600"></div>
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                    </a>
                </figure></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="how-has-each-country-s-share-of-global-cumulative-co2-emissions-changed-over-time">How has each country’s share of global cumulative CO<sub>2</sub> emissions changed over time?<a class="deep-link" href="#how-has-each-country-s-share-of-global-cumulative-co2-emissions-changed-over-time"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>In the final visualization you can explore the same cumulative CO<sub>2</sub> emissions as you have seen above but now visualizes <em>by country</em>. Using the timeline at the bottom of the chart you can see how contribution across the world has evolved since 1751. By clicking on a country you can see an individual country’s cumulative contribution over time.</p><p>The map for 2017 shows the large inequalities of contribution across the world that the first treemap visualization has shown. The USA has emitted most to date: more than a quarter of all historical CO<sub>2</sub>: twice that of China which is the second largest contributor. In contrast, most countries across Africa have been responsible for less than 0.01% of all emissions over the last 266 years.&nbsp;</p><p>What becomes clear when we look at emissions across the world today is that the countries with the highest emissions over history are not always the biggest emitters today. The UK, for example, was responsible for only <a href="https://ourworldindata.org/grapher/annual-share-of-co2-emissions?tab=chart&amp;country=GBR">1% of global emissions</a> in 2017. Reductions here will have a relatively small impact on emissions at the global level – or at least fall far short of the scale of change we need. This creates tension with the argument that the largest contributors in the past should be those doing most to reduce emissions today. This is because a large fraction of CO<sub>2</sub> remains in the atmosphere for hundreds of years once emitted.<a id="ref-4" class="ref" href="#note-4"><sup>4</sup></a></p><p>This inequality is one of the main reasons which makes international agreement on who should take action so challenging.</p></div><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/share-of-cumulative-co2" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/share-of-cumulative-co2" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/share-of-cumulative-co2_v23_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Share of cumulative co2 v23 850x600"></div>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="consumption-based-trade-adjusted-emissions"><strong>Consumption-based</strong> (trade-adjusted) emissions<a class="deep-link" href="#consumption-based-trade-adjusted-emissions"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>CO<sub>2</sub> emissions are typically measured on the basis of ‘production’. This accounting method – which is sometimes referred to as ‘territorial’ emissions – is used when countries report their emissions, and set targets domestically and internationally.<a id="ref-5" class="ref" href="#note-5"><sup>5</sup></a></p><p>In addition to the commonly reported production-based emissions statisticians also calculate ‘consumption-based’ emissions. These emissions are adjusted for <a href="https://ourworldindata.org/trade-and-globalization">trade</a>. To calculate consumption-based emissions we need to track which goods are traded across the world, and whenever a good was imported we need to include all CO<sub>2</sub> emissions that were emitted in the production of that good, and vice versa to subtract all CO<sub>2</sub> emissions that were emitted in the production of goods that were exported.</p><p>Consumption-based emissions reflect the consumption and lifestyle choices of a country’s citizens.</p></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="which-countries-in-the-world-are-net-importers-of-emissions-and-which-are-net-exporters">Which countries in the world are net importers of emissions and which are net exporters?<a class="deep-link" href="#which-countries-in-the-world-are-net-importers-of-emissions-and-which-are-net-exporters"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>In the interactive map we see the emissions of traded goods. To give a perspective on the importance of trade these emissions are put in relation to the country’s domestic, production-based emissions.<a id="ref-6" class="ref" href="#note-6"><sup>6</sup></a></p><ul><li>Countries shown in red are net importers of emissions – they import more CO<sub>2</sub> embedded in goods than they export. <br><br>For example, the USA has a value of 7.7% meaning its net import of CO<sub>2</sub> is equivalent to 7.7% of its domestic emissions. This means emissions calculated on the basis of ‘consumption’ are 7.7% higher than their emissions based on production.</li></ul><ul><li>Countries shown in blue are net exporters of emissions – they export more CO<sub>2</sub> embedded in goods than they import. <br><br>For example, China’s value of -14% means its net export of CO<sub>2</sub> is equivalent to 14% of its domestic emissions. The consumption-based emissions of China are 14% lower than their production-based emissions.</li></ul><p>We see quite a regional East-West split in net exporters and importers: most of Western Europe, the Americas, and many African countries are net importers of emissions whilst most of Eastern Europe and Asia are net exporters.&nbsp;</p><p>You can find these figures in absolute (tonnes of CO<sub>2</sub>) and per capita terms for each country in the <a href="https://ourworldindata.org/consumption-based-co2#additional-information">Additional Information</a> section.</p></div><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/co-emissions-in-imported-goods-as-a-share-of-domestic-emissions" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/co-emissions-in-imported-goods-as-a-share-of-domestic-emissions" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/co-emissions-in-imported-goods-as-a-share-of-domestic-emissions_v25_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Co emissions in imported goods as a share of domestic emissions v25 850x600"></div>
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    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
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                </figure></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="how-do-consumption-based-emissions-compare-to-production-based-emissions">How do consumption-based emissions compare to production-based emissions?<a class="deep-link" href="#how-do-consumption-based-emissions-compare-to-production-based-emissions"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>How did the differences between a country’s production and consumption-based emissions change over time?</p><p>In the interactive charts you can compare production- and consumption-based emissions for many countries and world regions since the first data is available in 1990.<a id="ref-7" class="ref" href="#note-7"><sup>7</sup></a> One chart shows total annual emissions, the other one shows the same on a per capita basis. Using the ‘change country’ toggle of the chart you can switch between them.&nbsp;</p><p>Individual maps of consumption-based annual and per capita emissions can also be found in the <a href="https://ourworldindata.org/consumption-based-co2#additional-information">Additional Information</a> which follows this post.</p><p>We see that the consumption-based emissions of the US are higher than production: In 2016 the two values were 5.7 billion versus 5.3 billion tonnes – a difference of <a href="https://ourworldindata.org/grapher/co-emissions-in-imported-goods-as-a-share-of-domestic-emissions">8%</a>. This tells us that more CO<sub>2</sub> is emitted in the production of the goods that Americans import than in those products Americans export.</p><p>The opposite is true for China: its consumption-based emissions <a href="https://ourworldindata.org/grapher/co-emissions-in-imported-goods-as-a-share-of-domestic-emissions">are 14% lower</a> than its production-based emissions. On a per capita basis, the respective measures are 6.9 and 6.2 tonnes per person in 2016. A difference, but smaller than what many expect.&nbsp;</p><p>Whilst China is a large CO<sub>2</sub> emissions exporter, it is no longer a large emitter <em>because</em> it produces goods for the rest of the world. This was the case in the past, but today, even adjusted for trade, China now has a per capita footprint <a href="https://ourworldindata.org/grapher/consumption-co2-per-capita-equity">higher than</a> the global average (which is 4.8 tonnes per capita in 2017). In the <a href="https://ourworldindata.org/consumption-based-co2#additional-information">Additional Information</a> you find an interactive map of how consumption-based emissions per capita vary across the world.</p><p>These comparisons provide the answer to the question whether countries have only achieved emissions reductions by offshoring emissions intensive production to other countries. If only production-based emissions were falling whilst consumption-based emissions were rising, this would suggest it was ‘offshoring’ emissions elsewhere.</p><p>There are some countries where this is the case. Examples where production-based emissions have stagnated whilst consumption-based CO<sub>2</sub> steadily increased include Ireland <a href="https://ourworldindata.org/grapher/production-vs-consumption-co2-emissions?country=IRL">in the early 2000s</a>; Norway <a href="https://ourworldindata.org/grapher/production-vs-consumption-co2-emissions?country=NOR">in the late 1990s</a> and early 2000s; and Switzerland <a href="https://ourworldindata.org/grapher/production-vs-consumption-co2-emissions?country=CHE">since 1990</a>.</p><p>On the other hand there are several very rich countries where both production- <em>and</em> consumption-based emissions have declined. This has been true, among others, for the UK (<a href="https://ourworldindata.org/grapher/prod-cons-co2-per-capita?country=GBR">chart</a>), France (<a href="https://ourworldindata.org/grapher/prod-cons-co2-per-capita?country=FRA">chart</a>), Germany (<a href="https://ourworldindata.org/grapher/prod-cons-co2-per-capita?country=DEU">chart</a>), and the USA (<a href="https://ourworldindata.org/grapher/prod-cons-co2-per-capita?country=USA">chart</a>). These countries have achieved some genuine reductions without outsourcing the emissions to other countries. Emissions are still too high in all of these countries, but it shows that genuine reductions are possible.</p><p>In most countries emissions increased when countries <a href="https://ourworldindata.org/grapher/co-emissions-per-capita-vs-gdp-per-capita-international-">become richer</a>, but this is also not necessarily the case: by comparing the change in consumption-based emissions and economic growth we see that <a href="https://ourworldindata.org/grapher/consumption-co2-per-capita-vs-gdppc?endpointsOnly=1&amp;time=1990..2016&amp;country=BGR+CYP+CZE+DNK+EST+FIN+FRA+DEU+GRC+HUN+ITA+LVA+LTU+NLD+POL+PRT+ROU+RUS+SVK+ESP+SWE+GBR+USA+CAN+BHR">many countries</a> have become much richer while achieving a reduction of emissions.&nbsp;</p></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-side-by-side"><div class="wp-block-column"><figure data-grapher-src="https://ourworldindata.org/grapher/production-vs-consumption-co2-emissions" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/production-vs-consumption-co2-emissions" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/production-vs-consumption-co2-emissions_v30_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Production vs consumption co2 emissions v30 850x600"></div>
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                    <a href="https://ourworldindata.org/grapher/prod-cons-co2-per-capita" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/prod-cons-co2-per-capita_v20_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Prod cons co2 per capita v20 850x600"></div>
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                </figure></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><hr class="wp-block-separator"></div><div class="wp-block-column"></div></div><div class="block-wrapper" data-reactroot=""><div data-variation="full-width" data-default-open="false" class="wp-block-owid-additional-information"><h3 data-track-note="additional-information-toggle"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="angle-right" class="svg-inline--fa fa-angle-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 256 512"><path fill="currentColor" d="M64 448c-8.188 0-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L178.8 256L41.38 118.6c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160c12.5 12.5 12.5 32.75 0 45.25l-160 160C80.38 444.9 72.19 448 64 448z"></path></svg>In-depth: how much emissions are embedded in trade?</h3><div style="height:0;overflow:hidden" aria-hidden="true" class="rah-static rah-static--height-zero"><div style="transition:opacity 250ms ease 0ms;-webkit-transition:opacity 250ms ease 0ms;opacity:0"><div class="content">





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<h4>Absolute emissions imported or exported by country</h4>



<p>In the interactive map you see each country’s net imports or exports of CO<sub>2</sub> each year, as measured in tonnes of CO<sub>2</sub>.<br><br>Countries which are net importers are shown in red (and given as positive values), with net exporters shown in blue (given as negative values).</p>
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                <figure data-grapher-src="https://ourworldindata.org/grapher/co-emissions-embedded-in-global-trade" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/co-emissions-embedded-in-global-trade" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/co-emissions-embedded-in-global-trade_v20_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Co emissions embedded in global trade v20 850x600"></div>
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<h4>Per capita emissions imported or exported by country</h4>



<p>In the interactive map you see each country’s net imports or exports of CO<sub>2</sub> <em>per capita</em>, measured in tonnes of CO<sub>2</sub> per person per year.<br><br>Countries which are net importers are shown in red (and given as positive values), with net exporters shown in blue (given as negative values).</p>
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                <figure data-grapher-src="https://ourworldindata.org/grapher/imported-or-exported-co-emissions-per-capita" class="grapherPreview">
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                        <div><img src="https://ourworldindata.org/exports/imported-or-exported-co-emissions-per-capita_v19_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Imported or exported co emissions per capita v19 850x600"></div>
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                    </a>
                </figure>
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<div class="wp-block-columns is-style-sticky-right">
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<h4>Consumption-based CO<sub>2</sub> emissions by country</h4>



<p>In the interactive map we see how consumption-based CO<sub>2</sub> emissions vary across the world.<a id="ref-8" class="ref" href="#note-8"><sup>8</sup></a></p>
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                <figure data-grapher-src="https://ourworldindata.org/grapher/consumption-co2-emissions" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/consumption-co2-emissions" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/consumption-co2-emissions_v24_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Consumption co2 emissions v24 850x600"></div>
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                            <span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="hand-pointer" class="svg-inline--fa fa-hand-pointer fa-w-14" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 617">
    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
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                            <span class="label">Click to open interactive version</span>
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                    </a>
                </figure>
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<div class="wp-block-columns is-style-sticky-right">
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<h4>Consumption-based CO<sub>2</sub> emissions per capita</h4>



<p>In the visualization we show how consumption-based emissions corrected for <a href="https://ourworldindata.org/world-population-growth">population</a> size – emissions per capita – varies across the world.</p>
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<div class="wp-block-column">

                <figure data-grapher-src="https://ourworldindata.org/grapher/consumption-co2-per-capita" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/consumption-co2-per-capita" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/consumption-co2-per-capita_v24_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Consumption co2 per capita v24 850x600"></div>
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                            <span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="hand-pointer" class="svg-inline--fa fa-hand-pointer fa-w-14" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 617">
    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
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                            <span class="label">Click to open interactive version</span>
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                    </a>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="decoupling-co2-emissions-from-economic-growth">Decoupling CO₂ emissions from economic growth<a class="deep-link" href="#decoupling-co2-emissions-from-economic-growth"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="many-countries-have-decoupled-economic-growth-from-co2-emissions-even-if-we-take-offshored-production-into-account">Many countries have decoupled economic growth from CO₂ emissions, even if we take offshored production into account<a class="deep-link" href="#many-countries-have-decoupled-economic-growth-from-co2-emissions-even-if-we-take-offshored-production-into-account"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right">
<div class="wp-block-column">
<p>Historically, CO<sub>2</sub> emissions have been <a href="https://ourworldindata.org/grapher/co2-emissions-vs-gdp">strongly correlated with</a> how much money we have. This is particularly true at low-to-middle incomes. The richer we are, the more CO<sub>2</sub> we emit. This is because we use more energy – which often comes from burning fossil fuels.&nbsp;</p>



<p>But this relationship no longer holds true at higher incomes. Many countries have managed to achieve economic growth while <em>reducing</em> emissions. They have decoupled the two.</p>



<p>Take the UK as an example. It is shown in the chart. This chart shows the change in GDP and annual CO<sub>2</sub> emissions per capita since 1990. We see that the UK’s GDP has increased a lot over the last 30 years, while its emissions have fallen. You can also see the data <a rel="noreferrer noopener" href="https://ourworldindata.org/grapher/co2-emissions-and-gdp?country=~GBR" target="_blank">without per capita adjustments</a>.</p>



<p>It’s not just the UK. Many other countries have achieved this decoupling. Using the “Change country” button on the chart, you can see this for yourself. France, Germany, Sweden, Finland, Denmark, Italy, Czechia and Romania are some examples of countries where we see this.</p>



<p>More countries have managed to decouple more recently. Emissions in the US, for example, increased substantially in the 1990s. This means that its emissions today are still higher than in 1990. But if we look at the change since 2000 <em>[you can do this by adjusting the time-slider on the bottom of the chart] </em>we see a large drop in emissions alongside a rise in GDP. It’s only over the last 20 years that this decoupling has started to happen.</p>



<p>There are two key reasons why emissions have fallen in these countries. First, some countries <a href="https://ourworldindata.org/energy-offshoring">have managed to</a> decouple <em>energy use</em> and economic growth. GDP has increased while total energy use has remained flat, or even fallen. But the second is the most important: countries <a href="https://ourworldindata.org/explorers/energy?facet=none&amp;country=USA~GBR~CHN~OWID_WRL~IND~BRA~ZAF&amp;Total+or+Breakdown=Select+a+source&amp;Select+a+source=Low-carbon&amp;Energy+or+Electricity=Primary+energy&amp;Metric=Share+of+total">are replacing</a> fossil fuels with low-carbon energy. We can produce more energy, without the emissions that used to come with it.</p>



<p>It would be wrong to assume that this reduction in emissions in rich countries was <em>only</em> achieved by offshoring production overseas – by transferring emissions to manufacturing economies such as China and India. In the chart we see that <a href="https://ourworldindata.org/explorers/co2?tab=map&amp;facet=none&amp;country=CHN~USA~IND~GBR~OWID_WRL&amp;Gas=CO%E2%82%82&amp;Accounting=Consumption-based&amp;Fuel=Total&amp;Count=Per+country">consumption-based emissions</a> – which adjust for emissions from goods that are imported or exported – have also fallen. Some emissions have been exported overseas, but this is not the only driver of this decline.</p>



<p>These countries show that economic growth is not incompatible with reducing emissions. </p>



<p>A key question is whether we can decarbonize fast enough, and across more countries. The continued <a href="https://ourworldindata.org/cheap-renewables-growth">decline in the cost</a> of low-carbon technologies makes this acceleration more realistic every day.</p>
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<div class="wp-block-column">

                <figure data-grapher-src="https://ourworldindata.org/grapher/co2-emissions-and-gdp-per-capita?time=1750..2019&amp;country=~GBR" class="grapherPreview">
                    <a href="https://ourworldindata.org/grapher/co2-emissions-and-gdp-per-capita?time=1750..2019&amp;country=~GBR" target="_blank">
                        <div><img src="https://ourworldindata.org/exports/co2-emissions-and-gdp-per-capita-a0f1220dac763270680545124a338a37_v32_850x600.svg" width="850" height="600" loading="lazy" data-no-lightbox="" alt="Co2 emissions and gdp per capita a0f1220dac763270680545124a338a37 v32 850x600"></div>
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                            <span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="hand-pointer" class="svg-inline--fa fa-hand-pointer fa-w-14" role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 617">
    <path fill="currentColor" d="M448,344.59v96a40.36,40.36,0,0,1-1.06,9.16l-32,136A40,40,0,0,1,376,616.59H168a40,40,0,0,1-32.35-16.47l-128-176a40,40,0,0,1,64.7-47.06L104,420.58v-276a40,40,0,0,1,80,0v200h8v-40a40,40,0,1,1,80,0v40h8v-24a40,40,0,1,1,80,0v24h8a40,40,0,1,1,80,0Zm-256,80h-8v96h8Zm88,0h-8v96h8Zm88,0h-8v96h8Z" transform="translate(0 -0.41)"></path>
    <path fill="currentColor" opacity="0.6" d="M239.76,234.78A27.5,27.5,0,0,1,217,192a87.76,87.76,0,1,0-145.9,0A27.5,27.5,0,1,1,25.37,222.6,142.17,142.17,0,0,1,1.24,143.17C1.24,64.45,65.28.41,144,.41s142.76,64,142.76,142.76a142.17,142.17,0,0,1-24.13,79.43A27.47,27.47,0,0,1,239.76,234.78Z" transform="translate(0 -0.41)"></path>
</svg></span>
                            <span class="label">Click to open interactive version</span>
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                    </a>
                </figure>



<h5>Related charts</h5>


    <div class="block-wrapper"><div class="wp-block-owid-prominent-link with-image" data-no-lightbox="true" data-style="is-style-thin" data-title="Changes in GDP vs. changes in CO₂ emissions (total, not per capita)"><a href="https://ourworldindata.org/grapher/co2-emissions-and-gdp?country=~GBR" target="_blank"><figure><img src="https://ourworldindata.org/grapher/exports/co2-emissions-and-gdp.svg" alt="Co2 emissions and gdp" loading="lazy"></figure><div class="content-wrapper"><div class="title"><span>Changes in GDP vs. changes in CO₂ emissions (total, not per capita)</span><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-right" class="svg-inline--fa fa-arrow-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path fill="currentColor" d="M438.6 278.6l-160 160C272.4 444.9 264.2 448 256 448s-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L338.8 288H32C14.33 288 .0016 273.7 .0016 256S14.33 224 32 224h306.8l-105.4-105.4c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160C451.1 245.9 451.1 266.1 438.6 278.6z"></path></svg></div></div></a></div></div>

    <div class="block-wrapper"><div class="wp-block-owid-prominent-link with-image" data-no-lightbox="true" data-style="is-style-thin" data-title="Changes in GDP vs. changes in CO₂ emissions over centuries"><a href="https://ourworldindata.org/grapher/co2-emissions-and-gdp-long-term?time=1890..latest&amp;country=~DEU" target="_blank"><figure><img src="https://ourworldindata.org/grapher/exports/co2-emissions-and-gdp-long-term.svg" alt="Co2 emissions and gdp long term" loading="lazy"></figure><div class="content-wrapper"><div class="title"><span>Changes in GDP vs. changes in CO₂ emissions over centuries</span><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-right" class="svg-inline--fa fa-arrow-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path fill="currentColor" d="M438.6 278.6l-160 160C272.4 444.9 264.2 448 256 448s-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L338.8 288H32C14.33 288 .0016 273.7 .0016 256S14.33 224 32 224h306.8l-105.4-105.4c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160C451.1 245.9 451.1 266.1 438.6 278.6z"></path></svg></div></div></a></div></div></div>
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<section><div class="section-heading"><div class="wrapper"><div><h2 id="global-inequalities-in-co2-emissions">Global inequalities in CO<sub>2</sub> emissions<a class="deep-link" href="#global-inequalities-in-co2-emissions"></a></h2></div><div class="in-this-section"><div class="label">In this section</div><div class="border"></div></div><ul class="subheadings"><li><a href="#global-inequalities-by-production"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-down" class="svg-inline--fa fa-arrow-down " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 384 512"><path fill="currentColor" d="M374.6 310.6l-160 160C208.4 476.9 200.2 480 192 480s-16.38-3.125-22.62-9.375l-160-160c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0L160 370.8V64c0-17.69 14.33-31.1 31.1-31.1S224 46.31 224 64v306.8l105.4-105.4c12.5-12.5 32.75-12.5 45.25 0S387.1 298.1 374.6 310.6z"></path></svg><span>Global inequalities by production</span></a></li><li><a href="#global-inequalities-by-consumption"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="arrow-down" class="svg-inline--fa fa-arrow-down " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 384 512"><path fill="currentColor" d="M374.6 310.6l-160 160C208.4 476.9 200.2 480 192 480s-16.38-3.125-22.62-9.375l-160-160c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0L160 370.8V64c0-17.69 14.33-31.1 31.1-31.1S224 46.31 224 64v306.8l105.4-105.4c12.5-12.5 32.75-12.5 45.25 0S387.1 298.1 374.6 310.6z"></path></svg><span>Global inequalities by consumption</span></a></li></ul></div></div><h3 id="global-inequalities-by-production">Global inequalities by production<a class="deep-link" href="#global-inequalities-by-production"></a></h3><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>There are two parameters that determine our collective carbon dioxide (CO<sub>2</sub>) emissions: the number of people, and quantity emitted per person. We either talk about <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#annual-co2-emissions" target="_blank" rel="noopener noreferrer">total annual</a>&nbsp;or&nbsp;<a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#per-capita-co2-emissions" target="_blank" rel="noopener noreferrer">per capita</a> emissions. They tell very different stories and this often results in confrontation over who can really make an impact: rich countries with high per capita emissions, or those with a large population.</p><p>To help us understand the global distribution of per capita emissions and population, we have visualized global CO<sub>2 </sub>emissions by (1) <a rel="noopener noreferrer" href="https://ourworldindata.org/grapher/world-banks-income-groups?year=2016" target="_blank">World Bank income group</a> and (2) by world region.</p><p>The world’s total CO<sub>2</sub> emissions<a id="ref-9" class="ref" href="#note-9"><sup>9</sup></a> are shown on the basis of two axes: the height of the bar (y-axis) is the average <em>per capita</em> CO<sub>2</sub> emissions and the length of the box (x-axis) is the total population. Since total emissions are equal to per capita emissions multiplied by the number of people, the area of each box represents total emissions.<a id="ref-10" class="ref" href="#note-10"><sup>10</sup></a></p></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="emissions-by-country-s-income">Emissions by country’s income<a class="deep-link" href="#emissions-by-country-s-income"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>When aggregated in terms of income, we see in the visualization that the richest half (high and upper-middle income countries) emit 86 percent of global CO<sub>2</sub> emissions. The bottom half (low and lower-middle income) only 14%. The very poorest countries (home to 9 percent of the global population) are responsible for just 0.5 percent. This provides a strong indication of the relative sensitivity of global emissions to income versus population. Even several billion&nbsp;additional people in low-income countries&nbsp;— where <a href="https://ourworldindata.org/fertility-rate">fertility rates</a> and population growth is already highest&nbsp;— would leave global emissions almost unchanged. 3 or 4 billion low income individuals would only account for a few percent of global CO<sub>2</sub>. At the other end of the distribution however, adding only one billion high income individuals would increase global emissions by almost one-third.<a id="ref-11" class="ref" href="#note-11"><sup>11</sup></a></p><p>Note here that the summary by income is on the basis of country income groupings, rather than that of individuals. For example, ‘low income’ is the total emissions of all <em>countries</em> defined as low income, rather than the lowest income <em>individuals</em> in the world. These figures therefore don’t take account of inequalities in emissions within countries. It’s estimated that within-country inequalities in emissions <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#co2-emissions-and-prosperity">can be as large</a> as those between countries.<a id="ref-12" class="ref" href="#note-12"><sup>12</sup></a></p><p>If we were to calculate this distribution by the income of individuals, rather than countries, we’d see that the global inequalities in emissions would be even greater. The richest of the global population would be responsible for an even larger share of global emissions.</p></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><h4 id="emissions-by-world-region">Emissions by world region<a class="deep-link" href="#emissions-by-world-region"></a></h4></div><div class="wp-block-column"></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>When aggregated by region we see that North America, Oceania, Europe, and Latin America have disproportionately high emissions relative to their population. North America is home to only five percent of the world population but emits nearly 18 percent of CO<sub>2</sub> (almost four times as much). Asia and Africa are underrepresented in emissions. Asia is home to 60 percent of the population but emits just 49 percent; Africa has 16 percent of the population but emits just 4 percent of CO<sub>2</sub>. This is reflected in per capita emissions; the average North American is more than 17 times higher than the average African.</p><p>This inequality in global emissions lies at the heart of why international agreement on climate change has (and continues to be) so contentious. The richest countries of the world are home to half of the world population, and emit 86 percent of CO<sub>2</sub> emissions. We want global incomes and living standards&nbsp;— especially of those in the poorest half&nbsp;— to rise. To do so whilst limiting climate change, it’s clear that we must shrink the emissions of high-income lifestyles. Finding the compatible pathway for levelling this inequality is one of the greatest challenges of this century.</p><p><em>[Clicking on the visualization will open it in higher-resolution].</em></p></div><div class="wp-block-column"><div class="wp-block-image"><figure class="aligncenter"><img loading="lazy" width="546" height="550" src="https://ourworldindata.org/uploads/2018/10/CO2-emissions-by-income-and-region-546x550.png" alt="Co2 emissions by income and region" class="wp-image-21171" srcset="https://ourworldindata.org/uploads/2018/10/CO2-emissions-by-income-and-region-546x550.png 546w, https://ourworldindata.org/uploads/2018/10/CO2-emissions-by-income-and-region-150x150.png 150w, https://ourworldindata.org/uploads/2018/10/CO2-emissions-by-income-and-region-397x400.png 397w, https://ourworldindata.org/uploads/2018/10/CO2-emissions-by-income-and-region-768x774.png 768w" sizes="(max-width: 546px) 100vw, 546px" data-high-res-src="https://ourworldindata.org/uploads/2018/10/CO2-emissions-by-income-and-region.png"></figure></div></div></div><h3 id="global-inequalities-by-consumption">Global inequalities by consumption<a class="deep-link" href="#global-inequalities-by-consumption"></a></h3><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>The <a href="https://ourworldindata.org/co2-by-income-region" target="_blank" rel="noopener noreferrer">initial comparison</a> of emissions by income group and region was based on ‘territorial’ emissions (those emitted within a country’s borders)&nbsp;— these are termed ‘production-based’ and are the metrics by which emissions are commonly reported. However, these emissions do not account for traded goods (for which CO<sub>2</sub> was emitted for their production). If a country is a large importer of goods its production-based emissions would underestimate the emissions required to support its standard of living. Conversely, if a country is a large goods exporter, it includes emissions within its accounts which are ultimately exported for use or consumption elsewhere.</p><p>‘Consumption-based’ emissions <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#consumption-based-trade-adjusted-co2-emissions">correct for this</a> by adjusting for trade. Consumption-based emissions are therefore: (production-based emissions – embedded CO<sub>2</sub> in exported goods + embedded CO2 in imported goods). The Global Carbon Project (GCP) publishes estimates of these adjustments in their carbon budget.<a id="ref-13" class="ref" href="#note-13"><sup>13</sup></a> You can find much more information and data on emissions in trade in our full entry <strong><a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#co2-embedded-in-trade">here</a></strong>.</p><p>How do consumption-based emissions change the emission shares by income group and region? In the table I compare each group’s share of the world population, production- and consumption-based CO<sub>2</sub> emissions.</p><p>On a production basis we had previously found that the richest (high and upper-middle income) countries in the world accounted for half of the population but 86 percent of emissions.<a id="ref-14" class="ref" href="#note-14"><sup>14</sup></a> On a consumption basis we find the same result, but resulting from the fact that upper-middle income countries primarily export emissions to high income countries. High income countries’ collective emissions increase from 39 to 46 percent when adjusted for trade (with only 16 percent of the population); upper-middle income countries’ emissions decrease by the same amount (7 percentage points) from 48 to 41 percent. Overall, this balances out in the top half of the world population: upper-middle income countries are net exporters whilst high income net importers.</p><p>In the bottom half, it appears that very little changes for the collective of lower-middle and low income countries: their production and consumption emissions shares are effectively the same.</p><p>By region we see that traded emissions tend to flow from Asia to North America and Europe (Asia’s share reduces when adjusted for trade whilst North America and Europe’s share increases).</p><p>Note here that consumption-based emissions are not available for all countries. Collectively, countries without consumption-based estimates due to poor data availability account for approximately 3 percent of global emissions. Many of the missing countries are at low and lower-middle incomes. With the addition of these countries, we would expect small percentage point shifts across the distribution. The challenges in accounting for carbon embedded in global trade<a id="ref-15" class="ref" href="#note-15"><sup>15</sup></a> mean these estimates are not perfect; nonetheless they should provide a good approximation of the global transfers across the world.</p><p>On a consumption basis, high-income countries (Europe and North America in particular) account for an even larger share of global emissions (46 percent&nbsp;— nearly three times their population share of 16 percent).</p></div><div class="wp-block-column"><div class="tableContainer"><table id="tablepress-102" class="tablepress tablepress-id-102">
<thead>
<tr class="row-1 odd">
	<th class="column-1">Income or regional group</th><th class="column-2">Share of population (%)</th><th class="column-3">Share of production-based CO₂ emissions (%)</th><th class="column-4">Share of consumption-based CO₂ emissions (%)</th>
</tr>
</thead>
<tbody class="row-hover">
<tr class="row-2 even">
	<td class="column-1">High income</td><td class="column-2">16%</td><td class="column-3">39%</td><td class="column-4">46%</td>
</tr>
<tr class="row-3 odd">
	<td class="column-1">Upper-middle income</td><td class="column-2">35%</td><td class="column-3">48%</td><td class="column-4">41%</td>
</tr>
<tr class="row-4 even">
	<td class="column-1">Lower-middle income</td><td class="column-2">40%</td><td class="column-3">13%</td><td class="column-4">13%</td>
</tr>
<tr class="row-5 odd">
	<td class="column-1">Low income</td><td class="column-2">9%</td><td class="column-3">0.4%</td><td class="column-4">0.4%</td>
</tr>
<tr class="row-6 even">
	<td class="column-1"></td><td class="column-2"></td><td class="column-3"></td><td class="column-4"></td>
</tr>
<tr class="row-7 odd">
	<td class="column-1"></td><td class="column-2"></td><td class="column-3"></td><td class="column-4"></td>
</tr>
<tr class="row-8 even">
	<td class="column-1">North America</td><td class="column-2">5%</td><td class="column-3">17%</td><td class="column-4">19%</td>
</tr>
<tr class="row-9 odd">
	<td class="column-1">Europe</td><td class="column-2">10%</td><td class="column-3">16%</td><td class="column-4">18%</td>
</tr>
<tr class="row-10 even">
	<td class="column-1">Latin America &amp; the Caribbean</td><td class="column-2">9%</td><td class="column-3">6%</td><td class="column-4">6%</td>
</tr>
<tr class="row-11 odd">
	<td class="column-1">Asia</td><td class="column-2">60%</td><td class="column-3">56%</td><td class="column-4">52%</td>
</tr>
<tr class="row-12 even">
	<td class="column-1">Africa</td><td class="column-2">16%</td><td class="column-3">4%</td><td class="column-4">3%</td>
</tr>
<tr class="row-13 odd">
	<td class="column-1">Oceania</td><td class="column-2">0.5%</td><td class="column-3">1.3%</td><td class="column-4">1.3%</td>
</tr>
</tbody>
</table></div></div></div></section>
































































































<section><div class="section-heading"><div class="wrapper"><div><h2 id="how-do-we-measure-or-estimate-co2-emissions">How do we measure or estimate&nbsp;CO<sub>2</sub>&nbsp;emissions?<a class="deep-link" href="#how-do-we-measure-or-estimate-co2-emissions"></a></h2></div></div></div><div class="wp-block-columns is-style-sticky-right"><div class="wp-block-column"><p>Historical fossil fuel CO<sub>2</sub> emissions can be reconstructed back to 1751 based on energy statistics. These reconstructions&nbsp;detail the production quantities of various forms of fossil fuels (coal, brown coal, peat and crude oil), which when combined with trade data on imports and exports, allow for national-level reconstructions of fossil fuel production and resultant CO<sub>2</sub> emissions. More recent energy statistics are sourced from the UN Statistical Office, which compiles data from official national statistical publications and annual questionnaires. Data on cement production and gas flaring can also be sourced from UN data, supplemented by data from the US Department of Interior Geological Survey (USGS) and US Department of Energy Information Administration.&nbsp;A full description of data acquisition and original sources can be found at the <a href="http://cdiac.ornl.gov/trends/emis/overview_2010.html" target="_blank" rel="noopener noreferrer">Carbon Dioxide Information Analysis Center (CDIAC)</a>.</p><p>As an example: how do we estimate Canada’s CO<sub>2&nbsp;</sub>emissions in 1900? Let’s look at the steps involved in this estimation.</p><ul><li><strong>Step 1</strong>: we gather&nbsp;industrial data on how much coal, brown coal, peat and crude oil Canada extracted in 1900. This tells us how much energy it could produce if it used all of this domestically.</li><li><strong>Step 2:&nbsp;</strong>we cannot assume that Canada only used fuels produced domestically—it might have imported some fuel, or exported it elsewhere. To find out how much Canada&nbsp;<em>actually</em> burned domestically, we therefore have to correct for this trade. If we take its domestic production (account for any fuel it stores as stocks), add any fuel it imported, and subtract any fuel it exported, we have an estimate of its net consumption in 1900. In other words,&nbsp;if we calculate: Coal extraction − Coal exported + Coal imported − Coal stored as stocks, we can estimate the amount of coal Canada burned in 1900.</li><li><strong>Step 3:&nbsp;</strong>converting energy produced to CO<sub>2</sub> emissions.&nbsp;we know, based on the quality of coal, its carbon content and how much CO<sub>2</sub> would be emitted for every kilogram burned (i.e. its emission factor). Multiplying the quantity of coal burned by its emission factor, we can estimate Canada’s CO<sub>2</sub> emissions from coal in 1900.</li><li><strong>Step 4:</strong> doing this calculation for all fuel types, we can calculate Canada’s&nbsp;total emissions in 1900.</li></ul><p>Providing good estimates of &nbsp;CO<sub>2</sub>&nbsp;emissions requires reliable and extensive coverage on domestic and traded energy—the international framework and monitoring of this reporting has significantly improved through time. For this reason, our understanding of emissions in the late 20th and 21st centuries is more reliable than our long-term reconstructions. The Intergovernmental Panel on Climate Change (IPCC) provide clear guidelines on methodologies and best practice for measuring and monitoring CO<sub>2</sub>&nbsp;estimates at the national level.<a id="ref-16" class="ref" href="#note-16"><sup>16</sup></a></p><p>There are two key ways uncertainties can be introduced: the reporting of energy consumption, and the assumption of emissions factors (i.e. the carbon content) used for fuel burning. Since energy consumption is strongly related to economic and trade figures (which are typically monitored closely), uncertainties are typically low for energy reporting. Uncertainty can be introduced in the assumptions nations make on the correct CO<sub>2</sub> emission factor for certain fuel types.</p><p>Country size&nbsp;and the level of uncertainty in these calculations have a significant influence on the inaccuracy of our global emissions figures. In the most extreme example to date, Lui et al. (2015) revealed that China overestimated its annual emissions in 2013 by using global average emission factors, rather than specific figures for&nbsp;the&nbsp;carbon content of its domestic coal supply.<a id="ref-17" class="ref" href="#note-17"><sup>17</sup></a></p><p> As the world’s largest CO<sub>2</sub> emitter, this inaccuracy had a significant impact on global emissions estimates, resulting in a 10% overestimation. More typically, uncertainty in global CO<sub>2</sub> emissions ranges between 2-5%.<a id="ref-18" class="ref" href="#note-18"><sup>18</sup></a></p></div><div class="wp-block-column"></div></div></section>




























</div><footer class="article-footer"><div class="wp-block-columns"><div class="wp-block-column"><h3 id="endnotes">Endnotes</h3><ol class="endnotes"><li id="note-1"><p>The Intergovernmental Panel for Climate Change (IPCC) guidelines on national emissions accounting and reporting are written on the basis of production-based, rather than consumption-based emissions. These are the standards adopted internationally for emissions reporting.</p>



<p>Eggleston, S., Buendia, L., Miwa, K., Ngara, T., &amp; Tanabe, K. (Eds.). (2006). <a href="https://www.osti.gov/etdeweb/biblio/20880391"><em>2006 IPCC guidelines for national greenhouse gas inventories</em></a> (Vol. 5). Hayama, Japan: Institute for Global Environmental Strategies.</p></li><li id="note-2"><p>Carbon dioxide (CO<sub>2</sub>) emissions from fossil fuel combustion were almost zero prior to 1750. The United Kingdom was the world’s first industrialized nation – and first fossil-fuel CO<sub>2</sub> emitter. In 1751 its (and global) <a href="https://ourworldindata.org/grapher/annual-co2-emissions-per-country?tab=chart&amp;year=1751&amp;country=GBR">emissions were</a> less than 10 million tonnes – 3600 times less than <a href="https://ourworldindata.org/grapher/annual-co-emissions-by-region">global emissions today</a>. We can conclude that emissions prior to 1750 were very low (and inconsequential to the numbers we compare today). You can find further information on how long historical emissions (dating back to 1751) are estimated <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#how-do-we-measure-or-estimate-co2-emissions"><strong>here</strong></a>.</p></li><li id="note-3"><p>The underlying data sources for annual CO<sub>2</sub> emissions data come from the <a href="https://cdiac.ess-dive.lbl.gov/">Carbon Dioxide Analysis Center</a> (CDIAC) and the <a href="https://www.globalcarbonproject.org/carbonbudget/index.htm">Global Carbon Project</a>. The cumulative figures were calculated by Our World in Data based on these annual estimate sources.</p></li><li id="note-4"><p>IPCC, 2013: <a href="https://www.ipcc.ch/report/ar5/wg1/">Climate Change 2013: The Physical Science Basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change</a> [Stocker, T.F., D. Qin, G.-K. Plattner, M. Tignor, S.K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex and P.M. Midgley (eds.)]. Cambridge University Press, Cambridge, United Kingdom and New York, NY, USA, 1535 pp.</p></li><li id="note-5"><p>The Intergovernmental Panel for Climate Change (IPCC) guidelines on national emissions accounting and reporting are written on the basis of production-based, rather than consumption-based emissions. These are the standards adopted internationally for emissions reporting.<br><br>Eggleston, S., Buendia, L., Miwa, K., Ngara, T., &amp; Tanabe, K. (Eds.). (2006). <a href="https://www.osti.gov/etdeweb/biblio/20880391"><em>2006 IPCC guidelines for national greenhouse gas inventories</em></a> (Vol. 5). Hayama, Japan: Institute for Global Environmental Strategies.</p></li><li id="note-6"><p>These figures have been calculated by Our World in Data based on data on consumption-based emissions and emissions transfers published by the updated work&nbsp; of  Peters et al. (2012) and the Global Carbon Project (referenced below). To calculate net emissions transfers, the authors look at the difference between CO<sub>2</sub> embedded in imported and exported goods: the net transfers is the difference between the two.</p>



<p>Data is sourced from the Global Carbon Budget (2018): <a href="https://www.globalcarbonproject.org/carbonbudget/18/data.htm">https://www.globalcarbonproject.org/carbonbudget/18/data.htm</a>. This presents territorial emissions data in addition to consumption-based and emissions transfers. Consumption-based and emissions transfer estimates are produced by the updated paper by Peters et al. (2011).</p>



<p>(Updated to 2014) Peters, GP, Minx, JC, Weber, CL and Edenhofer, O 2011. Growth in emission transfers via international trade from 1990 to 2008. Proceedings of the National Academy of Sciences 108, 8903-8908. Available <a href="http://www.biogeosciences.net/9/3247/2012/bg-9-3247-2012.html">online</a>. </p></li><li id="note-7"><p>Data is only available for 119 countries. It is not available for the remaining countries due to poor data availability on bilateral trade, and emissions inventories broken down by specific sectors – this data is essential for the input-output modelling process used to calculate consumption-based emissions. For more information, see: Peters, GP, Minx, JC, Weber, CL and Edenhofer, O 2011 (updated). Growth in emission transfers via international trade from 1990 to 2008. Proceedings of the National Academy of Sciences 108, 8903-8908.</p></li><li id="note-8"><p>&nbsp;Note here that due to data quality and availability, figures on trade and consumption-based emissions are not available for all countries.<br><br>Data is sourced from the Global Carbon Budget (2018): <a href="https://www.globalcarbonproject.org/carbonbudget/18/data.htm">https://www.globalcarbonproject.org/carbonbudget/18/data.htm</a>. This presents territorial emissions data in addition to consumption-based and emissions transfers. Consumption-based and emissions transfer estimates are produced by the updated paper by Peters et al. (2011).<br><br>(Updated to 2014) Peters, GP, Minx, JC, Weber, CL and Edenhofer, O 2011. Growth in emission transfers via international trade from 1990 to 2008. Proceedings of the National Academy of Sciences 108, 8903-8908. Available <a href="http://www.biogeosciences.net/9/3247/2012/bg-9-3247-2012.html">online</a>.</p></li><li id="note-9"><p>All data is based on 2016 emissions data from the Global Carbon Project (GCP).</p>



<p>Note that this is based on domestic production (not accounting for embedded emissions in traded products i.e. consumption), and do not include cross-boundary emissions such as international aviation &amp; shipping (often termed ‘bunkers’ within emissions accounts). If you want to see the difference between consumption and production-based emissions you can find them in our <a href="https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions#production-vs-consumption-based-emissions-over-time">main entry on this topic</a>.</p></li><li id="note-10"><p>This is based on the <a rel="noreferrer noopener" href="https://www.withouthotair.com/c1/page_12.shtml" target="_blank">visualization used by the late David MacKay</a> in his book, <em>Sustainable Energy – Without the Hot Air</em>. His book is free to read and download online, <a rel="noreferrer noopener" href="https://www.withouthotair.com" target="_blank">here</a>.</p></li><li id="note-11"><p>Global emissions in 2016 (minus cross-boundary emissions), as the sum of those in the chart, was approximately 34 to 35 billion tonnes of CO<sub>2</sub>. Adding one billion individuals with a per capita footprint of 11.3 tCO<sub>2</sub> per person per year would equal an addition 11 billion tonnes of CO<sub>2</sub> per year (1 billion*11.3 = 11.3 billion tonnes). This is equivalent to almost one-third of global emissions in 2016.</p></li><li id="note-12"><p>See Chancel, L. and T. Piketty (2015), “Carbon and inequality: From Kyoto to Paris. Trends in the global inequality of carbon emissions (1998-2013) &amp; Prospects for an equitable adaptation fund”, Paris School of Economics, Paris. Available at: <a rel="noreferrer noopener" href="http://piketty.pse.ens.fr/files/ChancelPiketty2015.pdf" target="_blank">Chancel and Piketty, 2015</a>.</p></li><li id="note-13"><p>Le Quéré, Corinne, Robbie M. Andrew, Pierre Friedlingstein, Stephen Sitch, Julia Pongratz, Andrew C. Manning, Jan Ivar Korsbakken, Glen P. Peters, Josep G. Canadell, Robert B. Jackson, Thomas A. Boden, Pieter P. Tans, Oliver D. Andrews, Vivek Arora, Dorothee C. E. Bakker, Leticia Barbero, Meike Becker, Richard A. Betts, Laurent Bopp, Frédéric Chevallier, Louise P. Chini, Philippe Ciais, Cathy Cosca, Jessica Cross, Kim Currie, Thomas Gasser, Ian Harris, Judith Hauck, Vanessa Haverd, Richard A. Houghton, Christopher W. Hunt, George Hurtt, Tatiana Ilyina, Atul K. Jain, Etsushi Kato, Markus Kautz, Ralph F. Keeling, Kees Klein Goldewijk, Arne Körtzinger, Peter Landschützer, Nathalie Lefèvre, Andrew Lenton, Sebastian Lienert, Ivan Lima, Danica Lombardozzi, Nicolas Metzl, Frank Millero, Pedro M. S. Monteiro, David R. Munro, Julia E. M. S. Nabel, Shin-ichiro Nakaoka, Yukihiro Nojiri, X. Antoni Padin, Benjamin Pfeil, Denis Pierrot, Benjamin Poulter, Gregor Rehder, Janet Reimer, Christian Rödenbeck, Jörg Schwinger, Roland Séférian, Ingunn Skjelvan, Benjamin D. Stocker, Hanqin Tian, Bronte Tilbrook, Ingrid T. van der Laan-Luijkx, Guido R. van der Werf, Steven M. A. C. van Heuven, Nicolas Viovy, Nicolas Vuichard, Anthony P. Walker, Andrew J. Watson, Andrew J. Wiltshire, Sönke Zaehle, Dan Zhu: Global Carbon Budget 2017, Earth Syst. Sci. Data Discussions, 2017.&nbsp;https://doi.org/10.5194/essdd-2017-123</p></li><li id="note-14"><p>Note here that the summary by income is on the basis of country income groupings, rather than that of individuals. For example, ‘low income’ is the total emissions of all&nbsp;countries&nbsp;defined as low income, rather than the lowest income&nbsp;individuals&nbsp;in the world. These figures therefore don’t take account of inequalities in emissions within countries.</p></li><li id="note-15"><p>The methodology and challenges of consumption-based accounting is addressed in detail by the authors of the Global Carbon Project in&nbsp;Peters, G. P., Davis, S. J., and Andrew, R.: A synthesis of carbon in international trade, Biogeosciences, 9, 3247-3276, https://doi.org/10.5194/bg-9-3247-2012, 2012. Available at:&nbsp;<a rel="noreferrer noopener" href="https://www.biogeosciences.net/9/3247/2012/bg-9-3247-2012.html" target="_blank">https://www.biogeosciences.net/9/3247/2012/bg-9-3247-2012.html</a>.</p></li><li id="note-16"><p>IPCC Good Practice Guidance and Uncertainty Management in National Greenhouse Gas Inventories. Available <a rel="noreferrer noopener" href="http://www.ipcc-nggip.iges.or.jp/public/gp/english/6_Uncertainty.pdf" target="_blank">online</a>.</p></li><li id="note-17"><p>Liu, Z., Guan, D., Wei, W., Davis, S. J., Ciais, P., Bai, J., … &amp; Andres, R. J. (2015). Reduced carbon emission estimates from fossil fuel combustion and cement production in China. <em>Nature</em>, <em>524</em>(7565), 335-338. Available <a rel="noreferrer noopener" href="http://www.nature.com/nature/journal/v524/n7565/abs/nature14677.html" target="_blank">online</a>.</p></li><li id="note-18"><p>Macknick, J. (2011). Energy and CO2 emission data uncertainties. <em>Carbon Management</em>, <em>2</em>(2), 189-205. Available <a rel="noreferrer noopener" href="https://www.tandfonline.com/doi/abs/10.4155/cmt.11.10" target="_blank">online</a>.</p></li></ol><h3 id="licence">Reuse our work freely</h3><p>All visualizations, data, and code produced by Our World in Data are completely open access under the <a href="https://creativecommons.org/licenses/by/4.0/" target="_blank" rel="noopener noreferrer">Creative Commons BY license</a>. You have the permission to use, distribute, and reproduce these in any medium, provided the source and authors are credited.</p><p>The data produced by third parties and made available by Our World in Data is subject to the license terms from the original third-party authors. We will always indicate the original source of the data in our documentation, so you should always check the license of any such third-party data before use and redistribution.</p><p>All of <a href="/how-to-use-our-world-in-data#how-to-embed-interactive-charts-in-your-article">our charts can be embedded</a> in any site.</p><h3 id="citation">Citation</h3><p>Our articles and data visualizations rely on work from many different people and organizations. When citing this entry, please also cite the underlying data sources. This entry can be cited as:</p><pre class="citation">Hannah Ritchie, Max Roser and Pablo Rosado (2020) - &quot;CO₂ and Greenhouse Gas Emissions&quot;. <em>Published online at OurWorldInData.org.</em> Retrieved from: &#x27;https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions&#x27; [Online Resource]</pre><p>BibTeX citation</p><pre class="citation">@article{owidco2andothergreenhousegasemissions,
    author = {Hannah Ritchie, Max Roser and Pablo Rosado},
    title = {CO₂ and Greenhouse Gas Emissions},
    journal = {Our World in Data},
    year = {2020},
    note = {https://ourworldindata.org/co2-and-other-greenhouse-gas-emissions}
}</pre></div><div class="wp-block-column"></div></div></footer></div></div></div></article></main><div id="wpadminbar" style="display:none"><div class="quicklinks" id="wp-toolbar" role="navigation" aria-label="Toolbar"><ul id="wp-admin-bar-root-default" class="ab-top-menu"><li id="wp-admin-bar-site-name" class="menupop"><a class="ab-item" aria-haspopup="true" href="https://owid.cloud/wp/wp-admin">Wordpress</a></li> <li id="wp-admin-bar-edit"><a class="ab-item" href="https://owid.cloud/wp/wp-admin/post.php?post=34066&amp;action=edit">Edit Page</a></li></ul></div></div><section class="donate-footer"><div class="wrapper"><div class="owid-row flex-align-center"><div class="owid-col owid-col--lg-3 owid-padding-bottom--sm-3"><p>Our World in Data is free and accessible for everyone.</p><p>Help us do this work by making a donation.</p></div><div class="owid-col owid-col--lg-1"><a href="/donate" class="owid-button donate-button" data-track-note="donate-footer"><span class="label">Donate now</span><span class="icon"><svg aria-hidden="true" focusable="false" data-prefix="fas" data-icon="angle-right" class="svg-inline--fa fa-angle-right " role="img" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 256 512"><path fill="currentColor" d="M64 448c-8.188 0-16.38-3.125-22.62-9.375c-12.5-12.5-12.5-32.75 0-45.25L178.8 256L41.38 118.6c-12.5-12.5-12.5-32.75 0-45.25s32.75-12.5 45.25 0l160 160c12.5 12.5 12.5 32.75 0 45.25l-160 160C80.38 444.9 72.19 448 64 448z"></path></svg></span></a></div></div></div></section><footer class="site-footer"><div class="wrapper"><div class="owid-row"><div class="owid-col owid-col--lg-1"><ul><li><a href="/about" data-track-note="footer-navigation">About</a></li><li><a href="/about#contact" data-track-note="footer-navigation">Contact</a></li><li><a href="/feedback" data-track-note="footer-navigation">Feedback</a></li><li><a href="/jobs" data-track-note="footer-navigation">Jobs</a></li><li><a href="/funding" data-track-note="footer-navigation">Funding</a></li><li><a href="/about/how-to-use-our-world-in-data" data-track-note="footer-navigation">How to use</a></li><li><a href="/donate" data-track-note="footer-navigation">Donate</a></li><li><a href="/privacy-policy" data-track-note="footer-navigation">Privacy policy</a></li></ul></div><div class="owid-col owid-col--lg-1"><ul><li><a href="/blog" data-track-note="footer-navigation">Latest work</a></li><li><a href="/charts" data-track-note="footer-navigation">All charts</a></li></ul><ul><li><a href="https://twitter.com/OurWorldInData" data-track-note="footer-navigation">Twitter</a></li><li><a href="https://www.facebook.com/OurWorldinData" data-track-note="footer-navigation">Facebook</a></li><li><a href="https://instagram.com/ourworldindata_official" data-track-note="footer-navigation">Instagram</a></li><li><a href="https://github.com/owid" data-track-note="footer-navigation">GitHub</a></li><li><a href="/feed" data-track-note="footer-navigation">RSS Feed</a></li></ul></div><div class="owid-col owid-col--lg-1"><div class="logos"><a href="https://www.oxfordmartin.ox.ac.uk/global-development" class="partner-logo" data-track-note="footer-navigation"><img src="https://ourworldindata.org/oms-logo.svg" alt="Oxford Martin School logo" loading="lazy"/></a><a href="/owid-at-ycombinator" class="partner-logo" data-track-note="footer-navigation"><img src="https://ourworldindata.org/yc-logo.png" alt="Y Combinator logo" loading="lazy"/></a></div></div><div class="owid-col flex-2"><div class="legal"><p>Licenses: All visualizations, data, and articles produced by Our World in Data are open access under the <a href="https://creativecommons.org/licenses/by/4.0/" target="_blank" rel="noopener noreferrer">Creative Commons BY license</a>. 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                        runTableOfContents({"headings":[{"text":"Global CO2 emissions from fossil fuels","slug":"global-co2-emissions-from-fossil-fuels","isSubheading":false},{"text":"Global CO2 emissions from fossil fuels","slug":"global-co2-emissions-from-fossil-fuels-global-co2-emissions-from-fossil-fuels","isSubheading":true},{"text":"Global CO2 emissions from fossil fuels and land use change","slug":"global-co2-emissions-from-fossil-fuels-and-land-use-change","isSubheading":true},{"text":"CO2 emissions by region","slug":"co2-emissions-by-region","isSubheading":true},{"text":"Per capita CO2 emissions","slug":"per-capita-co2-emissions","isSubheading":false},{"text":"Annual CO2 emissions","slug":"annual-co2-emissions","isSubheading":false},{"text":"Annual change in CO2 emissions","slug":"annual-change-in-co2-emissions","isSubheading":false},{"text":"Cumulative CO2 emissions","slug":"cumulative-co2-emissions","isSubheading":false},{"text":"Consumption-based (trade-adjusted) emissions","slug":"consumption-based-trade-adjusted-emissions","isSubheading":false},{"text":"Decoupling CO₂ emissions from economic growth","slug":"decoupling-co2-emissions-from-economic-growth","isSubheading":false},{"text":"Global inequalities in CO2 emissions","slug":"global-inequalities-in-co2-emissions","isSubheading":false},{"text":"Global inequalities by production","slug":"global-inequalities-by-production","isSubheading":true},{"text":"Global inequalities by consumption","slug":"global-inequalities-by-consumption","isSubheading":true},{"text":"How do we measure or estimate CO2 emissions?","slug":"how-do-we-measure-or-estimate-co2-emissions","isSubheading":false},{"text":"Endnotes","slug":"endnotes","isSubheading":false},{"text":"Licence","slug":"licence","isSubheading":false},{"text":"Citation","slug":"citation","isSubheading":false}],"pageTitle":"CO2 emissions"})
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