Global ETD Search

21	Exploring A Stable Aspen Niche Within Aspen-Conifer Forests of Utah Mittanck, Cody M. 01 May 2012 (has links) Quaking aspen (Populus tremuloides Michx.) is the most widespread broadleaf tree species of North America. Increasing evidence shows that aspen has diverging ecological roles across its range as both “seral” and “stable” aspen community types. This leads us to believe that the successional pathway of aspen may not always lead to a climax conifer sere, but may in some cases consist of persisting stands of pure aspen. This study is an attempt to understand the relationship of aspen community types to climatic, physical, and biophysical variables by modeling patterns of aspen and conifer distribution using remote sensing and GIS technology. Study methodologies and results were specifically designed to aid land managers in identifying extent and status of aspen populations as well as prioritizing aspen restoration projects. Four study sites were chosen in order to capture the geographic and climatic range of aspen. Photointerpretation of NAIP color infrared imagery and linear unmixing of Landsat Thematic Mapper imagery were used to classify dominant forest cover. A Kappa analysis indicates photointerpretation methods to be more accurate (Khat=92.07%, N=85) than linear unmixing (Khat=51.05%, N=85). At each plot, variables were calculated and derived from DAYMET data, digital elevation models, and soil surveys, then assessed for precision and ability to model aspen and conifer distributions. A generalized linear model and discriminant analysis were used to assess habitat overlap between aspen and conifer and to predict areas where “stable” aspen communities are likely to occur. Results do not provide definitive evidence for a “stable” aspen niche. However, the model indicates 60 to 90 cm of total annual precipitation and topographic positions receiving greater than 4,500 Wh m‐2 d‐1 of solar radiation have a higher potential for “stable” aspen communities. Model predictions were depicted spatially within GIS as probability of conifer encroachment. In addition, prediction‐conditioned fallout rates and receiver operating characteristic curves were used to partition the continuous model output. Categorical maps were then produced for each study site delineating potential “stable” and “seral” aspen community types using an overlay analysis with landcover maps of aspen‐conifer forests. Aspen Niche Aspen-Conifer Forest Utah Human Ecology Social and Behavioral Sciences Sociology
22	Battle of the Bark Vice President Research, Office of the 06 1900 (has links) The pine beetle is transforming BC's lush greenery into a sea of red death. Jorg Bohlmann looks to the conifer tree for clues on how to halt the beetle's rampant spread. Jorg Bohlmann Michael Smith Laboratories forestry botany conifer pine beetle Genome Canada
23	Jack Pine Signalling and Responses to Herbivory Lazebnik, Jenny Unknown Date No description available. inter-plant communication conifer defence volatile organic chemicals insect-plant interactions jack pine budworm jack pine
24	Pacific herring and salmon: ecological interactions across the land-sea interface Fox, Caroline Hazel 13 August 2013 (has links) Ecosystems are linked by spatial subsidies, the bi-directional flows of nutrients, materials and energy that cross ecosystem boundaries. Considered one of the planet’s most productive and diverse meta-ecosystems, the broad interface between land and sea is crossed by innumerable abiotic and biotic spatial subsidies, including migratory animals. Routinely crossing ecological boundaries, migrants play significant roles in subsidizing receiving ecosystems, including influencing ecosystem productivity, diversity, community structure and trophic cascades. On the Pacific coast of North America, spatial subsidies driven by migratory Pacific salmon have been intensively studied. Like many of the world’s migrants, however, salmon populations have declined considerably and most of our scientific knowledge has been gained from a diminished subsidy. Other subsidies, including those driven by migratory species in decline, remain relatively unknown. Each year, Pacific herring (Clupea pallasii) migrate to shallow waters to spawn on nearshore and intertidal substrates. Despite suggestions in the literature that herring, an abundant, nearshore/intertidal spawning forage fish, subsidizes coastal ecosystems, there had been no investigation of cross-ecosystem interactions. Just as stable isotopes and fatty acids have been used to explore wrack (drift macrophytes) subsidies to intertidal ecosystems, we combined both approaches to trace the input of Pacific herring and wrack to semi-terrestrial amphipods (Traskorchestia spp.), which are highly abundant detritivores in beach ecosystems. Brown algae and seagrass were major contributors to amphipods but when available, herring was also a significant resource. Because amphipods are prey for terrestrial consumers, including bears (Ursus spp.), we also identified indirect trophic linkages between herring and terrestrial ecosystems. Bears are major consumers and vectors of salmon into terrestrial ecosystems, but little is known regarding their involvement in other spatial subsidies. Using a model-based inference approach paired with remote cameras to monitor intertidal black bear (U. americanus) activity, we determined that the best predictors of black bear intertidal activity were major intertidal prey items (herring and amphipod biomass) and Julian day. Bears positively responded to herring and amphipod biomass on beaches but it was the analysis of scats that determined the contribution of herring eggs to the diets of bears. In 2010, the herring spawn was relatively poor and consumption of eggs was negligible, with amphipods constituting a major portion of bear diets. In following years, herring egg loading was relatively high and eggs were the dominant dietary item in bear scats. Tracing the contribution of herring into terrestrial areas proved challenging and instead, we furthered knowledge of the within-watershed spatiotemporal influences of salmon on conifer tree ring growth and δ15N signatures. Both tree ring growth and δ15N signatures tracked the known spatial distribution of salmon carcasses. Using a model-based inference approach, salmon abundance and interaction terms of salmontemperature and salmondistance into the forest best predicted tree growth. In contrast, salmon abundance was not a leading predictor of δ15N. By broadening our understanding of the fine-scale influence of salmon on a stand of ancient trees, this research is expected to contribute to future exploration of the terrestrial influences of Pacific herring. / Graduate / 0329 / cfox@uvic.ca spatial subsidy Pacific herring spawn salmon Amphipoda black bear fatty acids stable isotopes conifer
25	Transcriptomic analysis of Douglas-fir megagametophyte development and abortion Boyes, Ian 30 August 2013 (has links) Douglas-fir develops a megagametophyte regardless of the pollination state of the ovule, whereas many other conifers develop a megagametophye in response to polli- nation. Megagametophytes in unfertilized ovules degrade two weeks following fertil- ization of the surrounding population. This is mediated by programmed cell death (PCD). Pollinated and unpollinated megagametophytes were dissected from Douglas- fir cones and extracted for RNA, which was then used as input for sequencing. A transcriptome was assembled from this data and expression levels were calculated. The data were fitted to quadratic regressions to produce coexpression groups. There is no clear upregulation of PCD effectors in the unpollinated megagametophyte. Po- tential regulators of megagametophyte fate are present in the data. Some are as- sociated with ABA signalling and proanthocyanadin biosynthesis while others share similarity to known regulators of PCD. Seed development processes are represented in the expression data, which support current knowledge of conifer seed development and provide targets for research. / Graduate / 0369 / 0309 / 0817 / igboyes@gmail.com Douglas-fir seed ovule megagametophyte gymnosperm conifer Megastigmus pollen pollination abortion embryo ABySS RSEM proanthyocyanidin transcriptome
26	Variation in reproductive characteristics of lodgepole pine (Pinus contorta var. latifolia) in British Columbia Berland, Anne 09 January 2014 (has links) Lodgepole pine (Pinus contorta var. latifolia) is the most wide-ranging pine in North America. Populations in British Columbia vary widely in phenotypic and genotypic characteristics. The effect of climate on variation in reproductive characteristics has never been examined, yet is vital to the production of seed necessary for reforestation. This study aims to determine the relationship between the climate in B.C and variation in female cone and seed characteristics. The study makes use of the Illingworth provenance trial, sixty common garden plots that are distributed throughout British Columbia. Female cones from six provenances were collected at 21 sites during the summer of 2012. The number of scales was counted and maximum length was measured for each cone. Seed was extracted and counted. Variables were pooled for each tree. The climate at each site was described using data from ClimateWNA. Principal components analysis was used to reduce the highly correlated data set to the first two principal components (PC1 and PC2), which together described 76.7% of the variation in the data. PC1 was most closely aligned with variables related to temperature, the number of frost-free days, and degree-days above 5°C or below 0°C. PC2 was most closely aligned with precipitation and moisture variables. The reproductive variables were moderately positively correlated with one another. Analysis of variance indicated that average cone length and the average number of seeds per cone were significantly affected by both site and provenance, however the average number of seeds per cone was not. Average values of each reproductive trait for each site were modelled against the first two principal components using multiple analysis of variance and univariate linear modelling. The best-fit model for the average number of scales per cone included PC1 and PC2, however the model only described 4.9% of the variation in the data. The best-fit model for the number of seeds included only PC1, and iv the model only explained 4.1% of the variation in the data. The model for average cone length had the strongest results, with a model that included PC2 and explained 18.7% of the data. The results of the study indicate that climate is not the most important factor in predicting reproductive characteristics such as cone length, and the number of scales and seed per cone. The significant effect of moisture on average cone length was the strongest relationship identified in the study. The reproductive traits were best described by their stability across the climates of the test sites. High genetic variation in lodgepole pine populations may be contributing to the stability of reproductive traits. Lodgepole pine female cone and seed traits were stable for mature trees over a wide range of provenances and climate regions. / Graduate / 0309 / 0478 / anne.berland@gmail.com forest biology forestry lodgepole pine reproduction biology conifer reproduction climate British Columbia
27	Effect of Bursaphelenchus xylophilus (Nematod:Aphelenchoididae) fourth stage dispersal of juveniles and log seasonality on life processes of Monochamus carolinensis (Coleoptera:Cerambycidae) / Akbulut, Süleyman, January 1998 (has links) Thesis (Ph. D.)--University of Missouri-Columbia, 1998. / Typescript. Vita. Includes bibliographical references (leaves 130-145). Also available on the Internet.
28	Effect of Bursaphelenchus xylophilus (Nematod:Aphelenchoididae) fourth stage dispersal of juveniles and log seasonality on life processes of Monochamus carolinensis (Coleoptera:Cerambycidae) Akbulut, Süleyman, January 1998 (has links) Thesis (Ph. D.)--University of Missouri-Columbia, 1998. / Typescript. Vita. Includes bibliographical references (leaves 130-145). Also available on the Internet.
29	Evolution de la résistance à la cavitation chez les conifères / The evolution of cavitation resistance in conifers Larter, Maximilian 22 July 2016 (has links) Les forêts du monde entier sont menacées de mortalités importantes lors de sécheresses intenses liés au changement climatique. Les conifères en particulier semblent extrêmement vulnérables à la mort par dysfonctionnement hydraulique de leur système vasculaire ou embolie. Le principal objectif de cette thèse est d’étudier la résistance à l’embolie des conifères dans un cadre évolutif. Premièrement, nous avons mis en évidence que la résistance à l’embolie varie d’un facteur neuf sur plus de 250 espèces parmi les 7 familles de conifères, atteignant un nouveau record du monde avec Callitris tuberculata (P50 = -18.8 MPa). Nous avons montré le lien évolutif entre cette résistance et l’anatomie des ponctuations aréolées. En combinant cette base de données unique avec une phylogénie calibrée de plus de 300 espèces, nous avons retracé la diversification des conifères et l’évolution de leur résistance à l’embolie. Nous avons découvert que plusieurs lignées de conifères ont brusquement changé de dynamiques évolutives, avec l’accélération de la spéciation et de l’évolution de résistance à l’embolie. En outre, les conifères plus résistants se sont diversifié plus rapidement, notamment les genres Cupressus, Juniperus et Callitris (Cupressaceae). La diversification de ces derniers s’est accélérée avec l’aridification de l’Australie sur les derniers 30 Millions d’années. Nous montrons que leur xylème a été façonné par la sécheresse, devenant plus résistant à l’embolie mais surtout sans compromettre l’efficience du transport de l’eau ou augmenter son coût de construction. Cette thèse élargit notre compréhension de l’évolution des plantes vasculaire face aux sécheresses intenses. / Forests worldwide are at increased risk of widespread mortality due to intense drought under current and future climate change. In particular, conifer species seem extremely vulnerable to mortality due to hydraulic failure or embolism. The main objective of this thesis was to examine conifer resistance to embolism in an evolutionary framework. Firstly, we uncovered 9-fold variation in resistance to embolism across 250 species from the 7 conifer families, culminating in a new world record in Callitris tuberculata (P50 = -18.8 MPa). We demonstrated the evolutionary relationship between increased embolism resistance and the anatomy of bordered pits. By combining this unprecedented physiological dataset with a time-calibrated phylogeny of over 300 species, we retraced conifer diversification and the evolution of embolism resistance. We discovered multiple evolutionary dynamics with several conifer lineages shifting to higher rates of speciation and trait evolution. We found that conifers with high drought resistance diversified more rapidly, especially crown groups of Cupressaceae composed of the Cupressus-Juniperus clade and the Callitris clade. Within this last group, diversification rates increased over the course of the aridification of Australia over the last 30 million years. We show how their xylem has been shaped by drought, becoming more resistant to embolism, but crucially we found no trade-off with water transport efficiency or construction costs. This work greatly expands our understanding of how vascular plants have evolved to cope with extreme drought. Embolie Sécheresse Évolution Conifères Xylème Changement climatique Embolism Drought Evolution Conifer Xylem Climate change
30	Araucaria in the Urban Landscape: A Novel Leaning Pattern and Evidence of Cultivated Hybridization Johns, Jason W. 01 January 2017 (has links) Our understanding of the natural world is constantly evolving and strengthening as more observations are made and experiments are performed. For example, we understand that tree stems grow toward the light (positive phototropism; Darwin 1880, Loehle 1986, Christie et al. 2013) and against gravity (negative gravitropism; Knight 1806, Hashiguchi et al. 2013). We also know that plants respond to mechanical stimulus and perturbation (thigmotropism; Braam 2005). Genes and their resulting proteins have been described to uncover some of the mechanisms for these environmental responses, but relatively speaking, we have just scratched the surface (Wyatt et al. 2013). While the discovery of the molecular mechanisms responsible for these behaviors is certainly dependent on the ever-improving lab technology available, every molecular discovery is dependent on a macroscopic observation. In this manuscript I present the two novel macroscopic observations I made on members of Araucaria in the urban forest. The first describes a hemisphere-dependent lean in A. columnaris, and the second provides genetic and morphological evidence that hybrids exist between A. columnaris and A. heterophylla. Araucaria columnaris (J.R. Forst.) Hooker, or the Cook Pine is a conifer with a narrow native range that has been cultivated worldwide and grows unlike any other tree known. The initial observation we made was that trees in California and Hawaii lean south, and trees in California lean to a greater extent than trees in Hawaii. Measuring 250 trees in 16 regions worldwide, however, produced statistically significant evidence for a hemisphere dependent directional leaning pattern. Trees in the northern hemisphere lean south, and trees in the southern hemisphere lean north. Additionally, the lean becomes more pronounced at greater distances from the equator. We also gathered morphological and genetic evidence in the California urban forest that A. columnaris and A. heterophylla (Salisb.) Franco are hybridizing. Many individuals have intermediate characteristics of both species, which originally led me to believe that hybrids exist in cultivation. After analyzing several individuals with microsatellite genetic markers, I have enough evidence to conclude that hybrids between A. columnaris and A. heterophylla exist. This is an important observation mainly for municipalities and arborists interested in properly identifying trees in the urban forest. Knowing the proper identity of trees is imperative to informing decisions about their protection or removal. As we continue to ask questions about the inner workings of nature we will continue to gain a better appreciation for what we still do not know. The evidence provided in this manuscript better informs our future questions about a leaning pattern in A. columnaris and about the history of the cultivation of Araucaria. tree conifer cultivation lean Araucaria gymnosperm Botany Comparative and Evolutionary Physiology Genetics Horticulture Plant Biology

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