10 myths about net zero targets and carbon offsetting, busted


Carbon neutrality targets are often not as ambitious as they sound, relying on problematic carbon offsets and unproven technologies. (41 Scientists for Climate Home News)

The idea of carbon offsetting, which underpins so-called net zero targets, is founded on a number of myths.
In many cases, offsetting relies on capturing carbon in vegetation and soils. Such capacity is however limited and is needed to store carbon dioxide that we have already emitted.
Assumptions of future technologies and targets decades ahead delay immediate action. Countries and corporations must shift focus from distant net zero targets to real emissions reductions now.
The impacts of the climate crisis are becoming increasingly severe, everywhere. We are experiencing heat waves, floods, droughts, forest fires and sea level rise as a result of global heating. The average global temperature is rising at an unprecedented rate, rapidly diminishing the prospect of keeping global warming below 1.5C and with increasing risks of crossing irreversible tipping points.

In the face of growing demands for action, many countries and companies are making promises and setting targets to reach “net zero” emissions or “carbon neutrality”. These often sound ambitious and may even give the impression that the world is awakening and ready to take on the climate crisis.

In practice, however, net zero targets several decades into the future shift our focus away from the immediate and unprecedented emissions reductions needed. Net zero targets are generally premised on the assumption that fossil fuel emissions can be compensated for by carbon offsetting and unproven future technologies for removing carbon dioxide from the atmosphere. But offsetting does not cancel out our emissions – yet action to do so is immediately needed.
There are a number of myths about net zero targets and carbon offsetting that must be dispelled. By revealing them, we aim to empower people, so that they can pressure governments and companies to create real solutions, here and now:

Myth 1: Net zero by 2050 is sufficient to solve the climate crisis. Misleading.

Major and unprecedented reductions in emissions are needed now. Otherwise, our current high emissions will consume the small remaining global carbon budget within just a few years. Net zero targets typically assume that it will be possible to deliver vast amounts of “negative emissions”, meaning removal of carbon dioxide from the atmosphere through storage in vegetation, soils and rocks. However, deployment of the technologies needed for negative emissions at the required scale remains unproven, and should not replace real emissions reductions today.

Myth 2: We can compensate for fossil fuel emissions using so-called “nature-based solutions” (such as carbon sequestration in vegetation and soils). Misleading.

Fossil fuels are part of the slow carbon cycle. Nature-based solutions are part of the fast, biological carbon cycle, meaning that carbon storage is not permanent. For example, carbon stored in trees can be released again by forest fires. Fossil emissions happen today, while their uptake in trees and soils takes much longer. The overall capacity of nature-based solutions is also limited, and is anyway needed to help remove the carbon dioxide that we have already released into the atmosphere.

The Carbon Cycle

The carbon cycle has two parts: one fast cycle whereby carbon circulates between the atmosphere, land and seas, and one slow cycle whereby carbon circulates between the atmosphere and the rocks which make up Earth’s interior.
Fossil fuels (coal, oil and gas) come from rocks (part of the slow cycle). Carbon emissions from fossil fuel burning are today 80 times larger than the natural flow of carbon from Earth’s interior (via volcanoes). Since the return of carbon to Earth’s interior takes millions of years, about half of the emitted carbon remains in the atmosphere for a long time and contributes to global warming.

Myth 3: Net zero targets as well as carbon offsetting increase the incentives to reduce emissions because emissions are allocated a cost. Misleading.

The incentive decreases as long as it is financially more advantageous and socially acceptable to buy low-cost carbon offsets from abroad than it is to reduce emissions at home. Promises of future negative emissions also reduce the incentive to cut carbon emissions now, as their costs in decades to come are heavily discounted.

Myth 4: Carbon offsetting in low-income countries must increase to meet the Paris agreement. Misleading.

Low-income countries have also established climate targets in connection with the Paris Agreement. They will need all the emissions reductions that can be achieved in their own country to deliver on their own climate targets. There is no remaining carbon budget for wealthy high-emitting nations to pass the burden for cutting their emissions on to low-income nations.

Myth 5: Funding renewable energy projects is a good way to compensate for fossil fuel emissions. Problematic.

Expansion of renewable energy in growing economies is crucial, but often only adds to, rather than replaces the fossil fuels in the energy mix. Because renewable energy is now often cheaper than fossil energy, these investments would likely have happened anyway, and should therefore not be counted as offsets. Actors in high-income countries should rather finance renewable energy expansion as a form of climate investment (as opposed to offsetting).

Myth 6: Technological solutions for carbon dioxide removal will solve the problem. Overly optimistic.

Technologies are being developed but they are expensive, energy intensive, risky, and their deployment at scale is unproven. It is irresponsible to base net zero targets on the assumption that uncertain future technologies will compensate for present day emissions.

Myth 7: Tree plantations capture more carbon than leaving old forests undisturbed. Misleading.

Old forests can contain centuries worth of carbon, captured in trees and soils, and can continue to capture carbon for hundreds of years. It is better to cut fewer trees, so that the carbon already stored is not released. The carbon released by felled trees can take a hundred years or more to be recaptured by new trees. We do not have that time.

Myth 8: Planting trees in the tropics is a cost-effective win-win solution for both nature and local communities. Oversimplified.

There are trade-offs between managing forests for cost-efficient carbon capture and for meeting the needs of nature and local communities. Planting trees with carbon capture as the main goal threatens the rights, cultures, and food security of Indigenous Peoples and local communities. These risks, as well as threats to biodiversity, increase as such projects multiply.

Myth 9: Each ton of carbon dioxide is the same and can be treated interchangeably. False.

Carbon dioxide removal tomorrow cannot compensate for emissions today. Emissions from luxury consumption should not be considered equal to emissions from essential food production. Storage of carbon in plants and soils cannot compensate for emissions of fossil carbon.

Myth 10: Products and travel can be “climate neutral” or even “climate positive”. False.

Products and travel that are sold as “climate neutral” or “climate positive” due to offsetting, do still have a carbon footprint. Such marketing is misleading and may even lead to more emissions as the offsetting incentivises increased consumption. We contribute more to climate solutions by consuming and travelling less.

Climate change poses existential threats to people, nations, children and to vulnerable groups all over the world. Unprecedented, rapid and sustained emissions reductions, starting here and now, are essential for tackling the climate crisis and living up to the commitments in the Paris Agreement:

  • We must shift focus from mid-century net-zero targets to immediate, real emissions reductions in our own high-income countries. Reductions of at least 10% per year are needed. This massive transformation of our societies is our only way to fulfil the Paris agreement without relying on risky and unproven, large-scale deployment of negative emission technologies.


  • We in high-income countries, in addition to maximizing emissions reductions at home, must hugely increase climate finance contributions to low-income countries. The countries that are least responsible yet most vulnerable to the climate crisis must be supported in their efforts to adapt and transform to zero carbon societies, as part of the climate debt they are owed.


  • We must reject offsetting between high- and low-income countries and replace it with climate financing based on scientific evidence, a limited carbon budget and global climate justice.


  • We must define separate targets for negative emissions and emissions reductions. It is essential that socially and environmentally appropriate negative emissions are undertaken as climate investments or climate financing, not as carbon offsets.


  • We must stop marketing products as being “climate neutral” or “climate positive”.


  • We must stop extracting and using fossil fuels, the primary cause of the climate crisis. As well as real-zero targets, we need an international treaty for the termination of fossil fuel production.



Alasdair Skelton, Professor of Geochemistry & Petrology, Stockholm University
Alice Larkin, Professor of Climate Science & Energy Policy, Tyndall Centre, University of Manchester
Andrew Ringsmuth, Researcher in Complex Systems & Sustainability, Complexity Science Hub Vienna
Caroline Greiser, Researcher in Ecology, Stockholm University
David Fopp, Senior Lecturer, Youth Studies, Stockholm University
Duncan McLaren, Professor of Cultural Political Ecology, Lancaster University
Doreen Stabinsky, Professor of Global Environmental Politics, College of the Atlantic,
Erik Huss, Geographer & Glaciologist, CEO Husstainability
Flora Hajdu, Associate Professor of Rural Development, Swedish University of Agricultural Sciences
Greg Marsden, Professor of Transport Governance, University of Leeds.
Hanne Svarstad, Professor of Development Studies, Oslo Metropolitan University
Henrik Lagerlund, Professor of Theoretical Philosophy, Stockholm University
Isak Stoddard, PhD student in Natural Resources & Sustainable Development, Uppsala University
James Dyke, Assistant Director, Global Systems Institute, University of Exeter
Jens Friis Lund, Professor of Political Ecology, University of Copenhagen   
Jillian Anable, Professor of Transport & Energy, University of Leeds
Joanna Haigh, Emeritus Professor of Atmospheric Physics, Imperial College London
Judith Nora Hardt, Postdoctoral Researcher in Climate Change & Security, Franco-German Centre for Social Science Research, Berlin
Julia Steinberger, Professor of Social Ecology & Ecological Economics, University of Lausanne
Kate Dooley, Research Fellow, Climate & Energy College, University of Melbourne
Kathleen McAfee, Professor of International Relations, San Francisco State University
Kevin Anderson, Professor of Energy & Climate Change, Uppsala University and the University of Manchester 
Klara Fischer, Associate Professor of Rural Development, Swedish University of Agricultural Sciences
Linda Engström, Researcher in Rural Development & Policy, Swedish University of Agricultural Sciences
Magnuz Engardt, Reader in Meteorology, Researchers Desk
Maria Johansson, PhD in Fire Ecology, Researchers Desk
Maria Wolrath Söderberg, Researcher in Rhetoric & Climate Communication, Södertörn University
Mats Björk, Professor of Marine Plant Physiology, Stockholm University
Niclas Hällström, Environment and Development Studies, WhatNext? 
Nils Markusson, Senior Lecturer in the Politics of Environmental Technology, Lancaster University
Paul Glantz, Associate Professor of Atmospheric Science, Stockholm University
Peter Newell, Professor of International Relations, University of Sussex
Richard D. Pancost, Professor of Biogeochemistry, University of Bristol
Sarah Milne, Senior Lecturer in Environment and Development, Australian National University
Stephen Woroniecki, Researcher of Sustainability Science, Linköping University
Stig-Olof Holm, Senior Lecturer in Ecology, Umeå University
Stuart Capstick, Deputy Director, Centre for Climate Change and Social Transformations, Cardiff University
Svetlana Gross, PhD student in Business Administration, Stockholm School of Economics
Sören Andersson, Sustainability Advisor, thefuture 
Tor A. Benjaminsen, Professor of International Environment and Development Studies, Norwegian University of Life Sciences
Wim Carton, Assistant Professor of Sustainability Science, Lund University
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