Carbon storage with wood buildings

Wood construction battles climate change through carbon storage

One of the most important ways to mitigate climate change is to find new ways of capturing carbon from the atmosphere. As the building sector contributes up to 30% of global annual greenhouse gas emissions, it plays a vital role in battling climate change. Wood construction is a part of the solution, as timber products lock approximately 1 ton of CO2 per 1 m3 of wood.

timber products lock approximately 1 ton of CO2 per 1 m3 of wood 

“We need to search for the big picture solutions of today’s vast climate, environmental and world housing needs. This requires looking at the fundamentals of the way we build – from the material choices of large urban buildings to the details of energy performance”, Dr. Frank Werner from Frank Werner Environment & Development says.

The carbon footprint of Kerto LVL® (laminated veneet lumber) is actually negative: 1m3 of the product has a global warming potential of -655 kg CO2e, because large quantities of biogenic carbon are stored in the wood raw material. Furthermore, the wood used by Metsä Wood always comes from sustainably managed forests.

See also

Carbon storage for entire building's life span

Carbon storage for entire building's life span 

Wood materials are produced without CO2 emissions

Construction sector can make a real difference by using wooden construction materials that both capture carbon for their entire life span as well as are produced with very little CO2 emissions during production.

“While planning any new building or renovating an existing one, we should look at the emissions created during the entire life cycle of the building – from the production of construction materials to the using phase and beyond. The dry mass of wood is 50% carbon, and this carbon is taken away from the atmosphere and thus does not contribute to the greenhouse effect”, Matti Kuittinen, architect and researcher from Aalto University continues.

In Europe, the renewable wood grows nowadays more than it is used, which increases the carbon capturing also in the growing phase. To guarantee the increase of forest reserve also in the future, sustainable forest management and forest certification are to be highlighted in sourcing.

Wood products can be used in all buildings

Wood is the only construction material that stores carbon

Wood-based materials can be used in most parts of any building to capture carbon from the atmosphere. This allows designers and builders to reach ambitious CO2 reduction goals. For example, a passive house was designed for a cold climate with two alternative construction material combinations: wood frame with wood-fibre insulation and an aircrete frame with EPS insulation.

“Both options gave the buildings’ shell the same level of energy efficiency. However, producing the wooden alternative caused approximately 40% less CO2 emissions. Also, the amount of atmospheric carbon stored in its wood frame was almost four times as much as in the alternative”, Kuittinen explains.

Wooden building components store carbon in all buildings regardless of their frame, insulation and cladding materials. The largest potential for storing carbon can be achieved in external walls, intermediate floors and roof structures. For example, using Metsä Wood’s Kerto LVL columns and floor elements gave a four story timber building a carbon storage of 204 kg/m2 of floor area.

Long-term carbon storage

Wood is climate friendly over the whole life cycle  

Wood is climate friendly over the whole life cycle

As large amounts of carbon can be stored in the wooden parts of buildings, it is important to ensure that the carbon storage is as long-term as possible. Long service life requires good design, moisture safety during construction and good maintenance. And when the wooden parts are no longer used in buildings, they have the potential to be recycled into other products – so the atmospheric carbon stays locked away. After a cascade of recycling, wood material can be used for bioenergy production.

“If buildings were re-invented today, renewable materials would play a key role. A revolution of more climate friendly and sustainable building is possible with the help of well-developed, green building products. The rest is up to designers and constructors”, Werner concludes.

Quick facts

Wood building store carbon 
  • ​Metsä Wood’s raw material is 100% traceable and 90% certified.
  •  Metsä Wood uses raw material efficiently: the side streams not used in the production of Kerto LVL are used to produce bioenergy and biofuels.
  • Using biofuels in production ensures low fossil CO2 emissions.
  • Finnish forests act as carbon sinks because the forests grow faster than they are harvested.
  • The carbon stored in an average wooden single family house equals the amount of carbon that one family produces by driving a car for 10 years or by flying south on holiday 10 times.
Dr. Frank Werner, Werner Environment & Development

​Werner Environment & Development is a consulting company providing services to both, companies and policy makers with a focus on optimized resource use. Frank Werner has been working on life cycle assessment of construction products and buildings for many years.

Architect, research manager: Matti Kuittinen

Matti Kuittinen is Research Manager and Architech in Aalto University, School of Arts, Design and Architecture. His research and lecturing work at Aalto University is focused on wood construction, carbon footprinting, LCA, energy efficiency and humanitarian aid.

Open Source Wood initiative

Open Source Wood: an open platform for innovative wood construction

In June, Metsä Wood launched its Open Source Wood project, where architects, designers and engineers are invited to join forces to innovate and share information relating to construction based on wood elements.

This project is a continuation of the Plan B campaign, and is aimed at expanding the market for urban wood construction by combining expertise from different countries. Metsä Wood is promoting element design by offering EUR 30,000 in prize money for element-based designs that make innovative use of Kerto LVL.

Read more and join the initiative

Fast light green articles


Hybrid sandwich wall element – sustainable and efficient construction


Wood construction battles climate change through carbon storage


Fast revenue


100% bioenergy


Fast, Light and Green photo series