diff --git a/wiki/pages/description.html b/wiki/pages/description.html
index cd9708b36291c11acf1e95e887483099053335b4..0d010022f65b692a31b77bc37f13117ba73151e2 100644
--- a/wiki/pages/description.html
+++ b/wiki/pages/description.html
@@ -1,7 +1,7 @@
{% extends "layout.html" %}
-{% block title %}Project Description <img src="https://static.igem.wiki/teams/5054/logo-met-tekst-kleur.png" width="300" height="200">{% endblock %}
-<!-- {% block lead %}Describe how and why you chose your iGEM project.{% endblock %} -->
+{% block title %}Project Description <img src="https://static.igem.wiki/teams/5054/logo-met-tekst-kleur.png" width="350" height="200">{% endblock %}
+{% block lead %} {% endblock %}
{% block page_content %}
@@ -16,8 +16,12 @@
<p>On the other hand, to combat global hunger, an increase in global food production is of the essence. This is addressed through the increase in crop yield, which is possible due to the Haber-Bosch process of fertilizer production, where elemental nitrogen is converted into ammonia. Over-fertilization and its direct and indirect impact on the environment make agriculture the second leading contributor to short-term increases in global surface temperature <a href="#cite4">[4]</a>.</p>
+ <img src="https://static.igem.wiki/teams/5054/europe-global-fertilizer-and-manure-version-1-nitrogen-in-manure-production-6172666199.jpg" alt="Nitrogen manure production in kilograms/hectare in the Netherlands in 2010 <a href="#cite8">[8]</a>." width="600" height="400">
+
<p>In 2022, Dutch agriculture lost 74% (312,000 tons) of the nitrogen it spread as manure and synthetic fertilizer to the air and soil. Synthetic fertilizer production alone is also the cause of nearly 2% of global CO<sub>2</sub> emissions <a href="#cite5">[5]</a>. In addition to water pollution by leakage of nitrate, pollution in the air due to the conversion to N<sub>2</sub>O leads to a global greenhouse effect equivalent to 10% of that caused by the increase in atmospheric CO<sub>2</sub> <a href="#cite6">[6]</a>. For staple crops like cereals and maize, up to 40% of a farm’s operating cost is spent purchasing fertilizer <a href="#cite4">[4]</a>. Rising prices for fertilizer have been one of the problems leading to farmers' protests in Europe, and efforts to reduce nitrogen emissions in the Netherlands have been met with its own wave of protests <a href="#cite7">[7]</a>.</p>
+ <img src="https://static.igem.wiki/teams/5054/farmer-protests-in-the-hague-the-netherlands.jpg" alt="Farmer protests in the Netherlands <a href="#cite9">[9]</a>." width="600" height="400">
+
<p>Over-fertilization poses major ecological and health risks like harmful algal blooms and atmospheric pollution, but fertilizer multiplies crop yield which is essential for the rising global population and food demand. This emphasizes the need for an alternative environmental-friendly solution. This can not only make a huge impact on the Netherlands, but also globally, by enabling a sustainable and food secure future.</p>
<h2> Motivation </h2>
@@ -33,6 +37,8 @@
<li id="cite5">Toename stikstofoverschot in landbouw door droge zomer 2022 — CBS.</li>
<li id="cite6">AR4 Climate Change 2007: Mitigation of Climate Change — IPCC.</li>
<li id="cite7">Protesting farmers close roads and borders in nationwide campaign - DutchNews.nl.</li>
+ <li id="cite8">Potter, P., and N. Ramankutty, et al. (2010). Global Fertilizer Application and Manure Production.</li>
+ <li id="cite9">The easy guide to the Dutch nitrogen crisis, farmers’ protests, and more - dutchreview.com.</li>
</ol>
<hr>
<!-- <div class="row mt-4">