Friday, December 24, 2021

 

Controlled burning of natural environments could help offset our carbon emissions

Controlled burning of natural environments could help offset our carbon emissions
Prescribed burn of oak savannah. Credit: Adam Pellegrini

Planting trees and suppressing wildfires do not necessarily maximize the carbon storage of natural ecosystems. A new study has found that prescribed burning can actually lock in or increase carbon in the soils of temperate forests, savannahs and grasslands

The finding points to a new method of manipulating the world's natural capacity for  and storage, which can also help to maintain natural ecosystem processes. The results are published today in the journal Nature Geoscience.

"Using controlled burns in forests to mitigate future wildfire severity is a relatively well-known process. But we've found that in  including temperate forests, savannahs and grasslands,  can stabilize or even increase ," said Dr. Adam Pellegrini in the University of Cambridge's Department of Plant Sciences, first author of the report.

He added: "Most of the fires in  around the globe are controlled burns, so we should see this as an opportunity. Humans are manipulating a process, so we may as well figure out how to manipulate it to maximize carbon storage in the soil."

Fire burns plant matter and organic layers within the soil, and in severe wildfires this leads to erosion and leaching of carbon. It can take years or even decades for lost soil carbon to re-accumulate. But the researchers say that fires can also cause other transformations within soils that can offset these immediate carbon losses, and may stabilize ecosystem carbon.

Controlled burning of natural environments could help offset our carbon emissions
Landscape after a prescribed burn. Credit: Adam Pellegrini

Fire stabilizes carbon within the soil in several ways. It creates charcoal, which is very resistant to decomposition, and forms 'aggregates' – physical clumps of soil that can protect carbon-rich organic matter at the center. Fire can also increase the amount of carbon bound tightly to minerals in the soil.

"Ecosystems can store huge amounts of carbon when the frequency and intensity of fires is just right. It's all about the balance of carbon going into soils from dead plant biomass, and carbon going out of soils from decomposition, erosion, and leaching," said Pellegrini.

When fires are too frequent or intense—as is often the case in densely planted forests—they burn all the dead plant material that would otherwise decompose and release carbon into the soil. High-intensity fires can also destabilize the soil, breaking off carbon-based organic matter from minerals and killing soil bacteria and fungi.

Controlled burning of natural environments could help offset our carbon emissions
Prescribed burn of grassland. Credit: Adam Pellegrini

Without fire, soil carbon is recycled—organic matter from plants is consumed by microbes and released as carbon dioxide or methane. But infrequent, cooler fires can increase the retention of soil carbon through the formation of charcoal and soil aggregates that protect from decomposition.

The scientists say that ecosystems can also be managed to increase the amount of carbon stored in their soils. Much of the carbon in grasslands is stored below-ground, in the roots of the plants. Controlled burning, which helps encourage grass growth, can increase root biomass and therefore increase the amount of carbon stored.

Controlled burning of natural environments could help offset our carbon emissions
Prescribed burn on savannah. Credit: Adam Pellegrini

"In considering how ecosystems should be managed to capture and store carbon from the atmosphere, fire is often seen as a bad thing. We hope this new study will show that when managed properly, fire can also be good—both for maintaining biodiversity and for ," said Pellegrini.

Controlled burning of natural environments could help offset our carbon emissions
Fire gradient visible after prescribed burn on peatland. Credit: Adam Pellegrini

The study focused on carbon stored in topsoils, defined as those less than 30cm deep. More carbon is stored in the world's  than in the global vegetation and the atmosphere combined. Natural fires occur in most ecosystems worldwide, making fire an important process in global  cycling.Soils in old-growth treetops can store more carbon than soils under our feet

More information: Adam Pellegrini, Fire effects on the persistence of soil organic matter and long-term carbon storage, Nature Geoscience (2021). DOI: 10.1038/s41561-021-00867-1. www.nature.com/articles/s41561-021-00867-1

Journal information: Nature Geoscience 

Provided by University of Cambridge 

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