Vegetation Response to Prescribed Fire in Mountain Big Sagebrush Ecosystems at Lava Beds National Monument, California PDF Download
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Author: Lisa M. Ellsworth Publisher: ISBN: Category : Big sagebrush Languages : en Pages : 224
Book Description
Anthropogenic land use alterations such as livestock grazing and fire suppression have greatly altered sagebrush grasslands of the Great Basin, facilitating invasion of exotic annuals, increases in woody species, and losses of native species. Much of the current research surrounding wildland and prescribed fire in sagebrush dominated ecosystems has focused on a persistent belief that fire in sagebrush systems results in a loss of native flora and a trend toward dominance by exotic annuals. Fire was historically the dominant disturbance throughout the sagebrush steppe and the plant species that comprised these communities possess a variety of adaptations facilitating survival to the fire regime. In order to restore ecosystems, land managers will need to reintroduce natural ecosystem processes, including natural disturbance processes. To describe the response of these plant communities to fire, I examined the plant community response, seedbank response, and reproductive and density responses of three native bunchgrasses (Pseudoroegneria spicata, Achnatherum therberianum, and Elymus elymoides) as well as one native forb (Calochortus macrocarpus) following spring and fall prescribed fires at Lava Beds National Monument. Fires were applied to three Artemisia tridentata ssp. vaseyana (Mountain Big Sagebrush) plant communities with different land use and fire histories. These communities were different in composition ranging from a dominance of exotic annuals to dominance by native grasses, shrubs, and trees. Little is known about how prescribed fire affects the soil seed bank in sagebrush-dominated ecosystems. To address this, we quantified the emergence of Bromus tectorum (cheatgrass) seedlings as well as emergence of seedlings of functional groups (native forbs, bunchgrasses, and shrubs) in a seedbank germination study. At the invasive dominated site (Gillems Camp), we found 91% fewer B. tectorum seedlings germinated in spring burned sites than in controls immediately following spring prescribed burns. However, soils collected one-year following fire had 40% more B. tectorum germinants (8017 germinants/m [superscript 2]) than unburned controls (5132 germinants/m [superscript 2]). Following fall burns at this site there was a similar response, with a 56% immediate reduction in B. tectorum (as compared to unburned control) and a 59% increase in B. tectorum and 58% increase in exotic forb germinants one year following fires. There was an increase in native forb germination following spring burns (94%) and fall burns (45%) at a site dominated by native plants (Fleener Chimneys). Native bunchgrass seed germination declined following spring fire in sites dominated by sagebrush and native understory vegetation (79%), and in sites where Juniperus occidentalis (western juniper) and other woody species dominated (Merrill Caves) (71%). In invasive-dominated sites (Gillems Camp), there was a decrease in B. tectorum cover following both spring (81% decrease) and fall fires (82% decrease), and little native vegetation composition change. Shrub cover, made up predominantly of Chrysothamnus nauseosus, decreased following spring (95% decrease) and fall (93% decrease) fires. At the sagebrush, native understory site (Fleener Chimneys), there was a reduction in native bunchgrass cover (64% decrease), and an increase in native forbs (168% increase) following spring burns, with no changes following fall fires. At the juniper- woody dominated site (Merrill Caves), fire treatments resulted in a decrease in woody plant cover, with no immediate postfire differences seen in the herbaceous plant community. Density of bunchgrass species (Pseudoroegneria spicata, Achnatherum therberianum, Elymus elymoides) did not change following either spring or fall prescribed fire treatments. Fire enhanced flowering was not seen in C. macrocarpus following spring or fall burns at the native or juniper dominated sites. There was increased reproductive effort in native bunchgrass species following fires in all communities studied. Following spring fires at invasive dominated sites, there was a 245% increase in reproductive culms of P. spicata. Following fall fires in native dominated sites, we saw a 974% increase in reproductive culms of P. spicata and a 184% increase in reproductive culms of A. therberianum. Following fall fires at juniper-dominated sites, we saw in an increase in reproductive culms of P. spicata (678% increase), A. thurberianum (356% increase), and Elymus elymoides (209% increase). These results suggest that implementing prescribed fire in order to restore the natural disturbance regime in these fire-adapted ecosystems is beneficial to restoration and preservation of the native biota.
Author: Lisa M. Ellsworth Publisher: ISBN: Category : Big sagebrush Languages : en Pages : 224
Book Description
Anthropogenic land use alterations such as livestock grazing and fire suppression have greatly altered sagebrush grasslands of the Great Basin, facilitating invasion of exotic annuals, increases in woody species, and losses of native species. Much of the current research surrounding wildland and prescribed fire in sagebrush dominated ecosystems has focused on a persistent belief that fire in sagebrush systems results in a loss of native flora and a trend toward dominance by exotic annuals. Fire was historically the dominant disturbance throughout the sagebrush steppe and the plant species that comprised these communities possess a variety of adaptations facilitating survival to the fire regime. In order to restore ecosystems, land managers will need to reintroduce natural ecosystem processes, including natural disturbance processes. To describe the response of these plant communities to fire, I examined the plant community response, seedbank response, and reproductive and density responses of three native bunchgrasses (Pseudoroegneria spicata, Achnatherum therberianum, and Elymus elymoides) as well as one native forb (Calochortus macrocarpus) following spring and fall prescribed fires at Lava Beds National Monument. Fires were applied to three Artemisia tridentata ssp. vaseyana (Mountain Big Sagebrush) plant communities with different land use and fire histories. These communities were different in composition ranging from a dominance of exotic annuals to dominance by native grasses, shrubs, and trees. Little is known about how prescribed fire affects the soil seed bank in sagebrush-dominated ecosystems. To address this, we quantified the emergence of Bromus tectorum (cheatgrass) seedlings as well as emergence of seedlings of functional groups (native forbs, bunchgrasses, and shrubs) in a seedbank germination study. At the invasive dominated site (Gillems Camp), we found 91% fewer B. tectorum seedlings germinated in spring burned sites than in controls immediately following spring prescribed burns. However, soils collected one-year following fire had 40% more B. tectorum germinants (8017 germinants/m [superscript 2]) than unburned controls (5132 germinants/m [superscript 2]). Following fall burns at this site there was a similar response, with a 56% immediate reduction in B. tectorum (as compared to unburned control) and a 59% increase in B. tectorum and 58% increase in exotic forb germinants one year following fires. There was an increase in native forb germination following spring burns (94%) and fall burns (45%) at a site dominated by native plants (Fleener Chimneys). Native bunchgrass seed germination declined following spring fire in sites dominated by sagebrush and native understory vegetation (79%), and in sites where Juniperus occidentalis (western juniper) and other woody species dominated (Merrill Caves) (71%). In invasive-dominated sites (Gillems Camp), there was a decrease in B. tectorum cover following both spring (81% decrease) and fall fires (82% decrease), and little native vegetation composition change. Shrub cover, made up predominantly of Chrysothamnus nauseosus, decreased following spring (95% decrease) and fall (93% decrease) fires. At the sagebrush, native understory site (Fleener Chimneys), there was a reduction in native bunchgrass cover (64% decrease), and an increase in native forbs (168% increase) following spring burns, with no changes following fall fires. At the juniper- woody dominated site (Merrill Caves), fire treatments resulted in a decrease in woody plant cover, with no immediate postfire differences seen in the herbaceous plant community. Density of bunchgrass species (Pseudoroegneria spicata, Achnatherum therberianum, Elymus elymoides) did not change following either spring or fall prescribed fire treatments. Fire enhanced flowering was not seen in C. macrocarpus following spring or fall burns at the native or juniper dominated sites. There was increased reproductive effort in native bunchgrass species following fires in all communities studied. Following spring fires at invasive dominated sites, there was a 245% increase in reproductive culms of P. spicata. Following fall fires in native dominated sites, we saw a 974% increase in reproductive culms of P. spicata and a 184% increase in reproductive culms of A. therberianum. Following fall fires at juniper-dominated sites, we saw in an increase in reproductive culms of P. spicata (678% increase), A. thurberianum (356% increase), and Elymus elymoides (209% increase). These results suggest that implementing prescribed fire in order to restore the natural disturbance regime in these fire-adapted ecosystems is beneficial to restoration and preservation of the native biota.
Author: Harold Biswell Publisher: Univ of California Press ISBN: 0520219457 Category : Gardening Languages : en Pages : 274
Book Description
Harold Biswell's decades of research and field experience were a major factor in developing policies of controlled or prescribed burning, which mimics or reintroduces the natural fire cycle. This comprehensive study introduces the principles and practices of prescribed burning, which apply far beyond California, within a historical and ecological perspective. Available for the first time in paperback, with a new foreword by James Agee, this book places Biswell's study—and his legacy—in the context of recent developments in the field.
Author: Neil G. Sugihara Publisher: Univ of California Press ISBN: 0520246055 Category : Business & Economics Languages : en Pages : 613
Book Description
Focusing on California and issues specific to fire ecology and management in the state's bioregions, this work provides scientific information for use in land restoration and other management decisions made in the field. It introduces the basics of fire ecology, and includes an overview of fire, vegetation and climate in California; and more.
Author: Stephen C. Bunting Publisher: ISBN: Category : Forests and forestry Languages : en Pages : 40
Book Description
Summarizes recent literature on the effects of fire on sagebrush-grass vegetation. Also outlines procedures and considerations for planning and conducting prescribed fires and monitoring effects. Includes a comprehensive annotated bibliography of the fire-sagebrush-grass literature published since 1980.
Author: Jan W. van Wagtendonk Publisher: Univ of California Press ISBN: 0520961919 Category : Science Languages : en Pages : 567
Book Description
Fire in California’s Ecosystems describes fire in detail—both as an integral natural process in the California landscape and as a growing threat to urban and suburban developments in the state. Written by many of the foremost authorities on the subject, this comprehensive volume is an ideal authoritative reference tool and the foremost synthesis of knowledge on the science, ecology, and management of fire in California. Part One introduces the basics of fire ecology, including overviews of historical fires, vegetation, climate, weather, fire as a physical and ecological process, and fire regimes, and reviews the interactions between fire and the physical, plant, and animal components of the environment. Part Two explores the history and ecology of fire in each of California's nine bioregions. Part Three examines fire management in California during Native American and post-Euro-American settlement and also current issues related to fire policy such as fuel management, watershed management, air quality, invasive plant species, at-risk species, climate change, social dynamics, and the future of fire management. This edition includes critical scientific and management updates and four new chapters on fire weather, fire regimes, climate change, and social dynamics.
Author: Mark Randolph Champlin Publisher: ISBN: Category : Big sagebrush Languages : en Pages : 272
Book Description
Four studies were conducted. First, mountain big sagebrush communities were burned at Lava Beds National Monument, California, and The Crooked River National Grassland, Oregon. In two years at Lava Beds, basal cover of Idaho fescue in one community and Thur- ber's needlegrass in one of three communities did not recover. Basal cover of bluebunch wheatgrass and Sandberg's bluegrass re- covered or increased above prefire levels at the expense of Idaho fescue and Thurber's needlegrass. Bunchgrasses recovery was based on height and production which increased to equal or exceed prefire levels. At Crooked River, height and production of bluebunch wheat- grass were much higher than prefire levels, but basal cover remain- ed extremely low after two years. Prescribed burning recommenda- tions were presented. Secondly, after hot and cool in situ propane barrel burns, mountain big sagebrush seed emergence in the greenhouse was stimu- lated. Basin big sagebrush seed emergence was reduced by both fire intensities. Emergence was inverse to fire intensity for both sub- species. Wyoming big sagebrush was not affected by fire. Both in- tensities reduced emergence of most herbaceous species from mountain big sagebrush dominated soils. Hot fires were required to reduce emergence of the few herbaceous species affected by fire on basin and especially Wyoming big sagebrush dominated soils. A trend of in- creasing fire resistance with increasing site severity was evident. Thirdly, individual and area fuel loading equations were de- veloped for each component of fuel of the three subspecies of big sagebrush. R2 values for individual shrub equations ranged from .36 to .96. Line intercept cover, the number, and the height of intercepted shrubs were used to estimate area fuel loadings with R2 values ranging from .42 to .84. This method of estimating area fuel loading provides relatively high precision at reduced cost. Fourthly, basal cover and leaf length or plant height were used to estimate bunchgrass production. R2 values for burned plant equations were higher (.66-.87) than R2 values for unburned- ungrazed plant equations (.35-.85). Basal cover accounted for at least 70 percent of the variation in Thurber's needlegrass, burned Idaho fescue, and burned bluebunch wheatgrass production. Comparisons based on indirect estimation yielded results comparable to clipping.
Author: Edward C. Rhodes Publisher: ISBN: Category : Big sagebrush Languages : en Pages : 258
Book Description
In the western United States, sagebrush (Artemisia spp L.) dominated rangelands are extensive, accounting for approximately 63 million ha. The Wyoming big sagebrush (Artemisia tridentata Nutt. ssp. wyomingensis Beetle & Young) alliance is found in more xeric environments, occupying the largest area of the big sagebrush complex in areas within a 200-300mm precipitation zone at elevations ranging from 610-2130m. Wyoming big sagebrush communities provide habitat for nearly 100 bird and 70 mammal species throughout its range. A species that is of particular concern is the sage grouse (Centrocercus urophasianus Bonaparte), which depends on big sagebrush associations for food, nesting and cover. Much of its historical range has Redacted for privacy Redacted for privacy dwindled, prompting increasing scrutiny on land use and management throughout the big sagebrush association. Destruction of remaining habitat and the danger of invasion by annual grasses such as cheatgrass (Bromus tectorum L.), has necessitated the assessment of the effects of disturbance such as fire on these communities. This study was designed to: (A) determine the effects of prescribed fire on vegetation characteristics, (B) analyze the specific response of forbs and arthropods that are important in the diet of sage grouse to fire, and (C) compare the Modified- Whittaker and Daubenmire methods of estimating species richness and vegetation cover in a Wyoming big sagebrush community. In the first project, prescribed fire had little effect on herbaceous density, cover, or species richness, but did increase perennial grass and total herbaceous standing crop the second and third year post burn, and annual forb standing crop the first and second year. Big sagebrush and total shrub cover and density were greatly reduced in burned treatments. Green rabbitbrush cover was greater in unburned treatments, but no change in density was noted. Burning did not affect soil water availability. The second project showed little overall benefit to perennial forbs preferred by sage grouse, however there was a short-lived increase in Microsteris/Collinsia parviflora (Lindl.) cover in the second post burn year. Prescribed fire may be detrimental to Hymenoptera abundance. Orthoptera may benefit from prescribed fire, but further exploration is needed in that area. Annual exotic species richness was not shown to increase in either sampling method or treatment in the third project. This is important, as it shows that sites which are dominated by a large proportion of native species from various functional groups can resist invasion. There was no clear-cut delineation between the Modified-Whittaker and Daubenmire methods. While there were some similarities in the data between the two, the Modified-Whittaker method had substantially different percent cover estimations for perennial grass and total herbaceous components in 2005. The Modified-Whittaker method also did not detect treatment effects for biotic crust, bare ground/rock, and litter cover measurements that were seen with the Daubenmire method. Shrub cover measurements were similar in both methods. Further investigation is warranted to test the applicability of the Modified- Whittaker design.
Author: Lisa M. Ellsworth
Author: Lisa M. Ellsworth
Author: Harold Biswell
Author: Charles L. Bushey
Author: Neil G. Sugihara
Author: Stephen C. Bunting
Author: Jan W. van Wagtendonk
Author: C. M. Olson
Author: Mark Randolph Champlin
Author: Edward C. Rhodes
Author: Ilana V. Bloom-Cornelius