Greenhouse Gas Emissions in Tunisia
Overview of greenhouse gases and emissions per capita in Tunisia. Are they prepared to meet net zero targets and invest in the energy transition?
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Greenhouse Gas Emissions in Tunisia
Overview of greenhouse gases and emissions per capita in Tunisia. Are they prepared to meet net zero targets and invest in the energy transition?
Published:
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Greenhouse Gas Emissions in Tunisia
Overview of greenhouse gases and emissions per capita in Tunisia. Are they prepared to meet net zero targets and invest in the energy transition?
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What percentage of global greenhouse gas emissions does Tunisia produce?

Tunisia produced 0.09% of global greenhouse gas emissions in 2020 (the latest date with complete emissions data). This amounted to 40.9m metric tonnes of carbon dioxide equivalent, or MtCO₂e. These emissions represented a decrease from 2019 by -4%.

In the period from 1990 to 2020 their emissions have increased by a compound annual growth rate (CAGR) of 2.1% and Tunisia has contributed 0.09% of global greenhouse emissions.

CountryTunisia
Population11.9m
Gross Domestic Product (GDP) in USD$46.8bn
Total Greenhouse Gas Emissions in 202040.9m
Change in Emissions since 2019-4%
Percentage of Total Emissions (2020)0.09%
Rank – Emitters in 202089
Total Greenhouse Gas Emissions since 19901.04bn
Compound Annual Growth – Emissions since 19902.1%
Percentage of Total Emissions (1990-2020)0.09%
GDP Per Capita (USD)$3.92k
Emissions Per Capita3.4

In 2020, Tunisia was the world’s 89th largest producer of greenhouse gas emissions. The largest emitters in the same period were China, the United States, India, Russia and Japan.

Emissions per capita in Tunisia – average household carbon footprint

The population of Tunisia is 11.9m. On a per capita basis, they produce 3.4 tonnes of CO2e per person, placing them 113th out of 191 on emissions produced per capita. The biggest per capita emitters are Qatar, Turkmenistan, Kuwait and Bahrain.

What is the largest source of greenhouse gas emissions in Tunisia?

Gases

71.7% of emissions in Tunisia came from Carbon Dioxide (CO2), 16.3% came from Methane (CH4), and 8.1% came from Nitrous Oxide (N2O).

Sectors

The sector that produced the most emissions in 2020 was the energy industry, producing 27.7m of GHG emissions, constituting 67.8% of total.

The second and third largest emitting sectors were industrial processes and agriculture, producing 13.1% and 11.2% of total GHG in Tunisia.

Energy

The industry that produced the most energy related emissions was the electricity/heat industry, producing 9.66m of GHG emissions, constituting 23.6% of total emissions.

The second and third largest emitting sectors were transportation and manufacturing/construction, emitting 7.24m and 4.44m tonnes of GHG each.

Land Use Change and Forestry

Land use change and forestry (LUCF), such as deforestation and conversion of natural ecosystems to agricultural or urban areas, can have a significant impact on carbon emissions.

  • Trees and other vegetation absorb and store carbon through the process of photosynthesis, and when they are cut down or burned, that stored carbon is released into the atmosphere.
  • Deforestation and other forms of land use change can also reduce the ability of ecosystems to absorb and store carbon in the future. Additionally, the conversion of land for agriculture or urban development can lead to the release of carbon stored in the soil.
  • On the other hand, sustainable forestry practices, such as reforestation and afforestation, can help to remove carbon from the atmosphere and store it in trees and other vegetation.

In the case of Tunisia, LUCF had a positive impact on Tunisia’s emissions, decreasing their carbon footprint by 3.78m tonnes.

After accounting for land use change and forestry, the total amount of greenhouse gas emissions in Tunisia in 2020 was 37.1m metric tonnes.

How vulnerable is Tunisia to the impact of climate change?

The Notre Dame Global Adaptation Initiative (ND-GAIN) Index

The ND-GAIN Index measures countries’ vulnerability to global challenges, including climate change, and their readiness to improve resilience.

Tunisia scores 52.8 on the ND-Gain Index and is classified in the ‘low vulnerability and high readiness’ category of climate change preparedness.

The index aims to assist businesses, governments, and communities in prioritising investments for a more efficient response to global shifts.

It is measured by combining two main components:

  1. Vulnerability: This evaluates a country’s vulnerability to environmental risks and its ability to adapt. It considers health, food and water availability, infrastructure, and ecosystem services. A higher score indicates greater vulnerability to environmental challenges.
  2. Readiness: This measures how well a country can leverage investments to mitigate climate change. It considers economic stability, governance, technology, and infrastructure. A higher score means a country is better prepared to implement resilience strategies.

This ranking helps identify areas where resources and adaptation strategies can be most effectively directed to mitigate risks and enhance resilience.

By combining these dimensions, the index provides a comprehensive approach to measuring countries’ ability to cope with the impacts of climate change.

Low vulnerability and high readiness in Tunisia

In terms of readiness to adapt to climate change, Tunisia ranks in the below average group. Globally, the average readiness score is 0.424, with Tunisia posting a score of 0.436.

They show the greatest strength in economic aspects, while their performance in social aspects requires improvement.

  • Economic readiness refers to the business environment and its capacity to adapt to climate change, emphasizing the importance of a supportive regulatory framework for adaptation initiatives.
  • Social readiness refers to the societal factors like inequality, education, and technology infrastructure that affect a country’s ability to adapt to and mitigate the impacts of climate change.

Regarding vulnerability to climate change, Tunisia falls into the below average category. Compared to the global average vulnerability score of 0.431, Tunisia has a score of 0.38.

Their resilience is most notable in health areas, yet they face significant challenges in habitat.

  • Health vulnerability refers to the impact of climate change on diseases and medical resources. Innovations can enhance resilience to vulnerabilities affecting human health through food, water insecurity, and extreme weather events.
  • Human habitat refers to the growth of cities and their capacity to withstand climate change impacts like floods and heatwaves. Improved infrastructure enhances urban resilience to extreme weather events.

The formula to calculate the ND-GAIN Index is

GAIN Index=(Readiness Indicators−Vulnerability Indicators+1)×50GAIN Index=(Readiness Indicators−Vulnerability Indicators+1)×50

In this formula:

  • The Readiness Indicators are measured on a scale of 0 to 1, where a higher score means that the readiness is better.
  • The Vulnerability Indicators are also measured on a scale of 0 to 1, but a lower score indicates better vulnerability in this case. 
  • The difference between the Readiness and Vulnerability scores is calculated and then incremented by 1. 
  • Finally, the result is multiplied by 50 to convert the GAIN Index score to a range of 0-100, where a higher score means the situation is better.

Is there a correlation between greenhouse gas emissions and economic growth in Tunisia?

In 2020, the gross domestic product (GDP) in Tunisia grew by 1.8% from the previous year, with the economy moving from $41.8bn to $42.5bn. During the same period, carbon emissions decreased by -4%. Over the ten-year period from 2010 to 2020, GDP declined -8%, while emissions increased by 3.3%.

To put this into context, the compound annual growth rate (CAGR) of GDP in Tunisia over the past ten years was -0.83%, and the CAGR for greenhouse gas emissions was 0.33%.

Sources

World Resources Institute, 2022. Climate Watch Historical GHG Emissions. [online] Washington, DC. Available at: https://www.climatewatchdata.org/ghg-emissions.

Global Carbon Project, 2023. Supplemental data of Global Carbon Budget 2023 (Version 1.1) [Data set]. Global Carbon Project. Available at: https://doi.org/10.18160/gcp-2023.

UNFCCC, 2023. Greenhouse Gas Inventory Data. [online] Available at: https://di.unfccc.int.

Notre Dame Global Adaptation Initiative, 2023. ND-GAIN Country Index. [online] Available at: https://gain.nd.edu.

FAO, 2022. Land-Use Change and Forestry or Agriculture indicators from FAOSTAT Emissions Database. [online] Available at: https://www.fao.org/faostat/.

OECD/IEA, 2022. CO2 Emissions from Fuel Combustion. [online] Available at: https://www.iea.org/reports/co2-emissions-in-2022.

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