Natural Areas Plan: SFFA comments on the DEIR (Pt 7: False “Fire Hazard” Assumptions)
June 14, 2012 2 Comments
One of the most problematic assumptions in the Significant Natural Resource Area Managment Plan (SNRAMP – Sin-ramp) is that the eucalyptus forests are a fire hazard, and that thinning/ felling them, removing the existing understory, and substituting native plants will reduce the danger.
First, in San Francisco’s foggy climate, the eucalyptus trees actually harvest moisture, and the dense naturalized understory traps this moisture. These are some of the wettest areas in the city through the peak fire season. Second, eucalyptus is actually less flammable than most native plants. Finally, the tall trees act as an effective wind-break, thus reducing the risk of wind-driven fires.
Read on for details.
The Draft Environmental Impact Report (DEIR) for the Significant Natural Resource Areas Management Plan (SNRAMP) makes assumptions regarding fire hazards in San Francisco for which it provides no scientific or experiential evidence:
- That native vegetation is less flammable than non-native vegetation
- That thinning trees will reduce fire hazard
These assumptions are false and we will provide scientific and experiential evidence that they are false. Unless the final EIR can provide scientific evidence and/or actual experience to support these assumptions in the DEIR, these statements regarding fire hazards must be revised to be consistent with available evidence.
1. NON-NATIVE VEGETATION, INCLUDING EUCALYPTUS, IS NOT INHERENTLY MORE FLAMMABLE THAN NATIVE VEGETATION
The DEIR makes the following claims:
- “…maximize indigenous vegetation for fire control.” (DEIR, page 78)
- “…vegetation with high fire hazard ratings such as broom and eucalyptus.” (DEIR, page 111,396)
- “…replacing highly flammable eucalyptus trees with more fire resistant species.” (DEIR, page 410)
Fear of fire has fueled the heated debate about native plant restorations in the Bay Area. Native plant advocates want the public to believe that the non-native forest is highly flammable, that its destruction and replacement with native landscapes would make us safer. Nothing could be further from the truth. The fact is that the forest—whether it is native or non-native—is generally less flammable than the landscape that is native to California. In the specific case of the Sutro Forest in San Francisco, this general principal is particularly true: the existing forest is significantly less flammable than the landscape that is native to that location.
The “Mount Sutro Management Plan” was written by UCSF and is available on their website. It describes “native” Mount Sutro as follows: “In the 1800s, like most of San Francisco’s hills, Mount Parnassus [now known as Mount Sutro] was covered predominantly with coastal scrub chapparal [sic], consisting of native grasses, wildflowers, and shrubs…” (page 4) (emphasis added)
A Natural History of California [Ref: Allan Schoenherr, UC Press, 1992, page 341] tells us that chaparral is not only highly flammable, but is in fact dependent upon fire to sustain itself:
“Chaparral…is…most likely to burn. The community has evolved over millions of years in association with fires, and in fact requires fire for proper health and vigor. Thus it is not surprising that most chaparral plants exhibit adaptations enabling them to recover after a burn…Not only do chaparral plants feature adaptations that help them recover after a fire, but some characteristics of these plants, such as fibrous or ribbonlike shreds on the bark, seem to encourage fire. Other species contain volatile oils. In the absence of fire, a mature chaparral stand may become senile, in which case growth and reproduction are reduced. “ (emphasis added)
The local chapter (Yerba Buena) of the California Native Plant Society acknowledges the value of fire to restore and maintain native plant populations. A wildfire fire on San Bruno Mountain in native grassland and coastal scrub “consumed about 300 acres” in June 2008, according to an article on their website. The article reports that
“Fire is an adaptive management tool that, along with natural grazing and browsing, has been missing in promoting healthy grasslands that once covered much of the lower elevations of California…The threats to native grasslands are invasions of non-native grasses and forbs, and succession by native and invasive shrubs. Fortunately the fire scrubbed the canyons pretty clean of just about everything. This gives the land a shot of nutrients to recharge the soil and awaken the seedbanks that have long been lying dormant.”
The fire on Angel Island in October 2008, demonstrates that native grassland is more flammable than the non-native forest. According to an “environmental scientist” from the California state park system, 80 acres of eucalyptus were removed from Angel Island 12 years ago in order to restore native grassland. Only 6 acres of eucalyptus remain. [Ref:“Rains expected to help heal Angel Island,” SF Chronicle, October 14, 2008] The fire that burned 400 acres of the 740 acres of Angel Island in 2008 stopped at the forest edge: “At the edge of the burn belt lie strips of intact tree groves…a torched swath intercut with untouched forest.” [Ref: “After fire, Angel Island is a park of contrasts,” SF Chronicle, October 15, 2008] It was the native grassland and brush that burned on Angel Island and the park rangers were ecstatic about the beneficial effects of the fire: “The shrubs—coyote bush, monkey flower and California sage—should green up with the first storms…The grasses will grow up quickly and will look like a golf course.” Ironically, the “environmental scientist” continues to claim that the eucalyptus forest was highly flammable, though it played no part in this fire and there was no history of there ever having been a fire in the eucalyptus during the 100 years prior to their removal.
Unfortunately, the 1991 fire in the Oakland hills has enabled native plant advocates to maintain the fiction that eucalyptus is highly flammable. And in that case there is no doubt that they were involved in that devastating fire. However, there were factors in that fire that are not applicable to San Francisco. The climate in San Francisco is milder than the climate in the East Bay because of the moderating influence of the ocean. It is cooler in the summer and warmer in the winter. There are never prolonged, hard freezes in San Francisco that cause the eucalyptus to die back, creating dead, flammable leaf litter. The 1991 fire in the Oakland hills occurred in the fall, following a hard winter freeze that produced large amounts of flammable leaf litter. In fact, there were several wildfires in the Oakland hills in the 20th century. Each followed a hard winter causing vegetation to die back.
According to the FEMA Technical Report, the 1991 Oakland hills fire started in grass, spread to dry brush, and was then driven by the wind to burn everything in its path. The fire burned native plants and trees as readily as eucalyptus.
When it is hot and dry in the Oakland hills, as it was at the time of the 1991 fire, it is cool and damp in San Francisco. Fogs from the ocean drift over the eucalyptus forests, condensing on the leaves of the trees, falling to the ground, moistening the leaf litter. [Ref: Gilliam, Harold, The Weather of the San Francisco Bay Area, UC Press, 2002] When the heat from the land meets the cool ocean air, the result is the fog that blankets San Francisco during the summer. These are not the conditions for fire ignition that exist in the Oakland hills.
UCSF applied for a FEMA grant to fund its project to destroy the eucalyptus forest and restore native chaparral, based on its claim that the eucalyptus forest is highly flammable. In its letter of October 1, 2009 (obtained by FOIA request), FEMA raised questions about UCSF’s claim of fire hazard. (See Attachment VII-A.) FEMA asked UCSF to explain how fire hazard would be reduced by eliminating most of the existing forest, given that reducing moisture on the forest floor by eliminating the tall trees that condense the fog from the air could increase the potential for ignition. FEMA also asked UCSF to provide “scientific evidence” to support its response to this question. Rather than answer this and other questions, UCSF chose to withdraw its FEMA application.
The reputation of eucalyptus as a fire hazard is also based on the assumption that oils in its leaves are flammable. The National Park Service reports on its website that the leaves are, in fact, fire resistant: “The live foliage [of the eucalyptus] proved fire resistant, so a potentially catastrophic crown fire was avoided.”
The predominant species of eucalyptus in California, the blue gum eucalyptus (E. globulus) is native to Tasmania. Scientists at the University of Tasmania conducted laboratory experiments on the plants and trees in the Tasmanian forest to determine the relative flammability of their native species. The blue gum eucalyptus (E. globulus) is included in this study. The study reports that, “E. globulus leaves, both juvenile and adult, presented the greatest resistance [to ignition] of all the eucalypts studied. In this case, leaf thickness was important as well as the presence of a waxy cuticle.” Also, in a table entitled “Rate of flame front movement,” the comment for E. globulus leaves is “resistant to combustion.” [Ref: Dickinson, K.J.M. and Kirkpatrick, J.B., “The flammability and energy content of some important plant species and fuel components in the forests of southeastern Tasmania,” Journal of Biogeography, 1985, 12: 121-134.] In other words, despite the oil content in the leaf, its physical properties protect the leaf from ignition.
Even if oils were a factor in flammability, there are many native plants that are equally oily, such as the ubiquitous coyote brush and bays. According to Cornell University studies, essential/volatile oils in blue gum eucalyptus leaves range from less than 1.5 to over 3.5%. The leaves of native California bay laurel trees contain 7.5% of essential/volatile oils, more than twice the amount of oil in leaves of blue gums.
These principles are best illustrated by a photograph of an actual fire in San Diego in 2003 in which all the homes burned to the ground, but the eucalyptus forest surrounding those homes did not ignite:
Likewise, non-native broom is not more flammable than its native counterpart in the chaparral plant community, coyote brush. The leaves of both shrubs are small, the fine fuel that ignites more readily than larger leaves and branches. But the leaves of native coyote brush contain oil not found in non-native broom. And the branches of broom are green to the ground, unlike the branches of coyote brush which become woody thickets with age. Broom therefore contains more moisture than coyote brush, which reduces its combustibility.
Fire is an essential feature of the landscape that is native to California. [Ref: Sugihara, Neil, Fire in California’s Ecosystems, UC Press, 2006] Destroying a non-native forest in order to create a native landscape of grassland and scrub will not reduce fire hazard.
2. THINNING THE NON-NATIVE FOREST WILL NOT REDUCE FIRE HAZARD
The DEIR makes the following claim:
“…timber thinning would increase the space between trees, reducing the ability of a fire to rapidly spread.” (DEIR, page 396)
Most fires in California are hot, wind-driven fires in which everything burns. The composition of the fuel load in a wind-driven fire is irrelevant. Everything in its path will burn. [Ref: Keeley, J, and Fotheringham, “Impact of past, present, and future fire regimes on North American Mediterranean shrublands, pages 218-262 in Veblen, et al., editors, Fire and climate change in temperate ecosystems of the Western Americas, 2003.] The 1991 fire in the Oakland hills was an example of such a fire. According to the FEMA technical report on that fire, both native and non-native vegetation, as well as about 3,800 homes burned in that fire.
Windbreaks are therefore one of the few defenses in a wind-driven fire. For that reason, in its letter of October 1, 2009 (see attachment VII-A), FEMA asked UCSF to explain how the destruction of the tall trees on Mount Sutro would reduce fire hazard. FEMA noted that eliminating the windbreak that the tall trees provide has the potential to enable a wind-driven fire to sweep through the forest unobstructed. FEMA also asked UCSF to provide “scientific evidence” to support its answer to this question. We repeat, UCSF chose to withdraw its application for FEMA funding of its project rather than answer this question.
In 1987, 20,000 hectares burned in a wildfire in the Shasta-Trinity National Forest. The effects of that fire on the forest were studied by Weatherspoon and Skinner of the USDA Forest Service. They reported the results of their study in Forest Science. [Ref: Weatherspoon, C.P. and Skinner, C.N., “An Assessment of Factors Associated with Damage to Tree Crowns from the 1987 Wildfires in Northern California,” Forest Science, Vol. 41, No 3, pages 430-453] They found the least amount of fire damage in those sections of the forest that had not been thinned or clear-cut. In other words, the more trees there were, the less damage was done by the fire. They explained that finding:
“The occurrence of lower Fire Damage Classes in uncut stands [of trees] probably is attributable largely to the absence of activity fuels [e.g., grasses] and to the relatively closed canopy, which reduces insolation [exposure to the sun], wind movement near the surface, and associated drying of fuels. Conversely, opening the stand by partial cutting adds fuels and creates a microclimate conducive to increased fire intensities.” (emphasis added)
In other words the denser the forest,
- The less wind on the forest floor, thereby slowing the spread of fire
- The more shade on the forest floor.
- The less flammable vegetation on the forest floor
- The more moist the forest floor
All of these factors combine to reduce fire hazard in dense forest. Likewise, in a study of fire behavior in eucalyptus forest in Australia, based on a series of experimental controlled burns, wind speed and fire spread were significantly reduced on the forest floor. [Ref: Gould, J.S., et. al., Project Vesta: Fire in Dry Eucalyptus Forests, Commonwealth Scientific and Industrial Research Organization and Department of Environment and Conservation, Western Australia, November 2007]
Furthermore, a recently published study corroborates that thinning the forest does not significantly reduce fire risk, nor does it increase carbon storage in the forest. [Ref: John L. Campbell, Mark E. Harmon, Stephen R. Mitchell, “Can fuel-reduction treatments really increase forest carbon storage in the western US by reducing future fire emissions? Frontiers in Ecology and Environment, 2011, 10,1890/110057.]
“It has been suggested that thinning trees and other fuel-reduction practices aimed at reducing the probability of high-severity forest fire are consistent with efforts to keep carbon (C) sequestered in terrestrial pools, and that such practices should therefore be rewarded rather than penalized in C-accounting schemes. By evaluating how fuel treatments, wildfire, and their interactions affect forest C stocks across a wide range of spatial and temporal scales, we conclude that this is extremely unlikely. Our review reveals high C losses associated with fuel treatment, only modest differences in the combustive losses associated with high-severity fire and the low-severity fire that fuel treatment is meant to encourage, and a low likelihood that treated forests will be exposed to fire. Although fuel-reduction treatments may be necessary to restore historical functionality to fire-suppressed ecosystems, we found little credible evidence that such efforts have the added benefit of increasing terrestrial C stocks.” (emphasis added)
Thinning the forest will not reduce fire hazard. In fact, it will increase fire hazard.
The DEIR also says that fire hazard will be reduced by removing dead trees:
“Removed trees would include those that are diseased and dying, thereby reducing easily combustible fuel loads.” (DEIR, page 396)
We do not dispute that dead trees are more flammable than living trees because they contain less moisture, one of the key variables in combustibility. However, we have established in another comment (Part I) that the claim that only dead and dying trees will be removed is contradicted by the SNRAMP which the DEIR is supposedly evaluating. There is no evidence that the trees that will be removed are dead or dying. Furthermore, if the predictions of experts on Sudden Oak Death prove to be true, 90% of the native oak woodland which SNRAMP proposes to expand will be dead and highly flammable within 25 years. [Ref: Fimrite, Peter, “Sudden oak death cases jump, spread in the Bay Areas,” San Francisco Chronicle, October 2, 2011]
Unless scientific evidence can be provided to support statements in the DEIR regarding fire hazard, the final EIR must be corrected to reflect the scientific and experiential evidence that refutes it:
- Native vegetation is not inherently less flammable than non-native vegetation, including eucalyptus
- Thinning the forest will not reduce fire hazards.