FOREE Train-the-Trainer programme: digital media literacy for forestry education

As digitalisation is increasingly important in the traditionally practical and nature-oriented forestry and wood cluster, enabling digital skills must become a core task of forestry education.

This also applies to forestry teaching practice: integrating digital media can help innovate education approaches towards hybrid, flexible, student-centred methodologies. However, forestry trainers need support and new skills to adapt from face-to-face instruction to integrated blended learning.

This is where the FOREE project comes in. Five partners from Austria, Germany, Estonia and Italy have developed a train-the-trainer programme on eDidactics – blended learning models and digital learning tools specifically for forestry trainers.

The course design will be based on a survey among European forestry education centres and six focus-group workshops involving 71 participants from 24 institutions offering diverse experiences with adopting digital teaching technologies.

Key barriers identified include organisational challenges, an initially increased workload for trainers, and the lack of digital competencies among teaching staff. Limited availability of suitable training exacerbates these challenges, prompting educators to rely on learning-by-doing to enhance their skills.

However, combining digital and practical teaching has already proven to increase efficiency, particularly during the preparation and post-training.

Forestry education

Forestry education group in Austria
The FOREE team at the Forestry Education Center in Pichl, Austria.

Contributors confirm that multimedia approaches improve trainees’ performance and facilitate knowledge retention and skill development. Virtual and augmented reality training, especially for safety-related topics, is also supported and seen as underrated.

Providing missing training and sharing experiences among forestry education institutes, FOREE will help to transform forestry education into an effective hybrid training system.

In forestry, as in other vocational education occupations, innovative, multimodal and flexible learning concepts will help to reach new target groups and to increase sustainability and attractiveness – for learners and teachers alike.

Featured image: Tierney – adobe.stock

Interested in forestry education? Learn more about students’ perspectives on bioeconomy entrepreneurship in Europe.

Danube Wetlands and flood plains Restoration through systemic, community engaged and sustainable innovative actions

DaWetRest is a project the Horizon Europe programme co-financed within the EU Mission Ocean, seas, and waters. The project is built on the three demonstrator sites where active and passive restoration measures will be demonstrated, located in Croatia-Middle Danube Demo (Draž Municipality in Osijek-Baranja County), Bulgaria-Lower Danube Demo (Kalimok-Brashlen area), and Romania-Danube Delta (Danube Delta Ramsar area).

Additionally, DaWetRest has many pilot and sibling locations, which are situated on the Danube River or within the Danube River Basin, where passive restoration measures will be applied. These sites are indirectly included in the DaWetRest implementation, mostly as best practice examples or critical points that need revitalisation in future actions.

Through active and passive restoration measures, 46 project partners from 12 European countries, coordinated by the Climate, Atmosphere and Water Research Institute of the Bulgarian Academy of Science, work together to improve the status of wetlands, coastal wetlands, floodplains and salt marshes in the Danube River Basin.

The common goal of all mentioned activities is to demonstrate restoration measures in small-size geographic areas and to recommend new actions needed for the improvement of wetlands, floodplains, coastal wetlands, and salt marshes in the Danube Region.

All activities imply a holistic and interdisciplinary approach, as well as engagement of local communities and citizens through the following phases of implementation: 

  • Identification of needs and challenges through the engagement of local communities, data collection, and field observations.
  • Preparation phase (assessment of initial status).
  • Implementation phase (application of active and passive restoration measures for improving wetlands, floodplains, coastal wetlands and saltmarshes). 

The overall budget is EUR 9.1 million.

CO2 bioeconomy: creating value from carbon dioxide

Originally published on Open Access Government

Is the CO2 bioeconomy creating value from carbon dioxide? Dr Kang Lan Tee and Professor Tuck Seng Wong both explain

Our relationship with carbon dioxide

Carbon dioxide is frequently portrayed as the villain of climate change. A 50% carbon dioxide content increase in less than 200 years (National Oceanic and Atmospheric Administration) is a stark reminder of its role in global warming.

Scientists have also linked the rise of carbon dioxide with the greenhouse effect in the past 66 million years (Annual Review of Earth and Planetary Sciences). Beyond scientific reports, we have experienced the heat-dome scorching our summer and witnessed record temperatures in the UK, with the highest temperature recorded at 40.3°C on 19 July 2022. Is carbon dioxide to blame for climate change? Greenhouse gases trap

Earth’s radiant heat from the Sun in our atmosphere keeping it from escaping into space. Carbon dioxide is just one of the greenhouse gases (CO2, CH4, N2O, and fluorinated gases) listed in the Kyoto Protocol. While it has less ‘warming potential’ than methane, for example, its longevity keeps it lingering in our atmosphere for up to 1,000 years, accounting for a third of the total warming of Earth.

Our dependence on fossil fuels is a significant cause of the current climate woes. Fossil fuels have supercharged the industrial revolution to drive society’s development. Coal, petroleum and natural gas remain primary resources in the global energy system today and significantly contribute to carbon dioxide emissions.

One argument is that emission is inextricably linked to economic growth. Historically, the richer developed countries emit more carbon dioxide. Countries have, however, started to decouple their economic growth from emissions. For instance, the UK’s GDP has increased in the last 30 years while its emissions have fallen (Our World in Data).

The bad press on carbon dioxide has eclipsed its integral role to life on the planet. By trapping heat from the sun, carbon dioxide and greenhouse gases keep Earth’s climate warm and habitable for humans and other lifeforms. Carbon is the backbone of life, comprising about 18% by the mass of our human body. It is transferred between different reservoirs by the carbon cycle.

For instance, plants produce food from carbon dioxide, which is then consumed by humans and other animals, transferring the carbon to us. Outside its role in Nature, carbon dioxide has numerous commercial applications. It is used to carbonate soft drinks, beer and wine, as an inert blanket to preserve food, and as a coolant for quick freezing.

It is also a raw material for methanol and urea production in the chemical industry. Pumped into oil wells, carbon dioxide can enhance oil production. Lesser-known applications include its use to de-caffeinate coffee and in surgical procedures like laparoscopy.

Innovations to combat climate change

Research and innovation are essential in our combat against climate change. Replacing fossil fuels with other energy sources is often the top change required to reduce emissions. Solar, nuclear, wind and biomass energy are primary alternatives.

These alternative energy sources are ‘cleaner’ as they have net-zero or very low emissions compared to fossil fuels. Solar, wind and biomass are also renewable, meaning we can have an ‘unlimited’ supply compared to the 57 years of oil reserve left (Our World in Data).

To limit global temperature rise below 1.5 °C, the UK aims to cut emissions to 78% below the 1990 level by 2035. Governments around the world outlined similar ambitions. It has become clear that this goal can only be achieved if we strengthen the ‘clean’ energy strategy with an ambitious plan to remove carbon dioxide from our atmosphere.

Carbon dioxide can be removed by plants through reforestation, sequestered in soil and ocean, directly captured from air and carbon mineralisation into solid carbonates. Most of these technologies are at the early stages of development or deployment. Cost remains a major barrier, drawing criticism to their economic sustainability.

Innovations that convert carbon dioxide into products are gaining the attention of governments and investors. These technologies create a CO2 economy that transforms carbon dioxide from a liability into an asset, a pathway for carbon dioxide removal to become economically viable. Key categories of products include fuels, chemicals and building materials.

Carbon dioxide asset

A key advantage of using CO2 as raw material for manufacturing is abundance. About 33 billion tonnes of anthropogenic CO2 (equivalent to 9 billion tonnes of carbon) is produced yearly compared to ~4.5 billion tonnes of combined crude oil and natural gas. Plants and algae are widely recognised agents that “consume” carbon dioxide. Less known are the bacteria that grow on carbon dioxide.

Also called autotrophic bacteria, these living organisms capture carbon dioxide and use it to grow and synthesise other complex organic products. Their ability to double in mass within a few hours makes them faster to cultivate than plants or algae.

At the University of Sheffield, we are harnessing the natural abilities of autotrophic bacteria and augmenting their performance using synthetic biology to enhance carbon dioxide utilisation and broaden their product range.

One such project researches the transformation of carbon dioxide in the air into sustainable, biodegradable polymers that can replace fossil-based plastics. This creates new sustainable opportunities on multiple fronts: the removal of carbon dioxide, a move away from using fossil fuel as raw material, and a biodegradable polymer product to tackle plastics pollution.

Our vision is to use autotrophic bacteria as mini cellular factories and carbon dioxide as raw material to manufacture commodity chemicals, biopolymers and single cell protein for animal feed.

The scale and urgency of our climate problem necessitate the tandem deployment of various technologies. It is thus critical to continue investment across a portfolio of carbon dioxide removal technologies. Research and development, financing, government and business commitment, and clear messaging to the public are essential for cultivating early opportunities into future solutions.


  1. EPSRC New Investigator Award (EP/X025853/1, to KLT).
  2. BBSRC-IAA and C1Net (to TSW & KLT).
  3. RAEng|The Leverhulme Trust Senior Research Fellowship (LTSRF1819\15\21, to TSW).
  4. National Research Council of Thailand (P2250317/3, to TSW).

Featured image: alpegor – stock.adobe

Forest Joensuu: leading the new era

Globally unique and interconnected forest bioeconomy ecosystem, where all levels of education, world-class companies, and top-tier research converge.

Forest Joensuu is a collaborative network comprising prominent research, development, education and innovation entities in the Joensuu region, North Karelia-Finland, with the objective of enhancing both regional innovation capacity and global competitiveness.

Healthy forests provide excellent foundations for future resource-efficient forestry, where decades of expertise and material knowledge meet digitalisation. New innovations emerge by combining our expertise with other strengths of the region, such as photonics and emerging technologies.

Joensuu, the European Forest Capital, is the leading international player in the forest bioeconomy, accelerating the emergence of planet-restoring solutions that play a crucial role in combatting climate change, forest fires and loss of biodiversity.

Learn more about Forest Joensuu

Click the button below to learn more about our work and activities.

Featured image: courtesy of Forest Joensuu

FIRE-RES Open Innovation Challenge now open: support available for developing, demonstrating and piloting solutions to combat extreme wildfires in Europe

Europe is facing an increasing number of extreme wildfires, often with devastating consequences for people and the environment. These fires affect southern Europe as well as central European and Nordic countries.

As the limits of fire suppression-centred strategies become evident, practitioners, researchers, and policymakers increasingly recognise the need to develop novel approaches that expand the scope of work in this field, including the root causes and the impacts of Extreme Wildfires.

Working towards greater resilience to such extreme fires, FIRE-RES and its partners launched the FIRE-RES Open Innovation Challenge for applications aiming to address the most important challenges faced in the prevention of and preparation for, in response to, and enabling recovery after extreme wildfires.

The 11 Living Labs of FIRE-RES were assigned to identify these most pressing challenges, grouped into seven themes and 17 challenges: ‘Risk Communication and Awareness’, ‘Engagement and Empowerment’, ‘Training and Education’, ‘Management Before, During and After Extreme Wildfire Events’, ‘Monitoring’, ‘Forecasting and Decision Support’, ‘Policy and Governance’. Explore all themes and challenges here.

The Open Innovation Challenge is open to innovators, entrepreneurs, technologists, researchers, businesses of all sizes, experts, and all forward-thinking minds to step up and submit cutting-edge solutions addressing the challenges experienced by different stakeholders coping with the risks of extreme wildfires.

It is seeking innovative solutions of all kinds, for instance, technological, social or business-related: products, services, platforms, processes, procedures, best practices, etc. Solutions at all development stages are welcome, from early ideas, methods, and prototypes to close-to-market or market-ready services and products.

Successful applicants with early-stage solutions, such as ideas, will be supported to develop their solutions. Later-stage solutions, such as prototypes, close-to-market, or market-ready solutions, will be supported to demonstrate, pilot and upscale their solutions. This will include brokerage of on-the-ground contacts and testing of their solutions’ feasibility in the realistic contexts of the Living Labs. Successful applicants will receive mentoring and in-kind support as well as, in selected cases, financial support. For the latter, a total of €168.000 is available for this Open Innovation Challenge, with individual entries being eligible for up to €5.000 for demonstration activities and up to €16.000 for piloting activities.

The FIRE-RES Open Innovation Challenge is open until 19 November 2023 (23:59 CET). For full details, please visit the website here.

Sign up for the FIRE-RES Newsletter and receive the latest updates about our activities and the Open Innovation Challenge here.

For questions about applications, please contact:

Follow us on social media: X, LinkedIn and Facebook.

The project leading to this application has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No 101037419.

FIRE-RES Open Innovation Challenge supporters

Exploring collaboration: Basque Country delegation’s visit to EFI

On 31 August 2023, a delegation from the Basque Country, Spain, visited the European Forest Institute (EFI) headquarters and the Bioregions Facility in Joensuu, Finland. The visit was part of a trip the delegation made to Helsinki and Joensuu to strengthen their relations and seek collaboration opportunities with different institutions working on the bioeconomy.

Robert Mavsar, interim director of EFI, introduced EFI’s work and strategic role in research and innovation, followed by Diana Tuomasjukka, who highlighted the ongoing projects and activities done in the Bioeconomy Programme to Estibaliz Hernáez, vice-minister of Technology, Innovation and Digital Transformation, Bittor Oroz, vice-minister of Fisheries, Agriculture and Food Policy, Leire Barañano, general director of Neiker, and Imanol Goenaga, advisor for environment and sustainability.

The Basque government has an ambitious bioeconomy roadmap. It aims to make the region a reference in the bioeconomy, promoting the generation and consolidation of high-value economic activities based on the optimal exploitation of regional resources.

Research and support

The delegation visited Luke’s wood technology lab and Metla’s wooden building. Photo by: Ekonomiaren Garapena via Twitter.

Presentations were followed by vivid discussions on the challenges that developing a sustainable bioeconomy has in the Basque Country and the rest of Europe, such as including biodiversity and social responsibility in industries, the role that perceptions and beliefs play in forest planning and management, and the need of models and tools that analyse ecological, economic and social aspects.

“The Basque Country counts with a lot of research information; what we need to develop further are models that can make information useable in a practical way. Effectively communicating the findings is also crucial to move from a traditional mindset to a more science-based one,” said Leire Barañano.

The work of EFI in providing tools that link knowledge to action and in communicating science to the population and industries is crucial in this scenario.

The Basque delegation at Business Joensuu. Photo by: Andrea Arancibia.

Lauri Sikanen, principal scientist and group manager of Luke—an organisation expert in the sustainable use of renewable natural resources—presented Luke’s research programmes and how they foster the forest-based bioeconomy in Finland.

Basque Country moving forward

The Basque delegation was received by Seppo Tossavainen, Business Specialist, and Kirsi Svard, Business Coach, at Business Joensuu, where they had the opportunity to learn more about the organisation’s development services and Forest Joensuu Innovation Ecosystems.

Companies supported by Business Joensuu—Hiil and WoodSense from Mielikki Nordic—pitched their solutions. They discussed the favourable conditions that Business Joensuu and the bioeconomy ecosystem in North Karelia provide for the development of forest-based companies.

Basque Country delegation at Arbonaut
The Basque Country at Arbonaut with Tuomo Kauranne. Photo by: Ekonomiaren Garapena via Twitter.

During the afternoon, they met Pekka Äänismaa, director and stakeholder relations at Metsäkeskus – Finnish Forest Centre, who presented the Centre’s work. Tuomo Kauranne, president of Arbonaut, gave a presentation on Living with fire: How to mitigate forest fires with digital twins of the forest.

Bittor Oroz, vice-minister of Fisheries, Agriculture and Food Policy, expressed his gratitude for the satisfactory relations that the Basque Country has with EFI as well as the membership of the region in the Bioregions Facility.

Featured image: Minna Korhonen by EFI

Boosting innovation in European bioeconomy

Originally published on Open access government

New projects to drive innovation within the European bioeconomy being funded by the CBE JU are outlined here

The Circular Bio-based Europe Joint Undertaking (CBE JU), a €2 billion public-private partnership advancing competitive circular bio-based industries in Europe, has signed its first 21 grant agreements this year.

Two hundred ninety-three beneficiaries from 27 countries will receive €116 million in funding to develop new bio-based products and materials, first-of-their-kind production facilities, and innovative processes.

The new projects will boost the competitiveness and increase the resilience of Europe’s bio-based economy by using often-underutilised resources to produce consumer products and industrial solutions to replace fossil-based ones. This will reduce the EU’s reliance on strategic imports and create new value chains, business opportunities, and green jobs, particularly in rural areas.

Two new biorefineries for high-value products

Two new flagship projects will set up innovative industrial biorefineries to support the development of the European bio-based economy, focusing on the food and feed sectors.


SUSTAINEXT(1) will turn an existing production plant into a circular biorefinery that will produce healthy plant- based extracts for food, food supplements, animal feed, fertiliser, cosmetics, and chemicals. The biorefinery will create new jobs in Extremadura, a rural region of Spain, and bring value to waste from food industries.

The proposed industrial model boasts the integration of twelve value chains that span from primary producers to end-users. “The model is easily replicable, adaptable to feedstocks of varying types and quality and able to run on renewable energy”, highlighted the Project Coordinator José María Pinilla.(1)


SYLPLANT(2) will build a plant near Lyon, France, producing 10,000 tonnes of protein-rich food and feed ingredients annually. The project will contribute to replacing animal proteins and other high-carbon-footprint plant-based protein sources, such as soy, with novel high-quality ingredients deriving from agricultural and forestry residues, leading to healthier and more sustainable diets for animals and humans.

The project will develop several innovative, nutritious, sustainable food products, pet food, and fish farming feed prototypes containing the ingredient. The CBE JU- funded SYLPLANT project “will draw up a roadmap to build even larger plants, making the vision of creating food from underused local resources a reality,” said the Project Coordinator Marc Chevrel.(2)

Advancing green solutions for many bioeconomy sectors

CBE JU funding will also make possible the development of products and applications for a range of other sectors, including transport, construction, packaging, and textiles. Among the resources that will be used are agricultural residues, paper production side-streams and municipal solid waste, terrestrial and aquatic plants, and wood residues.

Actions range from cultivating biomass on marginal land to produce bio-based fibres and soil revitalisation to capturing CO2 emissions from wastewater treatment plants and transforming them into high-performance plastics.

Some examples of the new projects include:


ROBOCOOP-EU(3) and BRILIAN(4), with €4.7 million and €4.8 million in funding, respectively, will tap into agricultural waste streams to develop new cooperative regional business models. This will offer new commercial opportunities in rural areas, leading to job creation and a more diverse bio-based product portfolio.

A university and a research centre lead the projects, integrating primary producers and commercial companies, to diversify farmers’ sources of income and reduce economic risks.


SynoProtein(5) has been granted €5 million to formulate a sustainable process that will convert residue from sawmills into single-cell proteins for fish feed and produce biochar for animal feed while capturing CO2.

Suppose this ground-breaking circular system developed by a Danish small business is proven effective. In that case, it has the potential to recover 160,000 tonnes of forestry residue and produce 120,000 tonnes of fish and animal feed annually. This could be valued at €175 million if implemented on a large scale.(5)


REDYSIGN(6) will use €4.4 million of CBE JU funding to create wood-based fresh meat packaging containing sensors to prevent premature food spoilage and an efficient recycling process. The project consortium has established collaborations between organisations from technological companies to supermarket chains to develop a viable, bio-based, circular substitute for fresh meat packaging.(6)


THERMOFIRE(7) has been awarded approximately €4.5 million to produce bio-based, flame-retardant materials for the automotive, aerospace and textile sectors using feedstocks such as cellulose and flax. The materials will be lighter and less expensive than their fossil-based counterparts while maintaining the performance levels required in demanding conditions.

In economic terms, the CBE JU-funded THERMOFIRE project aims to lower the cost of flame-retardant materials by shortening production times and increasing the market share of bio-based composites.(7)

Take a look at all the new projects and discover how CBE JU funding is advancing a competitive European bioeconomy.

Ground-breaking production at various scales

The new CBE JU-funded projects are split into four actions, encompassing activities and tasks ranging from establishing ground-breaking production facilities to developing coordination and support systems.

  • Two Flagship Innovation Actions will receive €28 million to build first-of-their-kind industrial-scale facilities.
  • Eight Innovation Actions will obtain €41 million to establish demonstration-scale production systems and business models.
  • Ten Research and Innovation Actions will receive
    €44 million to develop new materials, products and ingredients from renewable and biological resources.
  • One Coordination and Support Action has been granted €2.9 million to develop digital monitoring tools to assess bio-based industrial systems’ environmental and social impact.

Innovation in European bioeconomy

CBE JU Acting Executive Director Nicoló Giacomuzzi-Moore said: “I am confident that these
new projects will make a vital contribution to advancing the bio-based sector in Europe and driving forward the transition to a sustainable, resource-efficient and circular bio-based economy.

I am also very pleased that, with these grant agreements, we can strengthen some European bioeconomy areas, such as producing bio-based alternative food and feed ingredients, flame-retardant materials, smart food packaging, and alternative bio-based platform chemicals.

Lastly, I would like to highlight the high SME participation in the CBE JU projects – around 40% of all participants – which confirms the important role of SMEs in driving innovation to the market in the bio-based sector.”



Bioeconomy this week: wildfire events, wood construction and innovation

In this bioeconomy week’s edition, learn more about the wildfire events increasing across Europe, open surveys seeking feedback, publications delving into wood construction and exciting upcoming events to attend.

Get the Bioregions Facility news update—subscribe to our InfoFlash to stay updated on innovations, events and news related to the forest bioeconomy.

Adapting to climate change

Firefighters battle a wild fire
Europe has experienced a significant increase in wildfires in recent years, resulting in devastating consequences for ecosystems and human communities. Image by By zorandim75 –

A recent study evaluated all fires that occurred 2007–2017 in Italy and the most relevant drivers of fire regimes such as climate, weather conditions, socioeconomic conditions, and land use change, showing that areas where active management has been implemented in recent years have experienced reduced fire impacts.

It’s crucial to understand wildfire connections to climate change and take includes taking action. The Association of Independent Firefighting Experts (SNEP in Polish) organised this year a forest camp. Fire management and capacity-building experts provided participants with hands-on experience managing wildfire events.

Science, civil society and policymakers, so how is Brussels getting ready? In this article, fire experts explain the danger of leaving forests unmanaged, and even though the EU has committed to improving wildfire prevention and monitoring, legislation to support management activities has been delayed.

Earlier this summer, the European Forest Institute (EFI) published the report “Key recommendations on wildfire prevention in the Mediterranean.” This report focuses on planning, developing sustainable financial mechanisms to ensure the implementation and continuation of wildfire management measures and understanding the complex reality of wildfires and international cooperation.

Raise your voice

person using laptop filling out and online survey
By Thapana_Studio –

The Horizon 2020 RESONATE Project has developed a survey to be carried out with stakeholders from the forest value chain and governing authorities. The survey asks participants’ preferences for climate change adaptation measures along the forest value chains—the survey is available in seven languages.

The FIRE-RES Project is working on a Fire Education Platform, an online tool to share best practices while informing and educating stakeholders about wildfires. To ensure the platform meets the needs of potential users, a survey has been designed to gather feedback from individuals.

Wood for construction

Wood is a sustainable construction material since it’s climate-smart, fast to build, energy efficient and renewable. Image by Pickawood on Unsplash.

Innovation dynamics in multi-storey-wood construction in Sweden and Finland” publication aims to reconstruct the processes leading to innovations and breakthroughs in the market. Interviews from a historical overview of some main events and drivers decisive for the industry’s development to more recent developments.

Circularity concepts in wood construction” publication presents the advantages of wood materials for construction and discusses wood construction practices from the perspective of circularity, sustainability and climate change mitigation.

The study “Consumer housing choices among residents living in wooden multi-storey buildings” tries to understand consumer choices with newly built wooden multi-storey construction (WMC) apartments through thematic interviews of residents and property managers in five cities across Finland and Sweden.

Bioeconomy – Events

bioeconomy upcoming events
Image: Microsoft Designer.

The European Bioeconomy Scientific Forum on 6–8 September will focus on promoting the transformation towards a sustainable bioeconomy.

At the Future Forest Forum on 8–9 September 2023, participants will discuss new forest management and innovation methods.

EFI Annual Conference on 20–22 September 2023 will celebrate EFI’s 30th anniversary and discuss the “European forests and forest science: transition to the future.”

Event 1 – Forestry Speed Dating on 21 September 2023 will explore the importance of accommodating diverse participants, from landowners to enterprises, in carbon markets.

See more events here.

Featured image: By Marharyta –

Exploring carbon market solutions: Forestry Speed Dating new series

Forests capture and store carbon are crucial in mitigating climate change. Carbon farming, which applies land management practices that increase the amount of carbon stored in soil and vegetation, is an excellent strategy to exploit forests’ potential to contribute to climate goals.

Still, incentives to promote adopting climate-friendly practices need to be widespread across Europe.

The forest carbon market has become economically attractive for businesses to offset emissions and for landowners to support them financially while contributing to forest conservation and restoration. This fast market development raises the necessity to secure sustainability across the chain.

This requires implementing and scaling up solutions that measure and monitor carbon accurately, support small and medium landowners, create rigorous verification schemes and incentivise fair market conditions.

To promote such innovations, the European Forest Institute – Bioregions Facility has launched the third series of Forestry Speed Dating (FSD), an online event series to support innovative solutions in the bioeconomy. This series will explore how to unlock the potential of forest carbon markets with innovative solutions.

The solutions will be presented in a four-event format September–December 2023, ranging from carbon measuring, monitoring, and reporting to carbon marketplaces.

Registration for the Unlocking forest carbon markets – Event 1 of the FSD 3rd Series on 14 September 2023 at 14:00 CEST (new date) is now open; meet and connect with Skoog and Treemetrics innovators and learn more about their solutions, ask questions and find ways for collaboration—don’t miss out and register now.

Unlocking forest carbon markets – Event 1 of FSD 3rd Series

Be a beta tester for the Bioeconomy Solutions Platform

What’s the Forest Bioeconomy in Action Platform?

The Bioregions Facility invites beta testers to explore the pilot version of the Forest Bioeconomy in Action Platform—a community to discover solutions, learn from knowledge, and keep track of news related to carbon farming.

Innovative solutions are crucial to the development of the bioeconomy, and the platform can contribute to it. Initially, the solutions are focused on carbon farming, but the goal is to expand it to various forest bioeconomy topics.

The Facility is working with Ubuntoo, an environmental solutions platform provider, to search for relevant solutions. The platform is powered by artificial intelligence (AI) and human curation, but users can also recommend solutions from other sources.

Solutions platform

The platform has about 100 solutions waiting to be explored, commented and shared. Users can filter the solutions based on “location,” “stage of development,” “seeking opportunity,” “solution theme,” and “organisation type.”

They can read an overview of the solution, check the organisation’s key contact, leave comments, and upvote or downvote the solution.

A special feature is creating a collection with chosen solutions, like a Spotify playlist but for project solutions. This collection has a unique link, and users can share the page with others.

Different knowledge products can be found in the “Learn” section, e.g., EFI publications, peer-review papers and other materials. The “News” and “Events” sections are useful for staying updated with the latest news and upcoming events.

Explore the solutions

Here’s a preview of two solutions:

Solution: SustainCERT

Overview: SustainCERT is a climate impact verifier that offers efficient and scalable certification through its technology-driven platform. A recognised authority for the Gold Standard for Global Goals, SustainCERT ensures that certified climate actions align with sustainable development goals.

SustainCERT overview on the solutions platform.

Solution: Zerticarbon app

Overview: Zerticarbon, a company that offers certified carbon sink solutions using blockchain technology, is dedicated to advancing climate-smart forestry solutions, connecting forest owners with companies interested in neutralising carbon emissions. The solution has recently won the Bioregions’ Open Innovation Challenge.

Zerticarbon app overview on the solutions platform.

Become a beta tester

Are you interested in becoming a beta tester? Fill out the request form now. Selected candidates will receive an email from the Bioregions Facility to register for the platform.

As a beta tester for the Forest Bioeconomy in Action Platform, you have direct access to the latest solutions applicable to the European market. Join the movement and help us make a difference in the bioeconomy.

Do you have any questions or suggestions? Email us at

Here’s what you can do on the solutions platform:

Create your account

Once you receive an email with a link to access the platform:

  • Click the “Click here to register to the platform” button in the registration email. This will take you to the page to create your login credentials.
  • Follow the instructions, fill in your email address and create your password.

Log in to the platform

Log into your account using the email address and password you used to create your account.

If you missed the initial invite or it has expired, simply visit Forest Bioeconomy in Action and click “forgot password” to create a new password and log in.

In your profile

On the platform, click the triple bar icon at the upper right corner of the menu:

  • Update your name or picture in “My Profile.”
  • Check other greenhouses and collections in “My Greenhouses.”
  • Click “Take the Tour” to learn more about the platform.
  • You can also “Change Password” or “Invite a Member.”

Discover solutions

In the navigation bar, click Discover:

  • Search solutions by clicking on the button “All Filters” or
  • Use the search bar using keywords, topics, or specific names.
  • Change the view to “Map” or “Grid.”

Inside a solution:

  • Read the overview and leave comments.
  • Upvote or downvote solutions.
  • Check key contacts and visit the original website.

Create a new collection:

  • Inside each solution, you can see the “+Collection” button at the bottom of the filter section.
  • Click “+Collection.”
  • Add selected solution to a collection, or
  • Create a new collection.


In the navigation bar, click Learn → Knowledge, Events, News to browse and search for other knowledge products, latest news and upcoming events.


In the navigation bar, click Connect → Members to see other members or (You can tag other members in the comment section when reading a solution.) → Forum to start a discussion with other members.


In the navigation bar, click Recommend+ to suggest a new solution. Our team will review the information provided and add it to the website if it fits our requirements.


After using the platform, we will send a Feedback form requesting users to share their thoughts and help us improve the platform.


Do you have any questions or suggestions? Email us at

See you on the platform!