https://news.ucr.edu/articles/2023/02/07/fungi-and-bacteria-are-binging-burned-soil

Skip to main content

University of California, Riverside

Search
UC Riverside

News

Search

  * Home
  * Latest Articles
      + Arts / Culture
      + Athletics
      + Business
      + Health
      + Science / Technology
      + Social Science / Education
      + Students
      + University
  * Calendar
  * Experts
  * In the News
  * Info for Media
  * Inside UCR
  * UCR Magazine
      + Magazine Overview
      + Fall 2022
      + Summer 2022
      + Spring 2022
      + Winter 2022
      + Fall 2021
      + Subscriptions

Breadcrumb
 

  *  
  * News
  * February 7th, 2023
  * Fungi and bacteria are binging on burned soil

Follow US:

     
soil sampling at Holy Fire site
February 7, 2023

Fungi and bacteria are binging on burned soil

Can microbes revive megafire dead zones?

[Jules-]
Author: Jules Bernstein
February 7, 2023
Share This:

UC Riverside researchers have identified tiny organisms that not only
survive but thrive during the first year after a wildfire. The
findings could help bring land back to life after fires that are
increasing in both size and severity.

Fire fungus
Certain fungi thrive in a post-fire environment. (Sydney Glassman/
UCR)

The Holy Fire burned more than 23,000 acres across Orange and
Riverside counties in 2018. Wanting to understand how the blaze
affected bacteria and fungi over time, UCR mycologist Sydney Glassman
led a team of researchers into the burn scar. 

"When we first came into fire territory, there was ash up to my
shins. It was a very severe fire," Glassman said. 

The researchers visited the scar nine times over the course of the
next year, comparing the charred earth with samples from nearby,
unburned soil. Their findings, now published in the journal Molecular
Ecology, show that the overall mass of microbes dropped between 50
and 80% after the fire, and did not recover during that first year.

However, some things lived. "Certain species increased in abundance,
and in fact there were really rapid changes in abundance over time in
the burned soils," Glassman said. "There were no changes at all in
the unburned soils."

It wasn't just one type of bacteria or fungi that survived. Rather,
it was a parade of microbes that took turns dominating the burned
soil in that first post-fire year. "There were interesting, distinct
shifts in the microbes over time. As one species went down, another
came up," Glassman said.

In the early days, they found microbes with high tolerance for fire
and high heat. Later, fast-growing organisms with a lot of spores --
able to take advantage of space with little microbial competition --
seemed to dominate. Toward the end of the year, organisms able to
consume charcoal and other post-fire debris high in nitrogen tended
to dominate.

Holy Fire burn scar soil sampling
 UC Riverside researcher sampling Holy Fire burn scar soil for
analysis. (Sydney Glassman/UCR)

Certain microbes called methanotrophs regulate the breakdown of
methane, a greenhouse gas. Fabiola Pulido-Chavez, UCR plant pathology
PhD candidate and first author of the study, noticed that genes
involved in methane metabolism doubled in post-fire microbes. 

"This exciting finding suggests post-fire microbes can "eat" methane
to gain carbon and energy, and can potentially help us reduce
greenhouses gases," Pulido-Chavez said.

The researchers continue to test whether the fungi and bacteria they
found were able to thrive at different points in time as a result of
their unique and varied traits, or whether there is another reason
for the shifts they saw in the soil.

"We think one organism can't be good at all the skills necessary to
thrive in a burn scar," Glassman said. "If you're good at tolerating
heat, you're probably not as good at growing fast."

What the researchers saw in the soil bears some resemblance to the
human body's response to a major stress. People suffer an illness and
take antibiotics. The medicine destroys bacteria in a person's gut,
and new organisms begin to show up that either weren't there before
or did not previously have a large presence. 

Sydney Glassman
UCR plant pathologist Fabiola Pulido-Chavez  studying how microbes
could help restore post-fire landscapes. (Sydney Glassman/UCR)

Eventually, a person's gut bacteria might return to something like
its pre-infection state, but there is no guarantee. 

"We are also trying to understand what gets the land back to where it
was before the disturbance, which in this case was an enormous fire,"
Glassman said. "A lot of what we're studying could be transferrable
to a human microbiome setting."

For a century, scientists have known about ways that plants are able
to adapt to wildfires, and eventually re-colonize a burn scar. As
this new research shows, fungi and bacteria may have developed
similar coping strategies. 

"It's exciting because we've only developed the technology in the
last couple of decades to really understand what microbes are doing
in the soil, and how they contribute to regeneration," Glassman
said. 

What is now being learned about post-fire microbe behavior could
change older theories about plant behavior, since microbes were not
factored into them. "To me, this is exciting, as microbes have long
been overlooked, yet they are essential for ecosystem health,"
Pulido-Chavez said.

One open question that remains is whether adaptations that plants and
microbes have developed in response to wildfires will adapt again to
megafires or recurrent fires. Whereas there might have been a period
of several decades before a plot of land burned more than once, it is
increasingly common for the same soil to burn again in fewer than 10
years. 

Particularly in the West, climate change is causing rising
temperatures and earlier snow melt, extending the dry season when
forests are most vulnerable to burning. What does the increase in
size, severity, and frequency of fires do for natural burn recovery?

"Things can recover, but it takes time, and whether or not the land
recovers after super-frequent megafires is another story. Can
recovery time keep pace with megafires? We don't know yet," Glassman
said.

Share this Article

Media Contacts

Tags
Department Of Environmental Sciences
College Of Natural And Agricultural Sciences
Science / Technology

Related Articles

 
earthquake cracked roadway
Science / Technology

California will inevitably shake like Turkey

 
car exhaust
Science / Technology

Soil tainted by air pollution expels carbon

 
coffee machine
Science / Technology

Prof pours cold water on coffee pod controversy

 
gas stove
Science / Technology

Gas stoves: Suddenly, the pariah du jour

Search
University of California, Riverside

900 University Ave.
Riverside, CA 92521

Tel: (951) 827-1012


  * UCR Library
  * Campus Status
  * Campus Store
  * Career Opportunities
  * Diversity
  * Maps and Directions
  * Visit UCR

University of California, Riverside


900 University Ave.
Riverside, CA 92521

tel: (951) 827-0000
email: webmaster@ucr.edu


Find Us

Campus map image

Related Links

  * UCR News Archive
  * Science Today
  * Servicio de Informacion en Espanol
  * UC Agricultural and Natural Resources news
  * UC Newsroom
  * Available Feeds
  * Creator State Podcast

Follow Us:

           

  * Privacy and Accessibility
  * Terms and Conditions
  * (c) 2023 Regents of the University of California

Search x
Let us help you with your search
Enter your Search Criteria. [                    ]
Search All UCR
Search This Site
Cancel