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Pygmy Rabbit (Brachylagus idahoensis) Habitat Use, Activity Patterns and Conservation in Relationship to Habitat TreatmentsLee, Janet E. 27 June 2008 (has links) (PDF)
This study examined activity patterns and habitat use of pygmy rabbits (Brachylagus idahoensis) in mechanically treated and untreated areas in south-central Utah 2005-2008. We monitored fecal pellet plots in continuous sagebrush habitat as well as along treatment edges to record deposition and leporid presence over timed periods. Pygmy rabbit use of big sagebrush was higher than black-tailed jackrabbits (Lepus californicus) and mountain cottontail rabbits (Sylvilagus nuttallii ) (P< 0.01) relative to treated areas (P <0.01). We also compared pygmy rabbit use of areas with continuous sagebrush to residual sagebrush in a sample of mechanically treated areas. Our results suggest a treatment effect with higher (P <0.01) average counts of pygmy rabbit pellets in areas with continuous sagebrush compared to sagebrush strips and islands within treated areas. Before the big sagebrush biotype inhabited by pygmy rabbits is treated to reduce the occurrence and dominance of big sagebrush, we recommend managers consider two options. The first is no treatment, thus preserving, as is, the critical habitat of the pygmy rabbit and other sympatric big sagebrush obligate species of wildlife. The second option cautiously introduces the first prescription of habitat treatment ever recommended in relationship to the pygmy rabbit. This prescription includes recommended widths of the treated areas, seed mixes, widths of the preserved intact big sagebrush habitat for pygmy rabbits as well as suggested grazing systems for domestic livestock. Activity patterns of pygmy rabbits at their burrow were documented through the use of remote cameras. Photographs were analyzed for temporal and seasonal patterns of activity. Our results suggested that time of day was important in the activity level of pygmy rabbits while season was not. Pygmy rabbits were active during all time periods of the day but the greatest levels of activity occurred at night. Numerous other wildlife species were recorded by our remote cameras including other species of leporids, birds, rodents, reptiles and terrestrial predators.
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Novel Techniques to Improve Restoration of Native Rangeland SpeciesAnderson, Rhett Michael 27 March 2020 (has links)
The sagebrush steppe is a particularly sensitive ecosystem that is easily disturbed by fires, oil and gas extraction, woody-plant encroachment, and overgrazing. The natural regeneration of native species following a disturbance within this system is typically slow and sporadic, which allows invasive grasses to occupy the landscape. Attempts to assist the recovery of these landscapes through direct seeding is commonly met with poor success rates, particularly in lower elevation, drier sites. Novel seed enhancement technologies and planting techniques that mitigate limiting factors impairing restoration efforts may improve the likelihood of restoring these degraded areas. For chapter 1, we evaluated a solid-matrix priming technique, where bluebunch wheatgrass (Pseudoroegneria spicata) and Lewis flax (Linum lewisii) were primed and then the priming matrix and seed were pelleted together. We evaluated primed seed that had been incorporated into pellets at two field sites against seed that was pelleted but been left unprimed, and untreated seed (control). These three seed treatments were planted in the spring (mid-march) in shallow (2-cm) and deep (15-cm) furrows, in a complete factorial design. We found that primed seeds generally produced higher plant densities than control seed at the beginning of the growing season; however, its influence diminished towards the end of the growing season. We also found that deep furrows increased plant density throughout the growing season and even into the following year. The combination of priming and deep furrows outperformed control seed in shallow furrows in all measured metrics. For chapter 2, we evaluated a seed conglomeration technique for improving Wyoming big sagebrush (Artemisia tridentata ssp. Wyomingensis) emergence and survival under fall and winter plantings. The trial was implemented at five sites across Utah and Nevada in a randomized complete block-split-split plot design, with site, and planting season, comprising the split-plot factors. Each site and season combination was seeded with conglomerated and control seed. We found that in most cases, a fall seeding of Wyoming big sagebrush was either the same or more successful compared to planting on the snow in the winter, which is the current suggested practice. Our results also demonstrated that seed conglomeration produced higher plant densities compared to control seed throughout the growing season. The higher density of plants produced from conglomerates combined with the improved seed delivery provided by the conglomeration technique was estimated to offset the cost in producing conglomerates and reduce overall restoration costs by 41%.
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Small mammal and bird abundance in relation to post-fire habitat succession in mountain big sagebrush (Artemisia tridentata ssp. vaseyana) communitiesHolmes, Aaron L. 28 December 2010 (has links)
Fire is an important disturbance mechanism in big sagebrush (Artemisia
tridentata) communities, yet little is known about wildlife population dynamics during
post-fire habitat succession. I estimated the abundance of small mammals and birds in
relation to fire history in mountain big sagebrush (A.t. spp. vaseyana) communities on the
Sheldon National Wildlife Refuge in the northwestern Great Basin, USA. I employed a
chronosequence approach that took advantage of multiple wildfires that had occurred in
similar plant communities between 7 to 20 years prior to sampling.
Belding’s ground squirrel (Spermophilus beldingii) were approximately 10 times
as abundant in burned areas relative to adjacent unburned habitat regardless of the
number of years since a burn occurred. Deer mouse (Peromyscus maniculatus) was more
abundant on more recently burned sites, but not at sites closer to full vegetation recovery.
Great basin pocket mouse (Perognathus parvus), sagebrush vole (Lemmiscus curtatus),
and least chipmunk (Tamius minimus) abundance did not vary as a function of fire
history, but some variance was explained by habitat features such as rocky areas and the
canopy characteristics of sagebrush.
Bird diversity was higher in unburned habitats irrespective of the number of years
of recovery out to 20 years. Nine of the 12 most widely occurring species of birds in the
study have population densities influenced by fire or post-fire habitat succession to at
least 13 to 20 years following a burn. Sage Sparrow (Amphispiza belli), Black-throated
Sparrow (Amphispiza bilineata), and Spotted Towhee (Pipilo maculatus) occurred at
relatively low densities and were nearly restricted to unburned habitats. Green-tailed
Towhee (Pipilo Chlorurus), Gray Flycatcher (Empidonax wrightii), American Robin
(Turdus migratorius), and Brown-headed Cowbird (Molothus ater) occurred at lower
densities in burned areas than adjacent unburned areas although the relationship was not
strong for the latter two species. The magnitude of the difference in density between
burned and unburned sites within a landscape diminished with the number of years of
vegetation recovery for Green-tailed Towhee. Brewer’s Sparrow (Spizella brewerii)
occurred at lower densities relative to adjacent habitat in the most recent burn, but
occurred at higher densities after 20 years of habitat succession, suggesting a positive
response with a multiple decade lag period. Horned Lark (Eremophila alpestris) and
Vesper Sparrow (Pooecetes gramineus) respond positively to fire, but densities were
similar to unburned areas after 20 years of habitat succession.
An ordination analysis captured 86% of the variation in 12 bird species with 3
orthogonal axes. My research demonstrates that strong community structure exists for
birds associated with mountain big sagebrush habitats, and that fire influences
community structure for multiple decades. / Graduation date: 2011 / Access restricted to the OSU Community at author's request from Dec. 22, 2010 - Dec. 22, 2011.
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