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Restoration Projects

Restoring forests globally, for one common goal

Discover how the Priceless Planet Coalition is impacting change on a global scale.

Woman in yellow jacket standing in a dense forest.

Discover how the Priceless Planet Coalition is impacting change on a global scale

The devastating effect of natural disasters

Throughout the 2019 and 2020 Australian bushfire seasons, more than 18.6 million hectares of land burned, killing at least 37 people and millions of animals while destroying over 5,900 buildings, including over 2,800 homes. Nine hundred million tons of carbon dioxide was released into the atmosphere, equivalent to nearly double the country’s total yearly fossil fuel emissions.

Environmental disasters are becoming more intense each year. Given that the lives of people, animals and even plants are interconnected, recovery can be long and arduous. The Priceless Planet Coalition is seeking ways to prevent or reduce the risk and, should disasters happen, create the path to ensure we all can recover faster and better.

Greening Australia is partnering with Conservation International and Minderoo Foundation to assist and revitalize communities affected by the bushfires and to restore the damaged landscapes while developing a long-term blueprint for addressing wildfire and disaster resilience.

Map source: Greening Australia

Map of Australia.

Nature of the terrain

New South Wales: the Southern Tablelands is a geographic area characterized by high, flat country. Its forest structure consists of open eucalyptus forest 20 to 35 metres tall, with variable density of shrubs and a diverse, relatively continuous herbaceous-grassy ground cover. The area of native forests in the Riverina region consists mainly of Eucalypt Medium Open, Eucalypt Medium Woodland and Eucalypt Mallee Woodland. Western Sydney is largely made up of low rolling hills and wide valleys, with indigenous woodlands comprised of open tree canopies, grassy ground cover and layers of shrubs and small trees.

Victoria: the Central Otway is situated on the Otway Plain. River systems within this area are a high priority due to the many ecological values and the vital urban water supply. Gippsland is a landscape that grows some of the tallest trees in the world. The ranges are deeply dissected with moderate to steep slopes and numerous gullies and creeks. It forms the headwaters of the many rivers that run to the inlets, bays and estuaries on the southern Victorian coastline and provides critical habitat for the nationally threatened Greater Glider.

South Australia: the Coorong is located at the end of the Murray River in South Australia, in the area known as the Limestone Coast. The system includes coastal dune sands and lagoonal sediments near shallow waters and lagoon corridors. The area can be subject to wind erosion and low fertility, with saline swamps in the area. The location has significant conservation value providing habitat and/or habitat connectivity for local species which are threatened or in decline in South Australia’s southeast region.

Project goals

Restore 430,000 trees, sequester 8,600 tonnes of CO2* and restore 450 hectares of land.

Image source: Greening Australia

Greening Australia's members planting trees.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Enrichment planting: the strategic reestablishment of key tree species in a forest that is ecologically degraded due to lack of certain species, without which the forest is unable to naturally sustain itself.

Direct seeding: the active dispersal of seeds (preferably ecologically diverse, native seed mixes) that will allow for natural regeneration to occur, provided the area is protected from disturbances. This is a differentiated category from planting young trees.

Image source: Greening Australia

A person planting trees, Australia.

Tree species

In the Southern Highlands, Greening Australia is reinstating the tree and shrub layers of woodland vegetation communities, establishing at least 12 species appropriate for those habitat types, including the following unique, hand-planted species:

  • Yellow box (Eucalyptus melliodora)
  • Blakely’s red gum (E. blakleyi)
  • Red box (E. polyanthemos)
  • Cabbage gum (E. amplifolia)
  • Argyle apple (E. cinerea)
  • Broadleaf peppermint (E. dives)
  • Red stringybark (E. macrorhyncha)
  • Silver Wattle (Acacia dealbata)
  • Black Wattle (A. mearnsii)

In western Sydney, they are considering a diverse mix of 28 unique, locally sourced species suitable to the Cumberland Plain Communities across five sites.

Across the Victorian planting regions, 37 unique species are being installed to restore habitat for threatened vegetation communities.

Across the South Australia planting site, 11 unique species are being installed to provide plants for refuge and food resources for species.

Restoring the Tonle Sap Lake’s flooded forest

Conservation International is partnering with community fisheries organizations in order to restore flooded gallery forest within the boundaries of each community’s area. The aim is to provide vital habitat for fish and wild animals, while enhancing livelihood options of the communities and increasing their resilience to the impact of climate change.

Photo credit: Conservation International

Map of Cambodia.

Nature of the terrain

Floodplain

Project goals

Restore 219,980 trees, sequester 4,400 tonnes of CO2* and restore 510 hectares of land.

Photo credit: Conservation International

Tonle Sap Lake’s flooded forest.

Restoration methods

Active tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil or from natural seed dispersal from nearby trees.

Direct seeding: the active dispersal of seeds (preferably ecologically diverse, native seed mixes) that will allow for natural regeneration to occur, provided the area is protected from disturbances. This is a differentiated category from planting young trees.

Photo credit: Conservation International

Cambodia forest restoration.

Tree species

Majority native floodplain species, such as:

  • Reang (Barringtonia acutangular)
  • Ptoul (Diospyros cambodiana)
  • Kanseng (Xanthophyllum glaucum)
  • Chompring (Cynometra ramiflora)
  • Chrakeng (Mallotus cochinchinensis)
  • Ta Uo (Terminalia cambodiana)
  • Trah (Combretum trifoliatum)
  • Ipê-felpudo (Zeyheria tuberculosa)

Conservation International China is partnering with the Yunnan Green Environment Development Foundation to restore temperate forests in the mountains of Yuxi, Yunnan, which were destroyed by wildlife in 2023.

Prior to the fire, the forests were all non-commercial trees planted in the 1980s on state-owned and collective-owned lands, with Yunnan pine (Pinus yunnanensis) as the dominant species. The project aims to re-establish coniferous and broad-leaved mixed forests, to increase biodiversity and create a more fire-resistant forest, compared to the single-species Yunnan pine forests. This project could serve as a model for best practices and innovation for forest management in Southwest China.

Map source: Conservation International and Yulan Lu

Map of China.

Nature of the terrain

The project is located in Yunnan Province, covered by warm broad-leaved forest and warm temperate coniferous forest. The major vegetation is Yunnan pine (Pinus yunnanensis) pure forest.

The Yunnan pine forest in Jiangchuan District is critical to local livelihoods. It provides habitats for various species of edible fungi and plays a critical role in soil and water conservation.

Project goals

Restore 150,000 trees, sequester 3,000 tonnes of CO2* and restore 100 hectares of land.

Photo credit: Heng Wang

China, Yunnan province.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Invasive species removal: using manual methods, treatments or equipment to remove invasive species that hinder the growth and regeneration of desired or native species.

Tree species

All native, including:

  • Yunnan pine (Pinus yunnanensis)
  • Sawtooth oak (Quercus acutissima Carruth)
  • Chinese cork oak (Quercus variabilis)
  • Quercus schottkyana (Cyclobalanopsis glaucoides Schottky)
  • Chinese pistachio (Pistacia weinmannifolia J. Poiss. Ex Franch)

Between the Indian states of Jharkhand and Odisha lies the Dalma-Similipal Asian elephant corridor. Heavy mining activities and shifting crop cultivation have destroyed much of the corridor’s natural forests, which serve as a protective screen for migrating elephants and keep them away from farms. Elephants that once roamed free are now restricted to 15% of their original range — and their population has dropped by half.

The Priceless Planet Coalition project in India aims to connect these two protected areas by planting trees to increase the forest cover, thereby increasing the ecological integrity of the corridor and the area available for elephants to forage. All trees planted will be indigenous or naturalized species, which will support other key species in the area, like the endangered Royal Bengal tiger. Partner Grow-Trees, which has been operating for 13 years, will collaborate with local people, local gram panchayat (village governments) and the Forest Department to grow trees in the right places. This collaboration will ensure the long-term viability of the project.

Local people will grow the saplings in nurseries for six months and distribute them during the monsoon season. A year after planting, independent auditors will assess the trees’ survival, and the project’s management will shift over time to the local villages. The rights to the trees will lie with the local communities, who will be able to receive income from gathering and selling forest products, like fruits and traditional medicines. With that approach, Grow-Trees has planted more than 9 million trees and created more than 742,000 workdays for rural and tribal communities.

Photo credit: Grow-Trees/Priceless Planet Coalition

Indian woman with tree seedlings.

Nature of the terrain

Located on the periphery of the Dalma and Similipal forest ranges, the project areas have a temperate climate with an annual rainfall of 1,200-1,600 millimetres. Living within the path of the south-west monsoon, communities experience heavy rains during July and September. The site in East Singhbhum in Jharkhand state forms a part of the Chota Nagpur Plateau, characterized by upland terrain with hills, plateaus, valleys and plains. The vegetation in this area is mostly dry and thorny on the rocky hill slopes. The site in the Mayurbhanj district in Odisha state is part of a north central plateau agroclimatic region. Located away from the coastal belt, the district experiences a subtropical climate with a hot summer and a cool winter with steady rain. The district contains lush green vegetation, a myriad of fauna and rich cultural heritage.

Project goals

Restore 1,129,545 trees, sequester 22,591 tonnes of CO2* and restore 500 hectares of land.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Riparian restoration: specific interventions in the hydrological flows and vegetative cover to improve the ecological function of a degraded wetland or riparian area.

Photo credit: Grow-Trees/Priceless Planet Coalition

Indian men planting trees.

Tree species

A mix of tree species are planted in this region, offering numerous benefits for both wildlife and the local villagers. These species are planted to enhance the region's green cover and contribute to ecological and community well-being. They include:

  • Teak (Tectona grandis)
  • Mahua (Madhuca longifolia)
  • Neem Tree (Azadirachta indica)
  • Cotton Tree (Bombax ceiba)

ATREE is partnering with several organizations in India to restore degraded forest ecosystems from the high ranges of the Himalayas to the mangroves in the coastal areas.

Launching fall 2024, this is part of a larger initiative that includes parts of India, Nepal, Bhutan and Bangladesh, which are part of the Eastern Himalayas. ATREE is one of the founding implementing partners working in the Eastern Himalayas.

The project will implement restoration strategies and monitor saplings, maintaining their survival. The project will also declare community conserved areas owned and managed by legally recognized customary institutions like the Village Councils in Nagaland. It will strengthen Joint Forest Management committees for protected areas and reserve forests in North Bengal and explore other effective conservation measures as a tool for sustaining restoration.

Map source: Map Gurung et al 2019

Map of India.

Nature of the terrain

The terrain in the Darjeeling Himalayas comprises:

Mountainous ridges: the region features a series of ridges and valleys with different elevation ranges.

Foothills: the foothills of Darjeeling extend into the lower regions before transitioning into the plains of West Bengal. These areas are characterized by a gentler slope compared to the steeper terrain of the higher altitudes.

River valleys: numerous rivers and streams flow through the foothills. These rivers and streams cut through the landscape, creating fertile areas for agriculture and settlements.

Project goals

Restore 640,000 trees, sequester 12,800 tonnes of CO2* and restore 210 hectares of land.

Photo credit: Dan Rothberg

India, Eastern Himalayas.

Restoration methods

Assisted natural generation the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees; this does not include any active tree planting.

Photo credit: Dan Rothberg

India, terrain of the Darjeeling district.

Tree species

More than 45 species, co-identified with communities based on biodiversity and multi-functional value, including:

  • East Indian almond (Terminalia myriocarpa)
  • Indo-China magnolia (Michelia cathcartii)
  • Java plum (Syzygium cumini)
  • Wild Himalayan cherry (Prunus cerasoides)
  • Southern silky oak (Grevillea robusta)
  • Gamhar (Gmelina arborea)

The project aims to restore degraded areas and safeguard conservation areas in community-managed areas within Kaeng Krachan National Park by planting trees and applying forest and landscape restoration principles.

The project will focus on working closely with Indigenous people and local communities to facilitate connections to key policymakers, provide access to critical technology and sustainability training, and highlight the expertise and experience of Indigenous peoples and local communities — so they can better protect their territories and secure the benefits that these lands provide to all of humanity.

Thailand map. Map source: IUCN Thailand

Nature of the terrain

The area is dominated by semi-evergreen/dry evergreen and moist evergreen forests, with some mixed deciduous, montane and deciduous dipterocarp forests. The terrain includes upper watersheds, riparian zones and agricultural areas.

Project goals

Restore 275,000 trees, sequester 5,500 tonnes of CO2* and restore 165 hectares of land.

Restoration methods

Agroforestry and multi-species agriculture: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Enrichment planting: the strategic reestablishment of key tree species in a forest that is ecologically degraded due to lack of certain species, without which the forest is unable to naturally sustain itself.

Tree islands: a form of enrichment planting where trees are planted in groups, clusters or even rows, dispersed throughout an area, to encourage natural regeneration in the matrix between the non-planted areas.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees; this does not include any active tree planting.

Photo credit: Olivier Langrand

Kaeng Krachan National Park.

Tree species

A mix of native and non-invasive species, including native species for rehabilitation and enrichment planting, high-value native and non-invasive species for agroforestry, and trees and herbs for local food systems:

  • Java plum (Syzygium cumini)
  • Indian bael (Aegle marmelos)
  • Burma padauk (Pterocarpus macrocarpus)
  • Siamese sal (Shorea obtusa)
  • Indian gooseberry (Phyllanthus emblica)

Photo credit: Olivier Langrand

Thailand, Kaeng Krachan National Park.

Puerto Princesa Forest Restoration Initiative

On behalf of the Priceless Planet Coalition, Conservation International is restoring forests in Palawan to provide economic benefits to local communities, including Indigenous communities. It is also working within the critical habitat and protected area, including the watershed areas that provide water and other ecosystem services to the local community and tourism services to visitors of the Puerto Princesa Subterranean River National Park.

The Priceless Planet Coalition aims to restore 100 million trees in the places with significant potential for positive impacts on community, climate and biodiversity.

The Palawan, Philippines, site is home to one of many projects across six continents.

Photo credit: Jesus Pagliawan

Woman watering crops in Palawan, Philippines

Nature of the terrain

Hilly to mountainous.

Project goals

Restore 417,500 trees, sequester 8,350 tonnes of CO2* and restore 575 hectares of land.

Photo credit: Jesus Pagliawan

Puerto Princesa national park, Philippines.

Restoration methods

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees. This does not include any active tree planting.

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Photo credit: Jesus Pagliawan

Beautiful view of green mountains, Philippines.

Tree species

Native tree species such as:

  • Narra (Pterocarpus indicus)
  • Molave (Vitex parviflora)
  • Kalumpit (Terminalia microcarpa)
  • Ipil (Intsia bijuga)
  • Dao (Dracontomelon dao)
  • Apitong (Dipterocarpus grandiflorus)
  • Kalantas (Toona calantas)
  • Red nato (Palaquium luzoniense)

Fruit tree species such as:

  • Lanzones (Lansium domesticum)
  • Rambutan (Nephelium lappaceum)
  • Calamansi/Philippine lemon (Citrofortunella microcarpa)
  • Pomelo (Citrus maxima)
  • Guyabano/Soursop (Annona muricata)

Three initiatives to restore degraded forests in France, Spain and Portugal

Reforest’Action is partnering with Conservation International to restore the damaged landscapes affected by hazards, through reforestation of dying forests or the creation of new ones, in an effort to enhance their multiple environmental, social and economic benefits over the long term.

The Priceless Planet Coalition aims to restore 100 million trees in the places with the greatest potential for community, climate and biodiversity benefits.

The Proença-a-Nova, Portugal, site is home to one of many projects across six continents.

France

Map source: Reforest’Action

Map of France.

Spain

Map source: Reforest’Action

Map of Spain.

Portugal

Map source: Reforest’Action

Map of Portugal.

Portugal: Proença-a-Nova

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France: Chantilly forest, Oise

Photo credit: Reforest’Action

Chantilly forest, Oise, France.

Spain: Palencia, Castile and Leon Autonomous Community

Photo credit: Reforest’Action

Spain, Palencia.

Project goals

Restore 60,000 trees in France, 50,400 trees in Spain, 39,600 trees in Portugal, sequester 3,000 tonnes of CO2* and restore 175 hectares of land.

Restoration methods

France

Active tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil or from natural seed dispersal from nearby trees.

Spain

Active tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Portugal

Active tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Tree species

France:

  • Chestnut (Castanea)
  • Sessile oak (Quercus petraea)
  • Beech (Fagus spp)
  • Basswood (Tilia americana)
  • Cherry (Prunus avium)
  • Maritime pine (Pinus pinaster)
  • Black ash (Fraxinus nigra)
  • Scots pine (Pinus sylvestris)
  • Birch (Betula spp)
  • Hornbeam (Carpinus spp)

Spain:

  • Aleppo pine (Pinus halepensis)
  • Black pine (Pinus nigra)
  • Maritime pine (Pinus pinaster)
  • Umbrella pine (Sciadopitys verticillata)
  • Juniper (Juniperus communis L.)
  • Portuguese oak (Quercus faginea)
  • Holm oak (Quercus ilex)
  • Cork oak (Quercus suber)

Portugal:

  • Maritime pine (Pinus pinaster)
  • Cork oak (Quercus suber)
  • Strawberry (Arbutus unedo)

Restoring Scotland’s rainforest

In Scotland, Conservation International is partnering with Argyll and the Isles Coast and Countryside Trust to restore, expand or connect existing pockets of remnant Scottish rainforest habitat found in Argyll. Restoring these types of diverse, long-standing native woodlands can play a key role in tackling the twin biodiversity and climate crisis the planet faces and help to maintain the connection between Argyll’s rainforest and the communities who visit, live and work in it.

Nature of the terrain

Argyll and Bute’s rainforest, known as temperate rainforest, consists of an increasingly rare and threatened habitat of ancient native woodland, open glades, boulders, rocky cliffs and river gorges that form a backdrop for some of the best scenery in Argyll and Bute. The hyper-oceanic climate, gentle slopes, deeply penetrating sea lochs and island network of Argyll and Bute provide perfect growing conditions for the lower or nonvascular plants that define this diverse and unique temperate rainforest habitat.

Photo credit: Ian Dow

Red eyed shingle lichen lungworts.

Project goals

Restore 100,000 trees, sequester 2,000 tonnes of CO2* and restore 55 hectares of land.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees. This does not include any active tree planting.

Tree species

Preliminary list includes:

  • Sessile oak (Quercus petraea)
  • Downy birch (Betula pubescens)
  • Rowan (Sorbus aucuparia)
  • Alder (Alnus glutinosa)
  • Willow (Salix various)
  • Aspen (Populus tremula)
  • Wych elm (Ulmus glabra)
  • Hazel (Corylus avellana)
  • Crab apple (Malus sylvestris)
  • Wild cherry (Prunus avium)
  • Hawthorn (Crataegus monogyna)
  • Blackthorn (Prunus spinosa)
  • Elder (Sambucus nigra)
  • Holly (Ilex aquifolium)
  • Juniper (Juniperus communis)

Protecting one of earth’s most threatened biodiversity hotspots

Situated in a global biodiversity hotspot and UNESCO World Natural Heritage Site, the Atlantic Forest biome is one of the most critical biodiversity conservation hotspots in the world. The Abrolhos land and seascape is a global forest restoration priority area due to the optimization of carbon sequestration potential, biodiversity gains and lower risks of fires, and will be the first large-scale restoration effort to maximize climate, biodiversity and community benefits. This project will play an instrumental role in connecting protected areas, where most of the remaining forest remnants lie.

Brazil, Abrolhos Land map. Map source: Conservation International

Project goals

Restore 8,750,000 trees, sequester 175,000 tonnes of CO2* and restore 1,980 hectares of land.

Restoration methods

Active tree planting the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil or from natural seed dispersal from nearby trees.

Applied nucleation/tree islands a form of enrichment planting where trees are planted in groups, clusters or even rows, dispersed throughout an area, to encourage natural regeneration in the matrix between the non-planted areas.

Photo credit: Conservation International

Abrolhos Land, Brazil.

Photo credit: Conservation International

Growing plants, Brazil.

Tree species

A diverse group of 37 species of native trees, such as:

  • Aroeirinha (Schinus terebinthifolia Raddi)
  • Boleiro (Joannesia princeps Vell.)
  • Cajá (Spondias lutea L.)
  • Cajú (Anacardium occidentale L.)
  • Gurindiba (Trema micrantha L.)
  • Ingá-cipó (Inga edulis Mart.)
  • Ingá-feijão (Inga cylindrica (Vell.) Mart.)
  • Ingá-ferradura (Inga sessilis (Vell.) Mart.)

Combatting deforestation while protecting biodiversity

Protecting and restoring the Amazon and the Atlantic forests in Brazil will not only have an enormous impact on climate but will also help to safeguard the greatest biodiversity and freshwater reserves on Earth.

The Amazon has already lost almost 20% of its original forest cover. The Atlantic forest, a biodiversity hotspot, has lost more than 80% of its cover since European colonization. Scientists warn that if deforestation continues, the region can cross a tipping point, resulting in harsh climate impacts across the area and entire country.

In both biomes, forest restoration represents a new and green paradigm of development. Beyond benefiting the climate and environment, forest restoration efforts will engage and directly benefit local communities and promote a local sustainable economy through the restoration chain. To achieve this, various methods will be adapted to different regions and realities with an aim to maximize carbon sequestration, biodiversity and social benefits.

Map source: CI Brazil

Map of Brazil.

Nature of the terrain

In the Amazon biome, the project will take place in four regions:

  1. Private lands in the Xingu River basin in central Amazon (Mato Grosso and Pará states): originally covered by dense and open ombrophilous forests, this region was extensively deforested for agricultural purpose. The restoration efforts will take place in riparian areas to protect the Xingu River and the people who rely on this river.
  2. Rural settlements in the Endemism Centre of Belém in the eastern Amazon (Maranhão state): originally covered by dense ombrophilous forests, this region was extensively deforested for cattle ranching. The restoration efforts will take place in legal reserves, a proportion of land that must have forest cover.
  3. Protected area of the Madeira River basin (Rondônia state): originally covered by open ombrophilous forests.
  4. Protected area in the Atlantic forest biome (Bahia state): originally covered by dense ombrophilous forests. In the above biomes, forests are mostly evergreen tropical forest.

Project goals

Restore 2,000,000 trees, sequester 40,000 tonnes of CO2* and restore 1,054 hectares of land.

Photo credit: CI Brazil

Picking lemons in Brazil.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Direct seeding: the active dispersal of seeds (preferably ecologically diverse, native seed mixes) that will allow for natural regeneration to occur, provided the area is protected from disturbances. This is a differentiated category from planting young trees.

Assisted natural regeneration: the exclusion of threats (i.e. grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees. This does not include any active tree planting.

Applied nucleation: a form of enrichment planting where trees are planted in groups, clusters or even rows, dispersed throughout an area, to encourage natural regeneration in the matrix between the non-planted areas.

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Silvopasture: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) on pasture land where tree cover was absent in a way that improves the agricultural productivity and ecological function of a site for continued use as pasture.

Photo credit: CI Brazil

Planting trees, Brazil

Tree species

More than 150 native tree species and at least 17 native species of sociocultural value for non-timber forest products, including:

  • Ipe (Handroanthus serratifolius)
  • Pequi (Caryocar brasiliense)
  • Cupuaçu (Theobroma grandiflora)
  • Jatoba (Hymenaea courbaril)
  • Pitanga (Eugenia uniflora)
  • Rubber tree (Hevea brasiliensis)

MUSESI: Restoration of culturally and environmentally strategic areas of the Sierra Nevada by its native peoples

The Sierra Nevada de Santa Marta represents the majority of all the biomes of Colombia and is characterized with high diversity and endemism with several irreplaceable ecosystems. Conservation International, in a joint effort with Indigenous communities, will restore 1,000 hectares that have suffered a strong colonization process with extensive livestock farming, resulting in deforestation and land degradation. The aim is to enhance adaptation and resilience to climate change, restore critical ecosystems to a variety of species of fauna and flora, and reduce forest fragmentation by gradually reestablishing environmental conditions of forest remnants and alterations in biological interactions. The project also aims to reduce the loss of tree species, ecosystem functional types and landscape hectares.

The Priceless Planet Coalition aims to restore 100 million trees in the places with the greatest potential for community, climate and biodiversity benefits.

The Sierra Nevada, Colombia, site is home to one of many projects across six continents.

Map copyright: Conservation International

Map of the Sierra Nevada, Colombia.

Project goals

Restore 3,207,000 trees, sequester 64,140 tonnes of CO2* and restore 2,850 hectares of land.

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Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Enrichment planting: the strategic reestablishment of key tree species in a forest that is ecologically degraded due to lack of certain species, without which the forest is unable to naturally sustain itself.

Photo credit: Luis Hernandez, Conservation International

Conservation International team with Indigenous communities.

Photo credit: Luis Hernandez, Conservation International

Planting trees.

Tree species

Over 113 species including:

  • Cedro Rosado (Cedrela odorata)
  • Nogal cafetero (Cordia alliodora)
  • Guayacan (Tabebuia chrysantha)
  • Orejero (Enterolobium cyclocarpum)
  • Dinde mora (Maclura tinctoria)
  • Caoba (Swietenia macrophylla)
  • Cambulo (Erythrina poeppigiana)
  • Dividivi (Caesalpinia spinosa)
  • Guacimo (Guazuma ulmifolia)
  • Moringa (Moringa oleifera)
  • Algarrobo (Hymenaea courbaril)
  • Dinde mora (Maclura tinctoria)
  • Ceiba tolúa (Pachira quinata)

Acción Andina’s larger vision is to restore and protect one million hectares of high Andean forest ecosystems across all seven Andean countries over the next two decades for high impact water security.

Through their Priceless Planet Coalition project they are a step closer to achieving that goal, as they will be restoring 360 hectares across Ecuador and Peru.

Map source: Global Forest Generation and ECOAN

Map of region, Ecuador and Peru.

Nature of the terrain

The terrain consists of steep, rocky slopes at high altitude (2,500–4,500 m).

Project goals

Restore 1,114,471 trees, sequester 22,289 tonnes of CO2* and restore 401 hectares of land.

Photo credit: Global Forest Generation and ECOAN

Restoring High Andean.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Photo credit: Global Forest Generation and ECOAN

Steep rocky slopes, High Andean.

Tree species

All native, high Andean species — approximately 80% Polylepis species and 20% other high Andean species:

  • Polylepis pauta
  • Polylepis incana
  • Polylepis reticulata
  • Polylepis racemosa
  • Alnus acuminata
  • Gynoxys spp
  • Escallonia resinosa

The dense forests of Guatemala seem to go on forever. After all, the country’s name means “the place of many trees” in the Nahuatl language. Forests cover 33% of the land, and Guatemala is home to the world-famous Maya Biosphere Reserve, where Indigenous communities protect and sustainably manage about 450,000 hectares of forest ecosystems.

Nature of the terrain

This project is centred around the city of Cobán and will operate throughout the northern part of Guatemala within the Las Verapaces region. Geographically, the terrain is mountainous, made up of valleys, plains and steep terrain. The cooperatives in this area cover over 5,000 hectares of land and are the prime producer of many profitable crops, including coffee and cardamom, that have high market value.

The area in which the Federation of Cooperatives of the Verapaces (FEDECOVERA) operates has been degraded in recent years, and much of the land is currently dry pastureland with limited crop-growing potential. By embracing agroforestry, trees and crops will regreen the planting sites, increase crop yields and reshape the landscape for the better.

Project goals

Restore 500,000 trees, sequester 10,000 tonnes of CO2* and restore 670 hectares of land.

Photo credit: FEDECOVERA/Priceless Planet Coalition

Women working in tree nursery.

Restoration methods

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Photo credit: FEDECOVERA/Priceless Planet Coalition

A group of people have discussion.

Tree species

Most of the tree species that will be used for this project are native to Guatemala, and FEDECOVERA will acquire seeds from the National Forest Institute (INAB).

  • Calophyllum brasiliense
  • Tabebuia donnell-smithii
  • Dalbergia tucurensis
  • Pinus maximinoi
  • Pinus oocarpa
  • Cedrela odorata
  • Tabebuia rosea
  • Terminalia amazonia
  • Vochysia guatemalensis

Restoring critical landscapes within one of the world’s most biodiverse regions

The Oaxaca-Chiapas flagship landscape, localized in the southeast of Mexico, contains 70% of the biodiversity of North America — ranking it among the five most important regions in the world for its mega-diversity. The three landscapes (Sierra Madre, Sierra Sur and Oaxaca-Chiapas coastal landscapes) comprise 2,618,250 ha, in which 17,366 ha are identified as a restoration opportunity under the Priceless Planet Coalition™ program. This will contribute to the conservation of at least ten Protected Natural Areas and preserve fifteen priority species of animals and plants facing varying degrees of threat, through the reforestation of buffer areas and the establishment of sustainable production systems.

The Priceless Planet Coalition aims to restore 100 million trees in the places with the greatest potential for community, climate and biodiversity benefits.

The Oaxaca, Mexico, site is home to one of many projects across six continents.

Map source: Conservation International

Map of the Mexico region.

Project goals

Restore 7,650,000 trees, sequester 153,000 tonnes of CO2* and restore 12,273 hectares of land.

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poster

Restoration methods

Active tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil or from natural seed dispersal from nearby trees.

Enrichment planting: the strategic reestablishment of key tree species in a forest that is ecologically degraded due to lack of certain species, without which the forest is unable to naturally sustain itself.

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Silvopasture: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) on pasture land where tree cover was absent in a way that improves the agricultural productivity and ecological function of a site for continued use as pasture.

Applied nucleation/tree islands: a form of enrichment planting where trees are planted in groups, clusters or even rows, dispersed throughout an area, to encourage natural regeneration in the matrix between the non-planted areas.

Photo credit: Jessica Scranton

Conservation area, man rowing a boat, Mexico

Photo credit: Alfredo Bernabe

People caring for tree seedlings, Mexico.

Tree species

Tropical forests:

  • Manjack (Cordia L.)
  • Leadtrees (Leucaena)
  • Trumpet trees (Tabebuia)
  • Mahogany (Swietenia)
  • Snakewood (Brosimum)
  • Cacao (Theobroma cacao)
  • Spanish cedar (Cedrela)

Coniferous forest:

  • Mexican white pine (Pinus ayacahuite)
  • Mexican yellow pine (Pinus oocarpa)
  • Guatemalan fir (Abies guatemalensis)
  • Montezuma pine (Pinus montezumae)

Mesophilic forest:

  • Oak (Quercus spp)
  • Ocotea salvinii
  • Horse sugar (Symplocos hartwegii)
  • Ocotea helicterifolia
  • Dragon’s blood (Croton lechleri)
  • Mexican oak (Quercus acutifolia)
  • Mexican bay leaf (Litsea glaucescens)

Tropical dry forest:

  • Leadtrees (Leucaena)
  • Forest lilac (Gliricidia sepium)
  • West Indian elm (Guazuma ulmifolia)

Mangroves:

  • Black mangrove (Avicennia germinans)
  • Avicennia bicolor
  • Red mangrove (Rhizophora mangle)
  • Button mangrove (Conocarpus erectus)
  • White mangrove (Laguncularia racemosa)
  • Arabica coffee (Coffea arabiga var. Typica)

The highlands near Idiofa in the Democratic Republic of Congo (DRC) have suffered from severe deforestation. The overexploitation of natural resources in the region has led to the severe degradation of the soil and vegetation, which has made more than 1.5 million local people vulnerable to climate change and natural disasters. In total, more than 240,000 hectares of forests have been lost in the past 50 years.

Nature of the terrain

The project will reinforce the fragmentated forests that protect the local rivers, including the Kasai, which marks the frontier with the large Congo Basin rainforest. The project area is characterized by a tropical and humid climate with a nine-month rainy season (from September to May), which is the best time for tree planting.

Photo credit: Faja Lobi/Priceless Planet Coalition

Trees nursery.

Project goals

Restore 4,350,000 trees, sequester 87,000 tonnes of CO2* and restore 4,350 hectares of land.

Photo credit: Faja Lobi/Priceless Planet Coalition

Training process.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees. This does not include any active tree planting.

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Tree species

  • Millettia laurentii
  • Pentaclethra macrophylla
  • Acacia auriculiformis
  • Albizia adianthifolia
  • Chlorophora/Milicia
  • Entandrophragma cilindricum
  • Uapaca mole
  • Hevea o Maesopsis eminii
  • Canarium
  • Ricinodendron o Dialium

Driving impact for national goals and local communities

Forest and landscape restoration is a key pillar within Kenya’s Nationally Determined Contributions to the Paris Agreement. As such, this project will be a major contributor to Kenya’s efforts to curb its emissions and capture carbon in its forests and agroforestry landscapes.

The resulting impact on local communities will be significant. Reforesting these important catchment areas can help to store more water within the soils, regulating its release into rivers and streams. The tree roots will also bind the soil along the river buffers, helping improve water quality downstream. Food production will be improved as well. This catchment restoration will create reliable sources of water, and the planting of a mix of high-value fruit trees will create crops that can be consumed locally and sold to markets.

Map source: WRI Kenya

Map of region, Kenya.

Nature of the terrain

Located inland within Kenya’s semi-arid ecozone, the Makuli Nazaui landscape experiences severe droughts throughout the year. This leaves only two rainy seasons before which major tree planting activities can take place. Largely hilly with a mix of rocky and sandy soils, there are two larger hills/mountains where the Makuli and Nzaui forests reside (parts of which are designated as officially protected areas).

The lower lands in between the forested hills are dominated by cropland with the flattest and driest areas being used primarily for grazing livestock.

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poster

Project goals

Restore 890,400 trees, sequester 17,808 tonnes of CO2* and restore 3,545 hectares of land.

Photo credit: WRI Kenya

View of Makuli Nazaui landscape, Kenya.

Restoration methods

Tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Enrichment planting: the strategic reestablishment of key tree species in a forest that is ecologically degraded due to lack of certain species, without which the forest is unable to naturally sustain itself.

Assisted natural regeneration: the exclusion of threats (i.e. grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil, or from natural seed dispersal from nearby trees. This does not include any active tree planting.

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Tree species

  • Podocarpus falcatus
  • Vitex keniensis
  • Terminalia brownii
  • Ficus sycamorus
  • Bambusa vulgaris
  • Croton megalocarpus
  • Balanites aegyptiaca
  • Dalbergia melanoxylon
  • Melia volkensii
  • Varietes of Acacia: senegal, albida, seyal, hockii, tortilis, xanthophloea
  • Combretum molle, collinum
  • Commiphora africana, campestris
  • Varietes of Mango (Mangifera indica)
  • Varietes of Papaya (Carica papaya)
  • Varietes of Citrus (Citrus)
  • Grevillea robusta
  • Markhamia lutea
  • Azadirachta indica
  • Jacaranda Mimosifolia

Map of region, Madagascar. Map source: Jeannicq Randrianarisoa

Watershed restoration to benefit biodiversity and the local economy

Lake Alaotra is the largest lake in Madagascar, a Ramsar site whose watershed provides water to the island’s main rice-growing region and contributes to the production of freshwater fish. The flagship landscape for restoration is neighbouring the Lake Alaotra region and contiguous to the Zahamena and Corridor Ankeniheny-Zahamena protected areas. There is no restoration program in Madagascar at this scale that combines diverse cost-effective restoration strategies backed by local knowledge and science. Led by local stakeholders, implementation of this flagship project will contribute to climate mitigation and adaptation and benefit the local economy and biodiversity.

Nature of the terrain

Freshwater, watershed and wetland

Project goals

Restore 9,000,000 trees, sequester 180,000 tonnes of CO2* and restore 3,000 hectares of land.

Photo credit: Johnson Rakotonaiana

Madagascar animal.

Restoration methods

Active tree planting: the planting of seedlings over an area with little or no forest canopy to meet specific goals.

Assisted natural regeneration: the exclusion of threats (i.e., grazing, fire, invasive plants) that had previously prevented the natural regrowth of a forested area from seeds already present in the soil or from natural seed dispersal from nearby trees.

Applied nucleation/tree islands: a form of enrichment planting where trees are planted in groups, clusters or even rows, dispersed throughout an area, to encourage natural regeneration in the matrix between the non-planted areas.

Agroforestry: the intentional mixing and cultivation of woody perennial species (trees, shrubs, bamboos) alongside agricultural crops in a way that improves the agricultural productivity and ecological function of a site.

Direct seeding: the active dispersal of seeds (preferably ecologically diverse, native seed mixes) that will allow for natural regeneration to occur, provided the area is protected from disturbances. This is a differentiated category from planting young trees.

Photo credit: Bruno Rajaspera

Madagascar, dry rice field in the watershed.

Tree species

Native species:

  • Dombeya (Dombeya spp)
  • Macaranga (Macaranga spp)
  • Hemp (Trema orientalis)
  • Croton mongue (Croton mongue)
  • Spurge (Euphorbia tetraptera)
  • Canthium (Canthium spp)

ANR species:

  • Sweetwood (Ocotea spp)
  • Symphonia spp
  • Weinmannia spp
  • Prothorus dintimena
  • Sugar plum (Uapaca spp)
  • Sary (Beilschmiedia oppositifolia)

Direct seeding species:

  • Copal (Trachylobium verrucosum)

Enrichment planting species:

  • Rosewood (Dalbergia spp)
  • Sweetwood (Ocotea spp)
  • Pacific almond (Canarium madagascariensis)

Agroforestry species:

  • Coffee (Coffea spp)
  • Cloves (Syzygium aromaticum)

*Estimated carbon sequestration is 20 kg of CO2e per tree accumulated over five years, based on low estimates of dry and humid tropical growth rates from global restoration databases.

Actual carbon impact of each Priceless Planet Coalition restoration project will be assessed after five years based on data collected throughout the monitoring process.