"MiniBigForest" ou comment faire pousser 300 arbres sur l’équivalent de 6 places de parking ! Même si l’idée peut paraître surprenante, c’est possible. La méthode, qui consiste à créer une micro-forêt native, a été mise au point par un botaniste japonais, Akira Miyawaki : 10 fois plus rapide, 30 fois plus dense, 100 fois plus
Cette méthode de plantation dense de jeunes arbres dans des espaces urbains connaît un fort engouement en France. Elle a ses adeptes et ses détracteurs. Mais que vaut-elle vraiment ?
"MiniBigForest" ou comment faire pousser 300 arbres sur l’équivalent de 6 places de parking ! Même si l’idée peut paraître surprenante, c’est possible. La méthode, qui consiste à créer une micro-forêt native, a été mise au point par un botaniste japonais, Akira Miyawaki : 10 fois plus rapide, 30 fois plus dense, 100 fois plus
Armés de pelles et de leur entousiasme, les élèves des écoles de Péruwelz ont planté 1000 arbres dans un zoning industriel en construction. Une mini-forêt qui démontre que l'on peut concilier nature et activités économiques. Et remettre un peu de "vert" dans nos vies quotidiennes.
The Miyawaki method, also called the Potted Seedling Method, is an afforestation technique that uses native species to create dense, multilayered forests.
L'association MOTRIS porte depuis plusieurs années un projet de plantation participative pour la création de forêts urbaines au cœur de la métropole... Les premières plantations ont vu le jour cet automne à Metz et Marly ! Pourquoi planter des arbres ? - Pour compenser notre empreinte carbone : la forêt est la meilleure solution pour le climat et la biodiversité (puits/stockage de carbone, régulateur du climat, ...), - Pour avoir un impact sur la qualité de l'air, de l'eau, de la vie animale
Densely packed and tiny Miyawaki forests are springing up around Europe as a way to preserve nature, and restore biodiversity.
Armés de pelles et de leur entousiasme, les élèves des écoles de Péruwelz ont planté 1000 arbres dans un zoning industriel en construction. Une mini-forêt qui démontre que l'on peut concilier nature et activités économiques. Et remettre un peu de "vert" dans nos vies quotidiennes.
environnement. L’objectif est de planter 5 000 arbres.
L'association MOTRIS porte depuis plusieurs années un projet de plantation participative pour la création de forêts urbaines au cœur de la métropole... Les premières plantations ont vu le jour cet automne à Metz et Marly ! Pourquoi planter des arbres ? - Pour compenser notre empreinte carbone : la forêt est la meilleure solution pour le climat et la biodiversité (puits/stockage de carbone, régulateur du climat, ...), - Pour avoir un impact sur la qualité de l'air, de l'eau, de la vie animale
Armés de pelles et de leur entousiasme, les élèves des écoles de Péruwelz ont planté 1000 arbres dans un zoning industriel en construction. Une mini-forêt qui démontre que l'on peut concilier nature et activités économiques. Et remettre un peu de "vert" dans nos vies quotidiennes.
L'association MOTRIS porte depuis plusieurs années un projet de plantation participative pour la création de forêts urbaines au cœur de la métropole... Les premières plantations ont vu le jour cet automne à Metz et Marly ! Pourquoi planter des arbres ? - Pour compenser notre empreinte carbone : la forêt est la meilleure solution pour le climat et la biodiversité (puits/stockage de carbone, régulateur du climat, ...), - Pour avoir un impact sur la qualité de l'air, de l'eau, de la vie animale
Armés de pelles et de leur entousiasme, les élèves des écoles de Péruwelz ont planté 1000 arbres dans un zoning industriel en construction. Une mini-forêt qui démontre que l'on peut concilier nature et activités économiques. Et remettre un peu de "vert" dans nos vies quotidiennes.
The Miyawaki Method is one of the most effective tree planting methods for creating forest cover quickly on degraded land that has been used for other purposes such as agriculture or construction. It is effective because it is based on natural reforestation principles, i.e. using trees native to the area and replicating natural forest regeneration processes. It has some significant benefits over more traditional forestry methods when used in smaller afforestation projects and is particularly effective in the urban environment. The trees planted by this method grow much faster, jump starting the forest creation process and capturing more carbon. Higher biodiversity has been recorded in Miyawaki forests than in neighbouring woodland, so it’s an ideal method for creating diverse forest ecosystems quickly. Within the context of the current climate change emergency and stark warnings about the global loss of biodiversity, being able to create diverse, healthy forests quickly could prove vital to meeting international targets and tackling these issues.Two year old Miyawaki Forest. Photo credit: AfforesttMiyawaki Method principlesThe essential principle of the Miyawaki method is using species of trees that would occur naturally in that area and that work together to create a diverse, multi-layered forest community. This creates a resilient and thriving forest ecosystem with species that complement each other, restoring “native forests by native trees”. The selection of species to plant in a given area was originally linked to the theory of potential natural vegetation (PNV), in other words the vegetation that would occur in a specific area without further human interference. Extensive surveys have been carried out globally to determine the PNV across the world (see Hengl et al. 2018 for a summary), although there is fierce debate about the most effective way of defining ‘native’ species. In the UK the PNV is predominantly oak or oak/ash woodland, with beech woodland in the South East of England and boreal pine forest in Scotland. Estuarine and wet woodlands occur in specific habitats, particularly around The Wash and on the Somerset Levels. In spite of the inherent difficulties in defining native species, those that are adapted to local conditions (in the UK oak, willow, birch for example) will fare better and contribute more to increasing biodiversity than more recently introduced species (e.g horse chestnut, plane).One of the most noticeable differences in a Miyawaki forest is that the seedlings are planted at very high densities. This replicates the regeneration process that occurs in a natural forest when a clearing in the canopy opens up due to a larger tree falling. The saplings grow very fast to compete for the light and then natural selection will favour the fastest growing individuals and act to thin out the trees. The result is a densely packed pioneer forest that grows in 20 to 30 years instead of taking 150 to 200 years. This has obvious benefits for projects that are working to maximise a forest’s carbon sequestration potential or recreate habitat for biodiversity and wildlife.Afforestt Clifton Park project, Karachi, after planting and 2 years later. Photo credit: AfforesttThe history of the Miyawaki Method The Miyawaki Method is named after its creator, Akira Miyawaki, a Japanese botanist and plant ecologist who has a particular interest in phytosociology, i.e. how plant species interact with each other within communities. Following the completion of a PhD in plant ecology, Miyawaki went to study with phytosociologist Reinhold Tüxen in Germany, where he learned about the concept of potential natural vegetation. When he returned to Japan and applied the PNV principles to the Japanese landscape, he became interested in the relics of ancient forests found around temples and shrines, known as Chinju-no-mori, sacred groves. These fragments of forest were composed of trees such as Japanese blue oak (Quercus glauca), Japanese chestnut (Castanea crenata) and Sakaki (Cleyera japonica), rather than the coniferous trees such as larch (Larix kaempferi) and Japanese cedar (Cryptomeria japonica), which had been introduced from other areas and dominated local forests. There was also a distinct layering in the forest structure, with slow-growing canopy species, tree layer species, smaller sub-tree layer species, shrubs and ground covering herbs.When Miyawaki combined these concepts, he developed a new way of planting forests. This was based on the native vegetation that he postulated should be growing in that area, as deduced from PNV studies, and his understanding of how these species would interact and grow to produce a dynamic forest ecosystem. His early field trials showed great promise that this method could dramatically accelerate forest growth and result in a stable and diverse forest ecosystem. Since then Miyawaki forests have been successfully planted on more than 3000 sites globally.How to plant forest using the Miyawaki MethodSurvey local forest fragments and identify PNV tree species that are best suited to the conditions Determine the forest community structure – identify the main canopy and tree layer species and select companion species based on their compatibility with the key species. This is assessed by looking at local indigenous vegetation and analysis of forest structures elsewhere in the worldConduct a soil survey to help decide on the type of mulch and soil nutrients requiredCollect seeds from local trees to grow seedlings or obtain seedlings of local variants of tree species. There are specific recommendations for how to raise the seedlings including growing them under shaded coversApply a mulch made from local materials to protect and nourish the seedlings – this simulates the protection offered by humus / leaf litter in a natural forestTreat the soil and the seedlings with soil improvers or a mycorrhizal improverPlant the seedlings randomly and at high density, 20,000 to 30,000 per hectare instead of 1,000 per hectare, with stakes for supportWater regularly and keep the site weed free for the first 2 yearsAfforestt St Gobain project after planting and 5 months later. Photo credit: AfforesttWhat are the benefits? Trees in a Miyawaki forest grow up to ten times faster at around a metre per year, reaching a stable multi-layered forest community in 20 to 30 years instead of hundreds of yearsThe growing trees absorb more carbon in a Miyawaki forest than in a plantation or in standard afforestation projects because they grow more quickly and there are thirty times as manyThe Miyawaki method has been successful where other planting projects have failed, such as in arid Mediterranean habitats, due to high survival ratesNative trees thrive in the conditions to which they are adapted and are more resilient to environmental changes Miyawaki forests have been found to have far higher biodiversity than neighbouring woodland, on average 18 times higherApplications of the Miyawaki Method The Miyawaki Method has been used successfully around the world in over 3000 projects and the numbers are now also rising in Europe. The ability to create a dense native forest quickly has made the technique useful for creating urban micro forests, for restoring rainforest and Japanese evergreen broadleaf forests and for planting in arid Mediterranean habitat where other forestry techniques have not been successful. Miyawaki forests have also proven effective when used for a specific purpose, such as providing tsunami protection, stabilising mine dump slopes, as typhoon protection and for carbon sequestration. There has been particular focus on planting Miyawaki forests in urban environments as there are significant benefits to tree planting in towns and cities, and this method maximises the space available. Urban forests reduce local temperatures (-1.3°C in one study), improve air quality by reducing pollutants, sequester carbon, and improve the wellbeing of residents, as well as creating a natural oasis for invertebrates and birds. There remains, however, much scope for research on the Miyawaki method. In particular the carbon sequestration rates could be significantly higher than on forest plantations because of the density both at planting and at the final forest stage.Miyawaki Forest. Photo credit: AfforesttCriticism of technique There has been significant criticism of the concept of Potential Natural Vegetation, although very little of the Miyawaki Method itself. In particular, the idea of using fixed compositions of vegetation has garnered criticism because ecosystems are not static. There is no denying, however, that having a concept of the best adapted vegetation to a particular area can help afforestation projects to create forests that benefit native wildlife. Many research studies still use PNV as a tool to identify potential species that would be expected to occur in an area, whilst also acknowledging its limitations.The Miyawaki method itself has been criticised for creating forests that look monotonous because the trees are all the same age. However, the diversity inherent in the planting and the biodiversity recorded at the sites demonstrate that a functioning ecosystem has been created, and that the appearance of the forests is more of an aesthetic issue. It is a more expensive method of planting because it requires more seedlings to cover a certain area, but the rapidity of the forest growth and the minimal maintenance required recompense some of that expenditure. The Miyawaki Method is an effective way of jump starting the creation of a forest or woodland, with considerable benefits for carbon capture and recreating biodiversity. At Creating Tomorrow’s Forests we employ the Miyawaki Method alongside restoration of other habitats such as ponds and meadows, to create diverse, rich forest ecosystems for people and wildlife.
The Japanese practice of shinrin-yoku, or forest bathing, is capturing the imagination of people around the world, with ...
As climate change looms, scientists seek ways to reduce the release of carbon. Sometimes a low-tech approach is overlooked: conserving forests.
The Japanese practice of shinrin-yoku, or forest bathing, is capturing the imagination of people around the world, with ...
L'association MOTRIS porte depuis plusieurs années un projet de plantation participative pour la création de forêts urbaines au cœur de la métropole... Les premières plantations ont vu le jour cet automne à Metz et Marly ! Pourquoi planter des arbres ? - Pour compenser notre empreinte carbone : la forêt est la meilleure solution pour le climat et la biodiversité (puits/stockage de carbone, régulateur du climat, ...), - Pour avoir un impact sur la qualité de l'air, de l'eau, de la vie animale
Armés de pelles et de leur entousiasme, les élèves des écoles de Péruwelz ont planté 1000 arbres dans un zoning industriel en construction. Une mini-forêt qui démontre que l'on peut concilier nature et activités économiques. Et remettre un peu de "vert" dans nos vies quotidiennes.
environnement. L’objectif est de planter 5 000 arbres.
Nettoyage, affûtage, stockage… Découvrez toutes les étapes pour entretenir ses outils de jardinage avant l’arrivée de l’hiver.
The Miyawaki method, also called the Potted Seedling Method, is an afforestation technique that uses native species to create dense, multilayered forests.
The Japanese practice of shinrin-yoku, or forest bathing, is capturing the imagination of people around the world, with ...
Permafforest, c’est avant tout le projet de re-végétaliser les zones urbaines et péri-urbaines en plantant des forêts natives.
L'association MOTRIS porte depuis plusieurs années un projet de plantation participative pour la création de forêts urbaines au cœur de la métropole... Les premières plantations ont vu le jour cet automne à Metz et Marly ! Pourquoi planter des arbres ? - Pour compenser notre empreinte carbone : la forêt est la meilleure solution pour le climat et la biodiversité (puits/stockage de carbone, régulateur du climat, ...), - Pour avoir un impact sur la qualité de l'air, de l'eau, de la vie animale
Nous concevons des forêts urbaines participatives à haut potentiel de biodiversité et de lien social, selon la méthode Miyawaki.
The Miyawaki Method is one of the most effective tree planting methods for creating forest cover quickly on degraded land that has been used for other purposes such as agriculture or construction. It is effective because it is based on natural reforestation principles, i.e. using trees native to the area and replicating natural forest regeneration processes. It has some significant benefits over more traditional forestry methods when used in smaller afforestation projects and is particularly effective in the urban environment. The trees planted by this method grow much faster, jump starting the forest creation process and capturing more carbon. Higher biodiversity has been recorded in Miyawaki forests than in neighbouring woodland, so it’s an ideal method for creating diverse forest ecosystems quickly. Within the context of the current climate change emergency and stark warnings about the global loss of biodiversity, being able to create diverse, healthy forests quickly could prove vital to meeting international targets and tackling these issues.Two year old Miyawaki Forest. Photo credit: AfforesttMiyawaki Method principlesThe essential principle of the Miyawaki method is using species of trees that would occur naturally in that area and that work together to create a diverse, multi-layered forest community. This creates a resilient and thriving forest ecosystem with species that complement each other, restoring “native forests by native trees”. The selection of species to plant in a given area was originally linked to the theory of potential natural vegetation (PNV), in other words the vegetation that would occur in a specific area without further human interference. Extensive surveys have been carried out globally to determine the PNV across the world (see Hengl et al. 2018 for a summary), although there is fierce debate about the most effective way of defining ‘native’ species. In the UK the PNV is predominantly oak or oak/ash woodland, with beech woodland in the South East of England and boreal pine forest in Scotland. Estuarine and wet woodlands occur in specific habitats, particularly around The Wash and on the Somerset Levels. In spite of the inherent difficulties in defining native species, those that are adapted to local conditions (in the UK oak, willow, birch for example) will fare better and contribute more to increasing biodiversity than more recently introduced species (e.g horse chestnut, plane).One of the most noticeable differences in a Miyawaki forest is that the seedlings are planted at very high densities. This replicates the regeneration process that occurs in a natural forest when a clearing in the canopy opens up due to a larger tree falling. The saplings grow very fast to compete for the light and then natural selection will favour the fastest growing individuals and act to thin out the trees. The result is a densely packed pioneer forest that grows in 20 to 30 years instead of taking 150 to 200 years. This has obvious benefits for projects that are working to maximise a forest’s carbon sequestration potential or recreate habitat for biodiversity and wildlife.Afforestt Clifton Park project, Karachi, after planting and 2 years later. Photo credit: AfforesttThe history of the Miyawaki Method The Miyawaki Method is named after its creator, Akira Miyawaki, a Japanese botanist and plant ecologist who has a particular interest in phytosociology, i.e. how plant species interact with each other within communities. Following the completion of a PhD in plant ecology, Miyawaki went to study with phytosociologist Reinhold Tüxen in Germany, where he learned about the concept of potential natural vegetation. When he returned to Japan and applied the PNV principles to the Japanese landscape, he became interested in the relics of ancient forests found around temples and shrines, known as Chinju-no-mori, sacred groves. These fragments of forest were composed of trees such as Japanese blue oak (Quercus glauca), Japanese chestnut (Castanea crenata) and Sakaki (Cleyera japonica), rather than the coniferous trees such as larch (Larix kaempferi) and Japanese cedar (Cryptomeria japonica), which had been introduced from other areas and dominated local forests. There was also a distinct layering in the forest structure, with slow-growing canopy species, tree layer species, smaller sub-tree layer species, shrubs and ground covering herbs.When Miyawaki combined these concepts, he developed a new way of planting forests. This was based on the native vegetation that he postulated should be growing in that area, as deduced from PNV studies, and his understanding of how these species would interact and grow to produce a dynamic forest ecosystem. His early field trials showed great promise that this method could dramatically accelerate forest growth and result in a stable and diverse forest ecosystem. Since then Miyawaki forests have been successfully planted on more than 3000 sites globally.How to plant forest using the Miyawaki MethodSurvey local forest fragments and identify PNV tree species that are best suited to the conditions Determine the forest community structure – identify the main canopy and tree layer species and select companion species based on their compatibility with the key species. This is assessed by looking at local indigenous vegetation and analysis of forest structures elsewhere in the worldConduct a soil survey to help decide on the type of mulch and soil nutrients requiredCollect seeds from local trees to grow seedlings or obtain seedlings of local variants of tree species. There are specific recommendations for how to raise the seedlings including growing them under shaded coversApply a mulch made from local materials to protect and nourish the seedlings – this simulates the protection offered by humus / leaf litter in a natural forestTreat the soil and the seedlings with soil improvers or a mycorrhizal improverPlant the seedlings randomly and at high density, 20,000 to 30,000 per hectare instead of 1,000 per hectare, with stakes for supportWater regularly and keep the site weed free for the first 2 yearsAfforestt St Gobain project after planting and 5 months later. Photo credit: AfforesttWhat are the benefits? Trees in a Miyawaki forest grow up to ten times faster at around a metre per year, reaching a stable multi-layered forest community in 20 to 30 years instead of hundreds of yearsThe growing trees absorb more carbon in a Miyawaki forest than in a plantation or in standard afforestation projects because they grow more quickly and there are thirty times as manyThe Miyawaki method has been successful where other planting projects have failed, such as in arid Mediterranean habitats, due to high survival ratesNative trees thrive in the conditions to which they are adapted and are more resilient to environmental changes Miyawaki forests have been found to have far higher biodiversity than neighbouring woodland, on average 18 times higherApplications of the Miyawaki Method The Miyawaki Method has been used successfully around the world in over 3000 projects and the numbers are now also rising in Europe. The ability to create a dense native forest quickly has made the technique useful for creating urban micro forests, for restoring rainforest and Japanese evergreen broadleaf forests and for planting in arid Mediterranean habitat where other forestry techniques have not been successful. Miyawaki forests have also proven effective when used for a specific purpose, such as providing tsunami protection, stabilising mine dump slopes, as typhoon protection and for carbon sequestration. There has been particular focus on planting Miyawaki forests in urban environments as there are significant benefits to tree planting in towns and cities, and this method maximises the space available. Urban forests reduce local temperatures (-1.3°C in one study), improve air quality by reducing pollutants, sequester carbon, and improve the wellbeing of residents, as well as creating a natural oasis for invertebrates and birds. There remains, however, much scope for research on the Miyawaki method. In particular the carbon sequestration rates could be significantly higher than on forest plantations because of the density both at planting and at the final forest stage.Miyawaki Forest. Photo credit: AfforesttCriticism of technique There has been significant criticism of the concept of Potential Natural Vegetation, although very little of the Miyawaki Method itself. In particular, the idea of using fixed compositions of vegetation has garnered criticism because ecosystems are not static. There is no denying, however, that having a concept of the best adapted vegetation to a particular area can help afforestation projects to create forests that benefit native wildlife. Many research studies still use PNV as a tool to identify potential species that would be expected to occur in an area, whilst also acknowledging its limitations.The Miyawaki method itself has been criticised for creating forests that look monotonous because the trees are all the same age. However, the diversity inherent in the planting and the biodiversity recorded at the sites demonstrate that a functioning ecosystem has been created, and that the appearance of the forests is more of an aesthetic issue. It is a more expensive method of planting because it requires more seedlings to cover a certain area, but the rapidity of the forest growth and the minimal maintenance required recompense some of that expenditure. The Miyawaki Method is an effective way of jump starting the creation of a forest or woodland, with considerable benefits for carbon capture and recreating biodiversity. At Creating Tomorrow’s Forests we employ the Miyawaki Method alongside restoration of other habitats such as ponds and meadows, to create diverse, rich forest ecosystems for people and wildlife.
Densely packed and tiny Miyawaki forests are springing up around Europe as a way to preserve nature, and restore biodiversity.
The Miyawaki method, also called the Potted Seedling Method, is an afforestation technique that uses native species to create dense, multilayered forests.
