Romanian old growth forest

5 Reasons Why Rewilding is so Important

Romanian old growth forest

Reasons for Rewilding

For anyone unfamiliar with the term ‘rewilding’ you’re likely to hazard a well educated guess that it’s an environmental movement aimed at reintroducing native flora and fauna. And yes, in terms of its benefits to wildlife conservation, you’d be right. However, as well as environmental stewardship, rewilding offers an abundance of not so obvious, but equally as important ecological, social and economic benefits. Here are five reasons why rewilding is so important.

1. Facilitating Trophic Cascades

2. Preventing Natural Disasters

3. Enhancing Local Economies

4. Fighting Climate Change

5. Reversing a 6th Mass Extinction of Species

For anyone unfamiliar with the term ‘rewilding’ you’re likely to hazard a well educated guess that it’s an environmental movement aimed at reintroducing native flora and fauna. And yes, in terms of its benefits to wildlife conservation, you’d be right. However, as well as environmental stewardship, rewilding offers an abundance of not so obvious, but equally as important ecological, social and economic benefits. Here are five reasons why rewilding is so important.

 

1. Facilitating Trophic Cascades

2. Preventing Natural Disasters

3. Enhancing Local Economies

4. Fighting Climate Change

5. Reversing a 6th Mass Extinction of Species

Facilitating Trophic Cascades

A trophic cascade takes place when animals at the top of a food chain change the numbers not just of their prey, but also of those species with which they have no direct connection. Their impacts cascade down the food chain, in some cases radically changing the ecosystem, the landscape and even the chemical composition of the soil and the atmosphere.

Take the case of how wolves changed rivers in Yellowstone National Park. After being hunted to extinction in the early 20th century, the wolves absence led to an imbalance in the food chain, setting off a trophic cascade in which elk (the wolves’ natural prey) multiplied. The phenomenon occurred again in reverse, when 15 wolves were reintroduced in 1994 and the natural balance was restored.

Two wolves play in a river

When reintroduced, the wolves not only preyed on the elk, reducing their numbers, but also changed the elk’s behavioural patterns. The elk began avoiding exposed areas like valleys and gorges where they could easily be hunted. As a result, those areas started to regenerate, and species such as birds, beavers, mice and bears returned. Plant life once again thrived along the riverbanks and erosion decreased significantly. The stabilization of the riverbanks actually made the rivers and streams change course.

Some critics argue that we should not seek to re-establish missing species until we’ve protected existing wildlife. But nothing better protects our ecosystems than keystone species. Beaver dams provide habitats for fish, water voles, otters and frogs, while protecting local towns and villages from flooding. In Ireland, the resurgence of the pine marten has pushed back the grey squirrel, allowing red squirrels to recolonise.

A pine marten on a log in woodland

Facilitating Trophic Cascades

A trophic cascade takes place when animals at the top of a food chain change the numbers not just of their prey, but also of those species with which they have no direct connection. Their impacts cascade down the food chain, in some cases radically changing the ecosystem, the landscape and even the chemical composition of the soil and the atmosphere.

Take the case of how wolves changed rivers in Yellowstone National Park. After being hunted to extinction in the early 20th century, the wolves absence led to an imbalance in the food chain, setting off a trophic cascade in which elk (the wolves’ natural prey) multiplied. The phenomenon occurred again in reverse, when 15 wolves were reintroduced in 1994 and the natural balance was restored.

Two wolves play in a river

When reintroduced, the wolves not only preyed on the elk, reducing their numbers, but also changed the elk’s behavioural patterns. The elk began avoiding exposed areas like valleys and gorges where they could easily be hunted. As a result, those areas started to regenerate, and species such as birds, beavers, mice and bears returned. Plant life once again thrived along the riverbanks and erosion decreased significantly. The stabilization of the riverbanks actually made the rivers and streams change course.

Some critics argue that we should not seek to re-establish missing species until we’ve protected existing wildlife. But nothing better protects our ecosystems than keystone species. Beaver dams provide habitats for fish, water voles, otters and frogs, while protecting local towns and villages from flooding. In Ireland, the resurgence of the pine marten has pushed back the grey squirrel, allowing red squirrels to recolonise.

Preventing Natural Disasters

Naturally functioning ecosystems do not only provide us with clean air and water, sequestrate & store carbon but they also prevent flooding, soil erosion, and provide natural breaks against forest fires.

Flood water reaches top of road sign. Another strong reason  why rewilding is so important.
Flood water reaches top of road sign. Another strong reason  why rewilding is so important.

Preventing Natural Disasters

Naturally functioning ecosystems do not only provide us with clean air and water, sequestrate & store carbon but they also prevent flooding, soil erosion, and provide natural breaks against forest fires.

Flood prevention: A forest’s tree canopy delays the rate at which rainwater reaches the forest floor and the tree roots act as channels to draw rainwater deeper underground. This means rainwater doesn’t run overland into watercourses, streams or rivers. Rainwater is absorbed into tree-covered soil at 67 times the rate at which it is absorbed into grass-covered soil. Trees can also stop soil particles washing into waterways and forming sediment build-up, which can cause additional flooding downstream. Tree roots also act as anchors as they hold soil together and prevent erosion and dangerous landslides in times of heavy rain and flooding.

Enhancing Local Economies

The development of wild nature is an opportunity for a new economyPedro Prata, Coa Valley Rewilding Reserve

By increasing the m2 value of wilderness, rewilding offers a new set of options in places where traditional sectors such as farming, which is highly subsidised and painfully unprofitable, can no longer keep communities alive. – Schools, shops and pubs are closing with gay abandon in rural areas as the young seek an elusive pot of gold in the city.

In the hills of southern Norway, the return of trees has been accompanied by a diversification and enrichment of the local economy. There, the marginal income from farming is supplemented with eco-tourism, forest products, hunting, fishing, outdoor education, snow sports and hiking.

A 4x4 taking people on a nature based tourism safari. Just one of the many reasons why rewilding is so important.

Fighting Climate Change

Global warming is the result of an increase in greenhouse gases, such as CO2 in the atmosphere. In one year the world emits 33 billion tons of CO2 and it is estimated by 2030, our emissions could rise to 40 billion tons.

Forests are natural carbon sinks that play a hugely important role in sequestering CO2 from the atmosphere. The carbon is removed through photosynthesis and is absorbed in the wood, leaves and soil, and thus remains in the forest ecosystem. For every tree planted, as much as 22kg of carbon dioxide is absorbed per year, which equates to 1 tonne of carbon over a 40 year period.

Reversing A 6th Mass Extinction

According to a recent study in the peer-reviewed journal Proceedings of the National Academy of Sciences, a “biological annihilation” of wildlife means that a sixth mass extinction in Earth’s history is already underway. Nearly half of all mammal species surveyed had lost more than 80% of their distribution between 1900 and 2015. Scientists concluded that unless monumental changes are made to reverse this decimation of wildlife there would be serious ecological, economic and social consequences.

Rewilding is that monumental change. With large-scale rewilding projects involving government, universities and enterprise, which advocate the reintroduction of large predators and keystone species to restore trophic levels and reconstruct food chains, this sixth mass extinction can be upturned.

 

Flood prevention: A forest’s tree canopy delays the rate at which rainwater reaches the forest floor and the tree roots act as channels to draw rainwater deeper underground. This means rainwater doesn’t run overland into watercourses, streams or rivers. Rainwater is absorbed into tree-covered soil at 67 times the rate at which it is absorbed into grass-covered soil. Trees can also stop soil particles washing into waterways and forming sediment build-up, which can cause additional flooding downstream. Tree roots also act as anchors as they hold soil together and prevent erosion and dangerous landslides in times of heavy rain and flooding.

Enhancing Local Economies

The development of wild nature is an opportunity for a new economyPedro Prata, Coa Valley Rewilding Reserve

By increasing the m2 value of wilderness, rewilding offers a new set of options in places where traditional sectors such as farming, which is highly subsidised and painfully unprofitable, can no longer keep communities alive. – Schools, shops and pubs are closing with gay abandon in rural areas as the young seek an elusive pot of gold in the city.

A 4x4 taking people on a nature based tourism safari. Just one of the many reasons why rewilding is so important.

In the hills of southern Norway, the return of trees has been accompanied by a diversification and enrichment of the local economy. There, the marginal income from farming is supplemented with eco-tourism, forest products, hunting, fishing, outdoor education, snow sports and hiking.

Fighting Climate Change

Global warming is the result of an increase in greenhouse gases, such as CO2 in the atmosphere. In one year the world emits 33 billion tons of CO2 and it is estimated by 2030, our emissions could rise to 40 billion tons.

A large processing plant bellowing smoke from its chimney stacks

Forests are natural carbon sinks that play a hugely important role in sequestering CO2 from the atmosphere. The carbon is removed through photosynthesis and is absorbed in the wood, leaves and soil, and thus remains in the forest ecosystem. For every tree planted, as much as 22kg of carbon dioxide is absorbed per year, which equates to 1 tonnne of carbon over a 40 year period.

Reversing A 6th Mass Extinction

According to a recent study in the peer-reviewed journal Proceedings of the National Academy of Sciences, a “biological annihilation” of wildlife means that a sixth mass extinction in Earth’s history is already underway. Nearly half of all mammal species surveyed had lost more than 80% of their distribution between 1900 and 2015. Scientists concluded that unless monumental changes are made to reverse this decimation of wildlife there would be serious ecological, economic and social consequences.

Rewilding is that monumental change. With large-scale rewilding projects involving government, universities and enterprise, which advocate the reintroduction of large predators and keystone species to restore trophic levels and reconstruct food chains, this sixth mass extinction can be upturned.

An endangered rhino

The Challenge of Our Lifetime

As a species we are at a crossroads. We can save our wildlife and biodiversity for future generations or let the planet slide into ecosystem collapse.

An endangered rhino

As a species we are at a crossroads. We can save our wildlife and biodiversity for future generations or let the planet slide into ecosystem collapse.

Sources & further reading

✅ for peer reviewed research

  1. 1. “Loss of large predators has caused widespread disruption of ecosystems” – Science Daily – sciencedailycom
  2. 2. “Making space for rewilding: creating an enabling policy enviornment” – Jepson, PR, Schepers 2016 – Oxford University Research Archive – ora.ox.ac.uk 
  3. 3. “Flood management and nature – can rewilding help?”  – Steve Carter 2016 – ECOS Journal, Vol 37, Issue 1 –  banc.org.uk.com 
  4. 4. “Wolves influence elk movements: behavior shapes a trophic cascade in Yellowstone National Park” Daniel Fortin Hawthorne L. Beyer Mark S. Boyce Douglas W. Smith Thierry Duchesne Julie S. Mao 2005, ESA Journal, Vol 86, Issue 5 – Wiley – wiley.com  ✅
  5. 5. “What determines the strength of a trophic cascade?” – E. T. Borer E. W. Seabloom J. B. Shurin K. E. Anderson C. A. Blanchette B. Broitman S. D. Cooper B. S. Halpern 2005 – Ecological Society of America, Vol 86, Issue 2 – Wiley – wiley.com

Sources & further reading

✅ for peer reviewed research

  1. 1. “Loss of large predators has caused widespread disruption of ecosystems” – Science Daily – sciencedailycom
  2. 2. “Making space for rewilding: creating an enabling policy enviornment” – Jepson, PR, Schepers 2016 – Oxford University Research Archive – ora.ox.ac.uk 
  3. 3. “Flood management and nature – can rewilding help?”  – Steve Carter 2016 – ECOS Journal, Vol 37, Issue 1 –  banc.org.uk.com 
  4. 4. “Wolves influence elk movements: behavior shapes a trophic cascade in Yellowstone National Park” Daniel Fortin Hawthorne L. Beyer Mark S. Boyce Douglas W. Smith Thierry Duchesne Julie S. Mao 2005, ESA Journal, Vol 86, Issue 5 – Wiley – wiley.com  ✅
  5. 5. “What determines the strength of a trophic cascade?” – E. T. Borer E. W. Seabloom J. B. Shurin K. E. Anderson C. A. Blanchette B. Broitman S. D. Cooper B. S. Halpern 2005 – Ecological Society of America, Vol 86, Issue 2 – Wiley – wiley.com