Local Projects.
Global Impact.

Where We’re Restoring Our Planet

11

Active Smart Forests

72,602

Unique Pieces of Evidence  

14,667

Work Days Provided

Post Wildfire

Canada

Our first 'Smart Forest' in Cochrane, Alberta, offers real-time monitoring for sustainable reforestation.

Planting Status:

Active

Post Wildfire

Mangrove

Madagascar

Restoring the mangrove estuary to empower the coastal community and provide rich finishing grounds.

Planting Status:

Complete

Mangrove Restoration

Terrestrial

Canada

Rehabilitating natural landscapes to provide clean water, air, enhanced biodiversity, and wildlife habitat for residents.

Planting Status:

Active

Terrestrial Restoration

Agroforestry

Tanzania

Supporting farmers in producing sustainable cotton through regenerative agroforestry to increase harvest yields while restoring degraded landscapes.

Planting Status:

Complete

Agroforestry

Post Wildfire

United States of America

Planting native seedlings in Klamath National Forest to restore watersheds and revive wildlife habitats after recent fires.

Planting Status:

Complete

Post Wildfire

Terrestrial

Kenya

Restoring Old Bonjoge Forest to contribute to food security, income sources, and natural regeneration.

Planting Status:

Active

Terrestrial Restoration

Mangrove

Brazil

Restoring carbon-rich mangrove estuaries through reforestation to improve the livelihoods of local fishers and create jobs.

Planting Status:

Active

Mangrove Restoration

Terrestrial

United States of America

Reforesting areas of Florida to restore the native longleaf pine ecosystem, enhance resilience against climate change and support rare species.

Planting Status:

Active

Terrestrial Restoration

Post Wildfire

Canada

Restoring wildfire-affected areas by planting native species to rejuvenate the soil and revive the ecosystem.

Planting Status:

Active

Post Wildfire

Agroforestry

Senegal

Enhancing the Gambia River Watershed's sustainability by rehabilitating lands, adopting sustainable practices, and promoting community ownership.

Planting Status:

Active

Agroforestry

Mangrove

Indonesia

Restoring mangrove forests to revive fisheries, protect coastlines, and create jobs for local communities while also restoring critical carbon sinks.

Planting Status:

Complete

Mangrove Restoration

Terrestrial

Rwanda

Equipping farmers with the finance, skills, and expertise to improve productivity, soil health, and climate resilience of their crops.

Planting Status:

Complete

Terrestrial Restoration

Agroforestry

Haiti

Developing a honey-optimized agroforestry model in Haiti to boost farm productivity and create market-based solutions for farmers.

Planting Status:

Active

Agroforestry

Kelp Seaforestation

Canada

Restoring kelp forest along the Pacific NorthWest to support biodiversity, local fisheries, and improve water quality.

Planting Status:

Active

Kelp Seaforestation

Terrestrial

Canada

Revitalizing a former logging site in New Brunswick by planting diverse native species to reverse land degradation and boost biodiversity.

Planting Status:

Active

Terrestrial Restoration

Mangrove

Kenya & Tanzania

Restoring mangrove forests in Eastern Africa to empower coastal communities, break poverty cycles, and provide rich fishing grounds.

Planting Status:

Active

Mangrove Restoration

Kelp Seaforestation

Canada

Restoring kelp forests along the Pacific Coast to rehabilitate habitats that are crucial to local species and biodiversity.

Planting Status:

Complete

Kelp Seaforestation

Post Wildfire

United States of America

Restoring wildfire-damaged forest to revive wildlife habitat for deer, elk, cougar, bear, trout, and spotted owl.

Planting Status:

Active

Post Wildfire
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Explore Your Impact in Action

Calculate the impact of planting 10,000 trees or kelp across our different project types.

38 Tennis Courts

A standard tennis court could contain 260 mangroves.

539 Cars Off the Road

Cars in North America release an average of 4.60 tonnes of CO2 per year.

154 Tennis Courts

A standard tennis court could contain 65 agroforestry trees.

33 Cars Off the Road

Cars in North America release an average of 4.60 tonnes of CO2 per year.

192 Tennis Courts

A standard tennis court could contain 52 terrestrial trees.

1,878 Cars Off the Road

Cars in North America release an average of 4.60 tonnes of CO2 per year.

8 Tennis Courts

A standard tennis court could contain 1,300 kelp.

214 Tennis Courts

A standard tennis court could contain 47 post wildfire trees.

1,016 Cars Off the Road

Cars in North America release an average of 4.60 tonnes of CO2 per year.

It's About More Than Trees

We Measure Impact

Reducing CO2 Levels Helps Mitigate Climate Change

Monitoring carbon in forest restoration is vital as forests act as the planet's lungs, absorbing carbon dioxide and releasing oxygen. By tracking carbon sequestration, we can determine the efficacy of restoration efforts in mitigating climate change. It allows for a quantifiable measure of a forest's contribution to global carbon cycles and offers insights into the potential of forests in offsetting anthropogenic carbon emissions. Furthermore, understanding carbon dynamics can help optimize forest management practices for maximum carbon capture.

Encouraging Growth of Native Species Supports Wildlife

Biodiversity is the foundation of ecosystem resilience and functionality. Monitoring biodiversity ensures that restoration efforts are promoting a rich variety of species and not inadvertently creating monocultures. A biodiverse forest is more resilient to pests, diseases, and changing climatic conditions. Furthermore, each species plays a unique role in the ecosystem, and by monitoring biodiversity, we can better understand and protect these intricate relationships. veritree uses a mixture of technologies to monitor biodiversity including environmental DNA sampling, acoustic monitoring and remote sensing.

Job Creation Empowers Communities

People are central to ecosystem restoration. From smallholder farmers to local and Indigenous peoples, to employees in forest enterprises, roughly 1.6 billion people live in and around forests and depend on its natural resources to some extent.  Restoration is an opportunity to achieve equity in both rural and urban areas, providing avenues to empower women and young people. Moreover, by promoting and conserving healthy landscapes, restoration can help promote the use of traditional knowledge and protect Indigenous cultural systems and practices.

Rebuilding Natural Habitats Maintain Healthy Ecosystems

Forests play a crucial role in maintaining hydrological cycles. Monitoring water aspects ensures that restored forests are aiding in groundwater recharge, regulating water flows, and maintaining water quality by filtering pollutants. Forests also act as buffers during heavy rainfall, preventing floods and reducing soil erosion. Hence, keeping an eye on water dynamics in and around forests ensures both ecosystem health and human wellbeing.

Replenishing Deforested Areas Boost Environmental Stability

Monitoring land impacts in forest restoration helps ensure that the restored areas are resilient to degradation, such as soil erosion and desertification. Healthy forests improve soil fertility, structure, and prevent land degradation, promoting a sustainable loop of growth and regeneration. Moreover, tracking land changes can reveal any encroachments or unplanned land-use changes, ensuring that restoration efforts remain undisturbed and effective.

Carbon
Reducing CO2 Levels Helps Mitigate Climate Change

Monitoring carbon in forest restoration is vital as forests act as the planet's lungs, absorbing carbon dioxide and releasing oxygen. By tracking carbon sequestration, we can determine the efficacy of restoration efforts in mitigating climate change. It allows for a quantifiable measure of a forest's contribution to global carbon cycles and offers insights into the potential of forests in offsetting anthropogenic carbon emissions. Furthermore, understanding carbon dynamics can help optimize forest management practices for maximum carbon capture.

Biodiversity
Encouraging Growth 
of Native Species Supports Wildlife

Biodiversity is the foundation of ecosystem resilience and functionality. Monitoring biodiversity ensures that restoration efforts are promoting a rich variety of species and not inadvertently creating monocultures. A biodiverse forest is more resilient to pests, diseases, and changing climatic conditions. Furthermore, each species plays a unique role in the ecosystem, and by monitoring biodiversity, we can better understand and protect these intricate relationships. veritree uses a mixture of technologies to monitor biodiversity including environmental DNA sampling, acoustic monitoring and remote sensing.

People
Job Creation Empowers Communities

People are central to ecosystem restoration. From smallholder farmers to local and Indigenous peoples, to employees in forest enterprises, roughly 1.6 billion people live in and around forests and depend on its natural resources to some extent.  Restoration is an opportunity to achieve equity in both rural and urban areas, providing avenues to empower women and young people. Moreover, by promoting and conserving healthy landscapes, restoration can help promote the use of traditional knowledge and protect Indigenous cultural systems and practices.

Water
Rebuilding Natural Habitats Maintain Healthy Ecosystems

Forests play a crucial role in maintaining hydrological cycles. Monitoring water aspects ensures that restored forests are aiding in groundwater recharge, regulating water flows, and maintaining water quality by filtering pollutants. Forests also act as buffers during heavy rainfall, preventing floods and reducing soil erosion. Hence, keeping an eye on water dynamics in and around forests ensures both ecosystem health and human wellbeing.

Land
Replenishing Deforested Areas Boost Environmental Stability

Monitoring land impacts in forest restoration helps ensure that the restored areas are resilient to degradation, such as soil erosion and desertification. Healthy forests improve soil fertility, structure, and prevent land degradation, promoting a sustainable loop of growth and regeneration. Moreover, tracking land changes can reveal any encroachments or unplanned land-use changes, ensuring that restoration efforts remain undisturbed and effective.

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