Lichens slow to return after wildfires

Lichens slow to return after wildfire
Quail Ridge Reserve following a 2020 wildfire. The barren patches were formerly chaparral that burned at high severity. Credit: Jesse Miller

Lichen communities may take decades—and in some cases up to a century—to fully return to chaparral ecosystems after wildfire, finds a study from the University of California, Davis, and Stanford University.

The study, published today in the journal Diversity and Distributions, is the most comprehensive to date of long-term recolonization after fire.

Unlike conifer forests, chaparral systems in California are historically adapted to high-intensity fires—they burn hot, fast and tend to regenerate quickly. However, with more frequent fires predicted under a drier, warming climate and more ignitions occurring amid a growing human population in these areas, the study indicates that lichen communities may not receive the window of opportunity they need to return to chaparral shrublands after wildfire.

"In chaparral systems, lichens can come back 20 to 30 years after fire, but if you get into more frequent burning several times in a short time period, it may be there isn't a place for these lichens," said co-leading author Alexandra Weill, who conducted the research while a graduate student researcher in the UC Davis Department of Plant Sciences.

Overlooked and all around

Lichens are complex organisms born from a symbiosis of fungi and algae. Overlooked and yet all around, they present a variety of colorful and intricate shapes and patterns along the rocks, branches and floor of forests and other biomes. They not only provide food for wildlife, they also help retain moisture in their environments—an increasingly important service in dry chaparral systems.

Lichens slow to return after wildfire
Lichen attach to a branch at UC Davis’ Quail Ridge Reserve. A UC Davis study finds it can take lichens 20 to 30 years to recolonize an area after wildfire. Credit: Alexandra Weill

"There's also value to biodiversity itself," said co-leading author Jesse Miller, a UC Davis postdoctoral researcher at the time of the study and currently a lecturer at Stanford. "In our study, plant diversity was low under the dense shrub canopy. But we could find dozens of lichen species in the same area. If we lose these lichens, we're losing a lot of the actual biodiversity that's there."

To test how lichens recolonized in chaparral systems after fire, the scientists in 2018 sampled lichen communities at two UC Davis natural reserves—Quail Ridge and nearby Stebbins Cold Canyon in Napa and Solano counties. Using records from CAL FIRE and Quail Ridge Reserve, they identified fire boundaries that occurred within the reserves since 1950. They sampled five fires: the 1953 T. Viue Fire, 1988 Resort Fire, 2005 Pleasure Fire, an unnamed 1996 fire and the 2015 Wragg Fire.

After identifying plots to survey at these locations, they crawled under the chaparral to document every lichen species they could find and its abundance.

They found that fire-intolerant species like lichens may be slow to recolonize landscapes after high-severity fire. Most chaparral lichen taxa could be lost if fire intervals shorten to less than 20 years, which has already occurred in some parts of California, the study said.

  • Lichens slow to return after wildfire
    The UC Davis Quail Reserve in 2018, before wildfire burned the area, which is mostly composed of oak woodland and chaparral. Credit: Jesse Miller
  • Lichens slow to return after wildfire
    The UC Davis Quail Ridge Natural Reserve after a 2020 wildfire. Credit: Jesse Miller
  • Lichens slow to return after wildfire
    Old-growth lichens, including Usnea spp., Flavoparmelia caperata, Physcia rhizinata, Evernia prunastri, Cetraria merellii, Polycauliona sp., and Parmelia sp., drape off a branch in chaparral shrubland at the Quail Ridge Reserve. Credit: Jesse Miller

Old-growth chaparral

The researchers also compared the species richness of lichens found in these previously burned areas to old-growth chaparral sites with no recorded fire history. They found such old-growth vegetation may promote biodiversity, and the study highlights its value.

"Old-growth chaparral doesn't have the charisma of a redwood forest," Miller said. "Most people wouldn't recognize it as a 100-year-old plus mini-forest if they walk by. But all ecosystems have old-growth states of unique species that don't occur in areas of recent disturbance. Our study builds on the idea that we need to recognize the value of communities that take a long time to form."

Management strategy

The study suggests a land management strategy that aims for "a well-maintained mosaic of land types," including areas of old-growth chaparral and areas that are managed with prescribed fire. Such a strategy, when paired with prevention and home protection efforts, could help reduce risk while maximizing cultural and ecological value.

"For most Californians, chaparral shrublands are the closest and most accessible ecosystems we have," said Weill. "If you're going to Mt. Tam, you're hiking in chaparral. If you're hiking in LA, you're in chaparral. For the average Californian, this is what's most likely in your backyard. But that's also what makes it an issue because these are the fires threatening your home."

More information: Epiphytic macrolichen communities take decades to recover after high‐severity wildfire in chaparral shrublands.Diversity and Distributions,

Journal information: Diversity and Distributions

Provided by UC Davis

Citation: Lichens slow to return after wildfires (2021, May 11) retrieved 8 December 2022 from
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