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The genetic diversity of Ceanothus-infective FrankiaRitchie, Nancy J. 12 December 1997 (has links)
Frankia from root nodules of nine different species of Ceanothus were
characterized. DNA was amplified directly from nodular material using the polymerase
chain reaction (PCR). The amplified region includes the 3' end of the 16S rRNA gene,
the intergenic spacer (IGS), and a large portion of the 23S rRNA gene. Restriction
enzyme digestions of PCR products allowed us to designate PCR-RFLP groups among
the Ceanothus-infective Frankia tested. The groupings did not follow the taxonomic
lines of the Ceanothus host species. Instead, the Frankia strains present followed a
geographical pattern. This information was used to choose representative Ceanothus-infective
Frankia for phylogenetic analysis.
Full-length 16S rDNA sequences were amplified directly from the nodules of two
Ceanothus species using the PCR. Sequences were determined using an automated
sequencer, compared against GenBank, and assembled into consensus sequences. The
sequences were aligned with other full-length Frankia 16S rDNA sequences available
from the database. Phylogenetic trees were obtained from three different algorithms:
neighbor joining, parsimony, and the maximum-likelihood method. These Ceanothus
microsymbionts appear to be most closely related to the microsymbiont associated with
Dryas drummondii using all three methods. / Graduation date: 1998
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Snowbrush, Ceanothus velutinus Dougl., its ecology and role in forest regeneration in the Oregon Cascades /Zavitkovski, J. January 1966 (has links)
Thesis (Ph. D.)--Oregon State University, 1966. / Typescript. Includes bibliographical references (leaves 84-91). Also available on the World Wide Web.
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Seasonal estimates of nitrogen fixation by Alnus rubra and Ceanothus species in western Oregon forest ecosystems /Kim, Dong Yeob. January 1987 (has links)
Thesis (M.S.)--Oregon State University, 1987. / Typescript (photocopy). Includes bibliographical references (leaves 65-71). Also available online.
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Evolution and ecology of the Ceanothus-Frankia symbiosisJeong, Soon-Chun 25 September 1997 (has links)
The evolutionary relationship between Frankia and actinorhizal plants was evaluated
by reconstructing molecular phylogenetic trees from nifH, 16S rDNA, and rbcL
nucleotide sequences. Subgroupings in Frankia phylogenetic trees reconstructed from
nifH and from 16S rDNA sequences were consistent in terms of plant origins of Frankia
strains. Although the branching order of Frankia 16S rDNA and plant rbcL trees were
different, subgroupings of Frankia and of plants correlated well in terms of symbiotic
partnership. Tree matching, estimated divergence times, and molecular clock hypothesis
tests indicated that Frankia clades diverged more recently than plant clades and that
actinorhizal symbioses originated more than three times after the plant clades diverged.
A phylogenetic tree of Ceanothus species, which are symbiotic partners of Frankia,
was reconstructed using ndhF gene sequences. The analysis identified two main clades
corresponding to two subgenera: Ceanothus and Cerastes. The analysis also suggested
that three monophyletic clades within the subgenus ceanothus can be delimited on the
basis of vegetative characters. Based on rbcL sequences, the two subgenera diverged 18-39 million years ago whereas species within each subgenus diverged more recently.
These results support the current division of Ceanothus into two monophyletic subgenera
and agree with the postulated recent divergence of many species within each subgenus.
Specificity between Ceanothus species and their Frankia microsymbionts was
evaluated by analysis of DNA in nodules collected from three copopulations of
Ceanothus species. Sequencing of the intergenic spacer region between 16S and 23S rRNA genes suggested that Ceanothus-microsymbiont Frankia are closely related.
Nodules were further analyzed by genomic fingerprinting using repetitive sequences and
PCR (rep-PCR). A newly designed, direct repeat sequence and a BOX sequence showed
that Ceanothus-microsymbiont Frankia exhibited less diversity within each copopulation
than among copopulations. Furthermore, geographic separation was a more important
factor for divergence of Ceanothus-microsymbiont Frankia than host plant.
The population of Ceanothus-infective Frankia in soils under stands of Ceanothus
velutinus and Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco), a non-host plant, were
compared. The population sizes were measured using plant bioassay methods with C.
velutinus, C. sanguineus, and C. integerrimus as trap plants. Population size in soil under
C. velutinus was about 10 times higher than that under the Douglas-fir. Nodulation
capacities of the three trap plants were not significantly different. The diversity of
Frankia nodulating trap plants was examined using rep-PCR. Results suggested that
infective Frankia is not species-specific with regard to the three Ceanothus species used
as trap plants and that although the degree of diversity was similar in both soils, the two
populations consisted of different Frankia. / Graduation date: 1998
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The ecology and biogeography of the Ceanothus-Frankia symbiosis in California /Oakley, Brian B. January 2003 (has links)
Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (leaves 145-153).
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Study of some biological and nutritional factors that influence nodulation by Frankia on red alder (Alnus rubra) and snowbrush (Ceanothus velutinus) within three age-class Douglas-fir forests in H.J. Andrews Experimental Forest, Oregon /Rojas-Melo, Nestor S. January 1997 (has links)
Thesis (Ph. D.)--Oregon State University, 1998. / Typescript (photocopy). Includes bibliographical references. Also available on the World Wide Web.
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Chaparral history, dynamics, and response to disturbance in southwest Oregon : insights from age structure /Duren, Olivia. January 1900 (has links)
Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 45-54). Also available on the World Wide Web.
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Evolution of Edaphic Ecology in Ceanothus (Rhamnaceae)Burge, Dylan O. January 2011 (has links)
<p>Edaphic factors--those pertaining to the substrate or soil--are thought to play an important role in the diversification of flowering plants. Although edaphic factors are widely interpreted as causal agents in plant diversification, little is known about the evolutionary origin of most edaphic endemic plants, preventing inference of potential mechanisms by which substrate properties may influence speciation. The North American plant genus Ceanothus (Rhamnaceae) contains 9 edaphic-endemic species, taxa restricted to soils derived from specific geological materials. The three components of my dissertation research aim to improve understanding of how edaphic ecology has influenced the diversification of Ceanothus. First, I use DNA sequence data from the low-copy nuclear gene nitrate reductase to reconstruct the phylogeny of Ceanothus and elucidate diversification of this group into the California Floristic Province (CFP) of western North America, including the evolution of edaphic endemism. This research indicates that diversification of the two Ceanothus subgenera (Cerastes and Ceanothus) is centered on the CFP and is characterized by shallow divergence and phylogenetic relationships defined predominantly by geography. Divergence time estimation suggests that diversification of both Ceanothus subgenera began approximately 6 Ma. The nine edaphic-endemic taxa are not phylogenetically clustered in my analyses, suggesting that the origin of edaphic endemism has occurred on multiple occasions, including multiple examples of serpentine endemism. The second chapter of my dissertation uses soil chemistry data in combination with a more detailed examination of genetic variation in nitrate reductase to elucidate the evolution of a single edaphic endemic species.</p> / Dissertation
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Nitrogen fixation by Ceanothus fendleri and Lupinus argenteus as a function of parent material and vegetal coverStory, Mark Thomas, 1949- January 1974 (has links)
No description available.
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Fuels Treatment Longevity of Mechanical Mastication and Growth Response of Ponderosa Pine (Pinus Ponderosa) in Northern CaliforniaHamby, Gregory Walters 07 May 2016 (has links)
Many fire-prone forests in western North America suffer from hazardous fuel conditions. Mechanical mastication is an increasingly common method of fuels treatment, but little is known regarding long-term effectiveness. A randomized block design at two sites (northern Sierras and southern Cascades) compared ladder fuels and overstory growth among treatments including mastication alone and mastication followed with prescribed fire or herbicide 10 or 11 years post-treatment. Subsequent herbicide application reduced ladder fuels in comparison to mastication alone or with prescribed fire. Prescribed fire further reduced ladder fuels at the southern Cascades site, however, in the northern Sierras postire ladder fuels were positively related to overstory absence. Mastication alone effectively released ponderosa pine at the southern Cascades site, whereas neither herbicide nor prescribed fire affected pine radial growth. This study demonstrates the feasibility of prescribed fire and herbicide for increasing treatment longevity of mastication, but also highlights potential limitations and important considerations.
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