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Merge pull request #33 from explorable-viz/achintya-edits
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Fix text and plot in `index.html`
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RaoOfPhysics authored Sep 9, 2024
2 parents c5c3d5a + 5735c18 commit 1e14fb6
Showing 1 changed file with 23 additions and 16 deletions.
39 changes: 23 additions & 16 deletions index.html
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</script>
</head>
<body class="standalone">
<div>
<p>
Without climate change mitigation but with stringent air pollution control (<b>SSP5-8.5</b>)
</p>
<p>
At the same time, the <b>SSP scenarios without climate change mitigation</b> project <b>faster growth in methane emissions in Africa, the Middle East</b> and Latin America (Figure 6.19) <b>driven by developments in agriculture, the oil and gas sectors, and, especially in Africa, waste management</b>.
</p>
<p>
After 2050, surface ozone concentrations decrease in SSP5-8.5, reaching levels below their 2005–2014 mean levels in most regions, but level off or continue to increase under SSP3-7.0. The increase in surface ozone in the <b>SSP5-8.5 scenario</b> occurs despite an emissions decrease of several ozone precursors <b>because the methane emissions increase until about 2080</b> in the absence of climate change mitigation.
</p>
<p>
In <b>SSP5-8.5, methane emissions increase</b> in North America, Europe and <b>Africa</b>, while there is a decrease in the Asian regions. For North America and Europe, the methane increase combined with a reduction in aerosol leads to highest net contribution to GSAT in this scenario (0.06°C and 0.04°C in 2100, respectively). The <b>high growth in methane makes Africa the region with the largest contribution to future warming</b> by SLCFs (0.18°C in 2100 versus 2020) in this scenario.
</p>
</div>
<div class="grid-container double-size">
<div class="grid-container">
<div></div>
<div></div>
<div></div>
<div class="flex-left-align">
<h1>Recreation of IPCC AR6 WG1 Fig 6.19</h1>
</div>

<div></div>
<div></div>
<div></div>
<div class="flex-left-align">
<h2 class="title">
Scenario: Without climate change mitigation but with stringent air pollution control (SSP5-8.5)
</h2>
<p>
At the same time, the <mark>SSP scenarios without climate change mitigation</mark> project <mark>faster growth in methane emissions in Africa, the Middle East</mark> and Latin America (Figure 6.19) driven by <mark>developments in agriculture, the oil and gas sectors, and, especially in Africa, waste management</mark>.
</p>
<p>
After 2050, surface ozone concentrations decrease in SSP5-8.5, reaching levels below their 2005–2014 mean levels in most regions, but level off or continue to increase under SSP3-7.0. The increase in surface ozone in the <mark>SSP5-8.5 scenario</mark> occurs despite an emissions decrease of several ozone precursors <mark>because the methane emissions increase until about 2080</mark> in the absence of climate change mitigation.
</p>
<p>
In <mark>SSP5-8.5, methane emissions increase</mark> in North America, Europe and <mark>Africa</mark>, while there is a decrease in the Asian regions. For North America and Europe, the methane increase combined with a reduction in aerosol leads to highest net contribution to GSAT in this scenario (0.06°C and 0.04°C in 2100, respectively). The <mark>high growth in methane makes Africa the region with the largest contribution to future warming</mark> by SLCFs (0.18°C in 2100 versus 2020) in this scenario.
</p>
</div>

<div></div>
<div id="fig-input" class="flex-right-align data-pane"></div>
<div>
<div onclick="toggle('fig-input')"><span class="data-pane-button toggle-button">◀▶</span></div>
</div>
<div class="flex-left-align">
<div class="flex-left-align double-size">
<div id="fig"></div>
</div>
</div>
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