More info for the terms:
density,
fire intensity,
fire management,
forest,
fuel,
meristem,
prescribed fire,
tiller,
wildfireLate spring is the best time to burn big bluestem stands. The later in
the spring burning occurs, just prior to the emergence of new growth,
the greater the postburn herbage production will be. If burns are
conducted too early, production may decrease as a result of the
increased evaporation of soil moisture in the interval between the fire
and the resumption of new growth [
74]. Spring burns leave the soil
exposed for the least amount of time and thus reduce soil moisture
levels over the growing season less than winter, early, or mid-spring
burns [
6,
85]. Regardless of season of burn, however, soil moisture
content is consistently lower in burned areas than in unburned areas.
Thus in drought years, in areas of low precipitation, or in areas where
soil moisture is limiting, big bluestem will probably not show the high
postburn biomass increases generally reported for tallgrass prairie
sites.
Late spring burning can be used to increase grass productivity and
improve cattle use. Cattle prefer vegetation on burned sites over that
on unburned sites [
80]. Compared with weight gains of cattle grazing in
nearby unburned pastures, weight gains of cattle grazing on late spring
burned pastures were 17 percent higher in Oklahoma [
115], and 11 percent
higher in Kansas [
80].
Late spring burning can be used to increase big bluestem and other warm
season grass composition in warm season pastures or rangelands infested
with undesirable cool season grasses such as Kentucky bluegrass. Late
spring burning favors warm season grasses because they are dormant at
the time of ignition, and resume growth as normal from stored food
reserves held in underground organs. Burning at this time generally
harms cool season grasses, however, since they begin spring growth
earlier, and are actively growing at the time of ignition.
FIRE CASE STUDY
SPECIES: Andropogon gerardii
FIRE CASE STUDY CITATION : Uchytil, Ronald J., compiler. 1988. Effects of different fuel loads on big bluestem
in an Oklahoma prescribed fire. In: Andropogon gerardii. In:
Fire Effects Information System, [Online]. U.S. Department of Agriculture,
Forest Service, Rocky Mountain Research Station, Fire Sciences Laboratory
(Producer). Available: https://www.fs.fed.us
/database/feis/ [
var months = new Array(12);
months[0] = "January";
months[1] = "February";
months[2] = "March";
months[3] = "April";
months[4] = "May";
months[5] = "June";
months[6] = "July";
months[7] = "August";
months[8] = "September";
months[9] = "October";
months[10] = "November";
months[11] = "December";
var date = new Date();
var year = date.getFullYear();
var month = date.getMonth();
var day = date.getDate();
document.write(year+", "+months[month]+" "+day);
].
REFERENCE : Ewing, A. L.; Engle, D. M. 1988. Effects of late summer fire on tallgrass
prairie microclimate and community composition. The American Midland Naturalist.
120(1): 212-223. [
36].
SEASON/SEVERITY CLASSIFICATION : Late summer/severe
STUDY LOCATION : This study took place at the Oklahoma Agricultural Experiment Station's
Agronomy Research Range, approximately 9 miles (15 km) southwest of
Stillwater, Oklahoma.
PREFIRE VEGETATIVE COMMUNITY : The vegetation was tallgrass prairie dominated by the big bluestem
(Andropogon gerardii), indiangrass (Sorghastrum nutans),
switchgrass (Panicum virgatum), little bluestem (Schizachyrium
scoparium), and side-oats grama (Bouteloua curtipendula).
TARGET SPECIES PHENOLOGICAL STATE : Big bluestem was in an active growth stage at the time of this September
5 burn. Plants were probably in flower.
SITE DESCRIPTION : Two similar upland study sites with different grazing histories,
approximately 2.1 miles (3.5 km) apart, were burned. One site was
moderately grazed in recent years including the year of burning
(considered the low fuel site), while the other had not been grazed for
at least 3 years (considered the high fuel site). Mean annual
precipitation is 32.7 inches (83.1 cm) with 75 percent falling between
April through October. Precipitation was 17 percent above average
during the 1985 growing season. Weather conditions were typical of
wildfire conditions - hot and dry. The relative humidity was 36
percent, while the ambient temperature was 98.6 degrees F (37 deg C).
Wind speed at the low fuel plots was 13.8-24 mph (23-40 kph), and 7.8-18
mph (13-30 kph) at the high fuel plots. The low fuel plots had 443 plus
or minus 74 grams/m2 of accumulated fuel, while the high fuel plots had
1032 plus or minus 60 grams/m2 of accumulated fuel.
FIRE DESCRIPTION : The fire was a line head fire ignited by drip torch on September 5, 1985.
Fire intensity and fire temperatures demonstrate that fire on the high
fuel plot was roughly four times as intense at the soil surface as that
on the low fuel plot. Fire intensity and duration was measured in
degree seconds. Degree seconds is the amount of time the sampled area
differs from the ambient post-burn temperature by more than 2 degrees C
(sampled at two second intervals). Data on fire intensity and duration
are presented below:
Area Sampled degree seconds
low fuel high fuel
soil surface 10,400 +or- 1,900 43,000 +or- 3,200
6 in (15 cm) above soil surface 6,300 +or- 40 29,000 +or- 2,100
12 in (30 cm) above soil surface 3,900 +or- 180 20,300 +or- 1,400
FIRE EFFECTS ON TARGET SPECIES : This late summer fire resulted in nearly complete combustion of biomass,
with the plots generally having blackened and bare soil with a dusting
of ash. Tiller counts two months after the fire showed that big
bluestem recovered well on the low fuel plot. Most of the regrowth came
from existing tillers which had been completely defoliated but had not
suffered apical meristem damage during the fire. On the high fuel plot,
extensive damage to tillers occurred. Reductions in tiller densities
were apparent 2 months after burning. Regrowth on high fuel plots
consisted largely of newly initiated tillers. Big bluestem tiller
density before and after burning is summarized below:
low fuel plot high fuel plot
before burn after burn before burn after burn
(8/15/85) (10/22/85) (8/15/85) (10/22/85)
tiller density (#/m2) 23 45 89 17
By the end of the following growing season, tiller densities were
roughly equal on burned and unburned plots. Even on the high fuel plot,
where fire induced reductions in tiller density was apparent in the
early growing season, tiller densities returned to normal by September.
FIRE MANAGEMENT IMPLICATIONS : The rhizomatous character of big bluestem makes it well adapted to
survive summer fires. Initiating new growth from rhizomes allows this
grass to quickly revegetate the postburn community. Wildfire in the
tall grass prairie region, may initially reduce big bluestem
productivity, but total aboveground biomass may return to normal by the
end of the following growing season.