The Times Australia
The Times World News

.
Times Media

.

Tropical forests can recover surprisingly quickly on deforested lands – and letting them regrow naturally is an effective and low-cost way to slow climate change

  • Written by Robin Chazdon, Professor Emerita of Ecology and Evolutionary Biology, University of Connecticut
Tropical forests can recover surprisingly quickly on deforested lands – and letting them regrow naturally is an effective and low-cost way to slow climate change

Tropical forests are among the world’s best tools for fighting climate change and the loss of wild species. They store huge quantities of carbon, shelter thousands of plants and animals and are home to Indigenous peoples who sustain them. That’s why more than 100 world leaders pledged to halt deforestation by 2030[1] at the recent United Nations conference on climate change in Glasgow.

Many organizations and communities are working to restore native forests by reclaiming unproductive or abandoned land and carrying out costly tree-planting efforts.[2] These efforts are designed to encourage the return of native plants and animals and to recover the ecological functions and goods that those forests once provided. But in many cases forests can recover naturally, with little or no human assistance.

We are forest ecologists and members of a collaborative research network that studies secondary forests[3] – those that regrow naturally after an area has been cleared and cultivated or grazed. In a newly published study in the journal Science[4], our group pioneers an approach to forest recovery that provides insights from over 2,200 forest plots in naturally regrowing tropical forests across the American and West African tropics.

Our research shows that tropical forests recover surprisingly quickly: They can regrow on abandoned lands and recover many of their old-growth features, such as soil health, tree attributes and ecosystem functions, in as little as 10 to 20 years. However, to support effective forest restoration and planning, it is important to understand how quickly different forest functions and attributes recover.

Cattle graze in pasture filled with tree stumps
Cattle graze on cleared rainforest land in the Amazon region, Pará, Brazil. Education Images/Universal Images Group via Getty Images[5]

Forests come back

Most forests around the world today have regrown after human and natural disturbances, including fires, floods, logging and clearance for agriculture. For example, forests recovered[6] in Europe during the 18th and 19th centuries and in the eastern U.S. from the early to mid-20th century. Today the northeastern U.S. has more forest cover[7] than it did 100 to 200 years ago.

Now, across the world’s tropical regions, forests are regrowing[8] on approximately 3 million square miles (8 million square kilometers) of former farm and ranch land. Scientists[9] and policymakers[10] widely agree that it is critical to protect these regrowing forests and prevent more destruction and conversion of old-growth forests.

Tropical forests are more than just trees – they are complex, dynamic networks of plants, animals and microbes. Forest recovery takes time and often has unpredictable outcomes and variable pathways[11]. Recovery patterns differ between wet and dry tropical forests[12].

To date, this active research area emphasizes studies that examined how specific features of forests[13], such as the number of species they contain or tree biomass, change over time and space[14]. We believe it is important to understand forest recovery as an integrated process that is shaped by local, landscape and historical conditions.

Puerto Rico’s tropical forests were heavily deforested through the mid-20th century but have regrown on abandoned farmlands.

A multidimensional view of tropical forest recovery

Our study focused on 12 attributes that are essential components of healthy forests. They include:

  • Soil: How much organic carbon and nitrogen does it contain, and how compacted is it? Soil that is too densely compacted – for example, by the hooves of grazing cattle – is hard for plant roots to penetrate and doesn’t absorb water well, which can lead to erosion.

  • Ecosystem functioning: How does the abundance and size of trees change as the forest regrows? What is the role in forest regrowth of trees that have root associations with nitrogen-fixing bacteria[15]? How does regrowth affect the average density of wood and the durability of leaf tissues?

  • Forest structure: How do maximum tree size, variation in tree size, and total biomass – the quantity of plant matter above ground in tree trunks, branches and leaves – change as forests regrow?

  • Diversity and composition of tree species: How do the numbers of tree species present and the diversity and abundance patterns of species change and become more similar to nearby old-growth forests?

To assess long-term recovery rates, we compared attributes across forests growing on farmlands that had been abandoned at different times and compared regrowing forests with neighboring old-growth forests. We developed a new modeling approach to estimate how quickly each attribute recovered.

Many of these attributes depend on one another. For example, if trees regrow quickly they may produce a lot of leaf litter, which will restore levels of organic carbon in the soil when it decomposes. We analyzed these connections by comparing how strongly forest attributes were associated with one another.

The forests we studied were in areas of low- to moderate-intensity land use, meaning that soils were not exhausted or eroded and quickly supported regrowing native vegetation. For example, in Brazil’s Atlantic Forest region, 10,425 square miles (2.7 million hectares) of forest regrew naturally[16] from 1996 to 2015. There is much less potential for tropical forests to recover in areas where soils are heavily overworked and no neighboring forests remain[17].

Graphic showing how regrowing forests regain functions over time. This graphic shows how four groups of forest attributes – soil, ecosystem functioning, forest structure and tree biodiversity – recover as tropical forests regrow on former farm and pasture lands. For each category, the image shows the average percentage of recovery compared with old-growth forests after 20, 40, 80 and 120 years. Percentages in black squares show average recovery for the whole forest at each interval. Pixels&Ink, CC BY-ND[18][19]

All of the forest attributes that we examined recovered within 120 years of regrowth. Some recovered 100% of their old-growth values in the first 20 years of regrowth.

For example, the soil attributes that we analyzed reached 90% of old-growth values within 10 years and 98% to 100% within 20 years. In other words, after 20 years of regrowth, soils in the forests contained virtually as much organic carbon and had similar bulk density as soils in old-growth forests.

This quick recovery reflects the fact that the soils at our study sites had not been heavily degraded when forest regrowth started. Ecosystem function attributes also bounced back quickly, with 82% to 100% recovery within 20 years.

Forest structure attributes, such as maximum tree diameter, recovered more slowly. On average they reached 96% of old-growth values after 80 years of regrowth. Tree species composition and above-ground biomass recovered after 120 years.

[You’re smart and curious about the world. So are The Conversation’s authors and editors. You can read us daily by subscribing to our newsletter[20].]

We identified a set of three attributes – maximum tree size, overall variation in tree size and the number of tree species in a forest – that, viewed together, provide a reliable snapshot of how well a forest is recovering. These three indicators are relatively easy to measure, and managers can use them to monitor forest restoration. It is now possible to monitor tree size and forest structure over large areas and time scales using data collected by satellites and drones[21].

The importance of natural regrowth

Our findings show that tropical forest regrowth is an effective and low-cost, nature-based strategy for promoting sustainable development[22], restoring ecosystems[23], slowing climate change[24] and protecting biodiversity[25]. And since regrown forests in areas where the land has not been heavily damaged quickly recover many of their key attributes, forest recovery doesn’t always require planting trees.

In our view, a range of suitable reforestation methods can be implemented, depending on local site conditions and local people’s needs. We recommend relying on natural regrowth wherever and whenever possible, and using active restoration planting when needed.

Masha van der Sande[26] at Wageningen University and Dylan Craven[27] at the Universidad Mayor in Chile contributed to the data compilation and analyses for this study.

References

  1. ^ halt deforestation by 2030 (www.nytimes.com)
  2. ^ costly tree-planting efforts. (e360.yale.edu)
  3. ^ collaborative research network that studies secondary forests (www.researchgate.net)
  4. ^ newly published study in the journal Science (science.org)
  5. ^ Education Images/Universal Images Group via Getty Images (www.gettyimages.com)
  6. ^ forests recovered (doi.org)
  7. ^ has more forest cover (doi.org)
  8. ^ forests are regrowing (doi.org)
  9. ^ Scientists (theconversation.com)
  10. ^ policymakers (ukcop26.org)
  11. ^ unpredictable outcomes and variable pathways (doi.org)
  12. ^ differ between wet and dry tropical forests (doi.org)
  13. ^ specific features of forests (dx.doi.org)
  14. ^ over time and space (doi.org)
  15. ^ nitrogen-fixing bacteria (www.britannica.com)
  16. ^ regrew naturally (doi.org)
  17. ^ soils are heavily overworked and no neighboring forests remain (doi.org)
  18. ^ Pixels&Ink (science.org)
  19. ^ CC BY-ND (creativecommons.org)
  20. ^ You can read us daily by subscribing to our newsletter (memberservices.theconversation.com)
  21. ^ satellites and drones (doi.org)
  22. ^ promoting sustainable development (sdgs.un.org)
  23. ^ restoring ecosystems (www.decadeonrestoration.org)
  24. ^ slowing climate change (ukcop26.org)
  25. ^ protecting biodiversity (www.cbd.int)
  26. ^ Masha van der Sande (scholar.google.com)
  27. ^ Dylan Craven (scholar.google.com)

Read more https://theconversation.com/tropical-forests-can-recover-surprisingly-quickly-on-deforested-lands-and-letting-them-regrow-naturally-is-an-effective-and-low-cost-way-to-slow-climate-change-173302

The Times Features

Will the Wage Price Index growth ease financial pressure for households?

The Wage Price Index’s quarterly increase of 0.8% has been met with mixed reactions. While Australian wages continue to increase, it was the smallest increase in two and a half...

Back-to-School Worries? 70% of Parents Fear Their Kids Aren’t Ready for Day On

Australian parents find themselves confronting a key decision: should they hold back their child on the age border for another year before starting school? Recent research from...

Democratising Property Investment: How MezFi is Opening Doors for Everyday Retail Investors

The launch of MezFi today [Friday 15th November] marks a watershed moment in Australian investment history – not just because we're introducing something entirely new, but becaus...

Game of Influence: How Cricket is Losing Its Global Credibility

be losing its credibility on the global stage. As other sports continue to capture global audiences and inspire unity, cricket finds itself increasingly embroiled in political ...

Amazon Australia and DoorDash announce two-year DashPass offer only for Prime members

New and existing Prime members in Australia can enjoy a two-year membership to DashPass for free, and gain access to AU$0 delivery fees on eligible DoorDash orders New offer co...

6 things to do if your child’s weight is beyond the ideal range – and 1 thing to avoid

One of the more significant challenges we face as parents is making sure our kids are growing at a healthy rate. To manage this, we take them for regular check-ups with our GP...

Times Magazine

Is Web Design Becoming Irrelevant With DIY Website Builders?

Today's digital landscape is buzzing. With businesses small and large vying for the spotlight, a solid online presence is crucial. The cornerstone of that presence? A well-designed, functional, and visually appealing website. Now enters the age ...

The Benefits of Buying Backlinks

Backlinks are a robust foundation of your SEO strategy, helping with page rankings and your visibility to potential visitors. While buying backlinks can be a good short-term strategy, can it get you into trouble? Well, sometimes. One of the best st...

THE AMAZING PERKS OF PIPE RELINING IN PLUMBING

While most people know the significance of prompt pipe repairs, they also recognize how laborious and time-consuming the entire procedure can be. Digging is required during traditional repair procedures for the plumbers to access the pipelines, r...

The Power of Tech in Business and How Mobile Solutions are Changing the Game

Technology is not just an option but a necessity, particularly in today’s fast-paced business world. From mobile apps to cloud-based accounting software, businesses are now more tech-driven than ever. Whether you are running a small local operation...

The Future of Smartphones: Embracing Sustainability with Refurbished iPhones

Are you ready to revolutionize the way we use smartphones? In a world driven by technology, it's time for us to shift our focus towards sustainability. Say hello to refurbished iPhones - the game-changer that combines cutting-edge features with e...

Light bars: 4 reasons why your vehicle needs them

Passionate motorists are often looking for ways to amplify their driving experience, and one these includes new lighting fixtures. LED headlights and taillights are becoming increasingly popular on Aussie vehicles, owing to a range of different a...