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Distribution of Larrea tridentata in the Tucson area as determined by certain physical and chemical factors of the habitatYang, Tien Wei, 1921- January 1950 (has links)
No description available.
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PHENOLOGY OF TETRAPLOID CREOSOTEBUSH, LARREA TRIDENTATA (DC.) COV., AT THE NORTHEASTERN EDGE OF THE SONORAN DESERT.ABE, YOKO. January 1982 (has links)
Phenology of tetraploid Larrea tridentata was studied at four sites, one east and three west of Tucson, Pima County, Arizona in 1972-1974 and 1981. Leaf initiation, stem elongation, flower buds, flowers, maturing fruits and mature fruits were recorded at regular intervals on a sample of 10 tagged plants at each site. Quantitative production of maturing fruits on each sampled plant was estimated during the 1981 spring and summer seasons. The time required for individual new flowers to develop into mature fruits was determined for 1981. These phenological data were related to precipitation and temperature during 1972-1974 and 1981. Leaf initiation and stem elongation were continuously active on at least some parts of all sampled plants throughout the study, indicating year-round vegetative growth of Larrea in this part of the Sonoran Desert. One or more of the four reproductive phenophases were present throughout the 1972-1974 and 1981 periods. Flower buds were initiated during any time of the year. Spring flowering was the most dependable, summer flowering was frequent but less consistent and fall and winter flowerings were occasional, irregular and far more variable. Spring flowering persisted longer than summer flowering. Maturing fruit production was much greater in the spring than in the summer. Approximately 53 to 65 days were required in the spring and 42 to 47 days in the summer for new flowers to develop into mature fruits. Active vegetative growth invariably preceded the renewal of any reproductive activity. The emergence of flower buds appears to be triggered and sustained by the availability of sufficient soil moisture with minimal influence by temperature. However, higher temperatures tend to speed up the development of flower buds and flowers and fruit maturation. Differences in phenological responses among the four study sites appear to be caused mainly by local fluctuations in precipitation. The year-round vegetative growth activity and the frequent recurrence of reproductive activities observed in this study represent adaptive responses of Larrea to the biseasonal regime and the moderate winter temperatures characteristic of the northeastern portion of the Sonoran Desert.
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BRUSH CONTROL, FORAGE PRODUCTION AND TEBUTHIURON RESIDUES IN SOILS AND PLANTS AT FOUR CREOSOTEBUSH (LARREA TRIDENTATA) SITES IN THE CHIHUAHUAN AND SONORAN DESERTS.Ibarra Flores, Fernando Arturo. January 1984 (has links)
No description available.
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EFFECT OF TEBUTHIURON ON BOTANICAL COMPOSITION AND MINERAL CONCENTRATION OF SOILS AND PLANTS IN CREOSOTEBUSH COMMUNITIES.Melgoza-Castillo, Alicia. January 1984 (has links)
No description available.
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Invasive plants, fire succession, and restoration of Creosote bush scrub in Southern CaliforniaSteers, Robert Jeremy. January 2008 (has links)
Thesis (Ph. D.)--University of California, Riverside, 2008. / Includes abstract. Title from first page of PDF file (viewed Febrary 3, 2010). Available via ProQuest Digital Dissertations. Includes bibliographical references. Also issued in print.
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Monsoon Dependent Ecosystems: Implications of the Vertical Distribution of Soil Moisture on Land Surface-Atmosphere InteractionsSanchez-Mejia, Zulia Mayari January 2013 (has links)
Uncertainty of predicted change in precipitation frequency and intensity motivates the scientific community to better understand, quantify, and model the possible outcome of dryland ecosystems. In pulse dependent ecosystems (i.e. monsoon driven) soil moisture is tightly linked to atmospheric processes. Here, I analyze three overarching questions; Q1) How does soil moisture presence or absence in a shallow or deep layer influence the surface energy budget and planetary boundary layer characteristics?, Q2) What is the role of vegetation on ecosystem albedo in the presence or absence of deep soil moisture?, Q3) Can we develop empirical relationships between soil moisture and the planetary boundary layer height to help evaluate the role of future precipitation changes in land surface atmosphere interactions?. To address these questions I use a conceptual framework based on the presence or absence of soil moisture in a shallow or deep layer. I define these layers by using root profiles and establish soil moisture thresholds for each layer using four years of observations from the Santa Rita Creosote Ameriflux site. Soil moisture drydown curves were used to establish the shallow layer threshold in the shallow layer, while NEE (Net Ecosystem Exchange of carbon dioxide) was used to define the deep soil moisture threshold. Four cases were generated using these thresholds: Case 1, dry shallow layer and dry deep layer; Case 2, wet shallow layer and dry deep layer; Case 3, wet shallow layer and wet deep layer, and Case 4 dry shallow and wet deep layer. Using this framework, I related data from the Ameriflux site SRC (Santa Rita Creosote) from 2008 to 2012 and from atmospheric soundings from the nearby Tucson Airport; conducted field campaigns during 2011 and 2012 to measure albedo from individual bare and canopy patches that were then evaluated in a grid to estimate the influence of deep moisture on albedo via vegetation cover change; and evaluated the potential of using a two-layer bucket model and empirical relationships to evaluate the link between deep soil moisture and the planetary boundary layer height under changing precipitation regime. My results indicate that (1) the presence or absence of water in two layers plays a role in surface energy dynamics, (2) soil moisture presence in the deep layer is linked with decreased ecosystem albedo and planetary boundary layer height, (3) deep moisture sustains vegetation greenness and decreases albedo, and (4) empirical relationships are useful in modeling planetary boundary layer height from dryland ecosystems. Based on these results we argue that deep soil moisture plays an important role in land surface-atmosphere interactions.
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Dendrochronological Methods to Examine Plant Competition with Changing Fire Regimes in Desert and Forest EcosystemsLee, Rebecca Irene 01 November 2019 (has links)
Human activities are changing wildfire regimes globally through ignition, spread of invasive species, fire suppression, and climate change. Because of this, ecosystems are experiencing novel fire regimes that may alter plant growth and patterns of succession. Annual growth rings are one metric that can track changes in tree and shrub growth patterns over time in response to changing fire frequency. In Chapter 1 we explored the effects of fire on resprouting native shrubs in the Mojave Desert. Fires are becoming increasingly frequent due to the spread of highly flammable invasive grasses in the region. We monitored growth and fruit production of Larrea tridentata D.C. (creosote bush) on burned and unburned transects from three independent 2005 wildfires. Even though creosote has a high fire mortality rate, we found that resprouting creosote produced 4.7 times the amount of fruit and had stems that grew nearly twice as fast compared to creosote in unburned areas. Our data suggest that creosote can resprout after fire and thrives in its growth rates and reproduction in post-fire environments. In Chapter 2 we used annual Basal Area Increment to investigate how fire suppression has altered facilitation and competition interactions through stages of succession in mixed aspen-conifer forests. We found that aspen had lower growth rates in mixed aspen-conifer stands compared to aspen dominant stands. We also found that aspen growing with an associated fir tree due to facilitation had increasingly lower growth rates over time than those growing independently. Fir trees in mixed stands were facilitated over time by associated aspen trees while fir trees growing in association and independently in aspen stands showed no statistical difference from each other but grew better than independent fir trees in mixed stands. Our data suggest that restoring a more frequent fire regime will balance competitive interactions between aspen and conifer in subalpine forests.
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Oxidative metabolism and cytochrome P450 enzyme inhibition potential of creosote bush and flaxseed lignansBillinsky, Jennifer Lynn 22 September 2009
The rising use of natural products creates an imperative need for an enhanced awareness of the safety of current and new products making their way into the marketplace. An important example is natural products containing lignans as the principal active component. Despite their structural similarity the lignan of creosote bush can cause hepato- and renal toxicity while the lignans of flaxseed have no reported serious toxicity. This dissertation aimed to investigate the oxidative metabolism of such lignans to determine whether reversible, competitive interactions and/or bioactivation may explain the differences in their apparent toxicity.<p>
The first objective was to study the metabolism and bioactivation of nordihydroguaiaretic acid (creosote bush) and secoisolariciresinol (flaxseed). Nordihydroguaiaretic acid metabolism in rat liver microsomes led to the production of three glutathione adducts formed via ortho¬-quinone reactive intermediates. This metabolism was independent of NADPH and thus attributed to autoxidation. Secoisolariciresinol metabolism yielded lariciresinol and no glutathione adducts suggesting an absence of bioactivation to reactive quinone intermediates.<p>
The second objective was to study the autoxidation of nordihydroguaiaretic acid. The major autoxidation product was a unique, stable schisandrin-like cyclolignan which was the result of nordihydroguaiaretic acid cyclization. The half-life of nordihydroguaiaretic acid in aqueous solution, pH 7.4, 37ºC is 3.14 hours suggesting the cyclolignan may be responsible for some of the biological effects of nordihydroguaiaretic acid.<p>
The third objective was to study the inhibition of cytochrome P450 isoforms 1A2, 2B, 2C11 and 3A by lignans derived from creosote bush and flaxseed. None of the lignans caused irreversible inhibition. Both creosote bush and flaxseed lignans caused reversible inhibition of P450 enzyme activity that involved competitive or mixed-type inhibition, however the inhibition was present at nonphysiologically relevant concentrations. Activation of cytochrome P450 isoforms was also observed at low lignan concentrations. The results suggest that P450-mediated bioactivation or reversible inhibition cannot explain the differences in toxicity noted between the lignans of creosote bush and flaxseed.<p>
This work suggests a minimal risk for drug-lignan interactions at P450 enzymes. Further studies are warranted to determine the presence and biological and toxicological role of the nordihydroguaiaretic acid cyclolignan in herbal preparations.
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Oxidative metabolism and cytochrome P450 enzyme inhibition potential of creosote bush and flaxseed lignansBillinsky, Jennifer Lynn 22 September 2009 (has links)
The rising use of natural products creates an imperative need for an enhanced awareness of the safety of current and new products making their way into the marketplace. An important example is natural products containing lignans as the principal active component. Despite their structural similarity the lignan of creosote bush can cause hepato- and renal toxicity while the lignans of flaxseed have no reported serious toxicity. This dissertation aimed to investigate the oxidative metabolism of such lignans to determine whether reversible, competitive interactions and/or bioactivation may explain the differences in their apparent toxicity.<p>
The first objective was to study the metabolism and bioactivation of nordihydroguaiaretic acid (creosote bush) and secoisolariciresinol (flaxseed). Nordihydroguaiaretic acid metabolism in rat liver microsomes led to the production of three glutathione adducts formed via ortho¬-quinone reactive intermediates. This metabolism was independent of NADPH and thus attributed to autoxidation. Secoisolariciresinol metabolism yielded lariciresinol and no glutathione adducts suggesting an absence of bioactivation to reactive quinone intermediates.<p>
The second objective was to study the autoxidation of nordihydroguaiaretic acid. The major autoxidation product was a unique, stable schisandrin-like cyclolignan which was the result of nordihydroguaiaretic acid cyclization. The half-life of nordihydroguaiaretic acid in aqueous solution, pH 7.4, 37ºC is 3.14 hours suggesting the cyclolignan may be responsible for some of the biological effects of nordihydroguaiaretic acid.<p>
The third objective was to study the inhibition of cytochrome P450 isoforms 1A2, 2B, 2C11 and 3A by lignans derived from creosote bush and flaxseed. None of the lignans caused irreversible inhibition. Both creosote bush and flaxseed lignans caused reversible inhibition of P450 enzyme activity that involved competitive or mixed-type inhibition, however the inhibition was present at nonphysiologically relevant concentrations. Activation of cytochrome P450 isoforms was also observed at low lignan concentrations. The results suggest that P450-mediated bioactivation or reversible inhibition cannot explain the differences in toxicity noted between the lignans of creosote bush and flaxseed.<p>
This work suggests a minimal risk for drug-lignan interactions at P450 enzymes. Further studies are warranted to determine the presence and biological and toxicological role of the nordihydroguaiaretic acid cyclolignan in herbal preparations.
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Factors Underlying Invasive Grass Fire Regimes in the Mojave Desert and its Consequences on Plant and Animal CommunitiesHorn, Kevin J. 08 July 2013 (has links)
Climate change and exotic plant invasions are significant anthropogenic threats to desert community structure and resilience . In the Mojave Desert, the invasive grass red brome (Bromusrubens L) is increasing fire frequency and extent in response to climatic factors. The resilience of this ecosystem will be affected by how plant and animal communities respond to fire. To better understand these dynamics, we studied the environmental factors underlying changes in invasive grass fire regimes in the Mojave Desert and its structural and functional effects on plant and animal communities. Following fire, reestablishment of native vegetation can be preempted by repeated burning associated with the abundant exotic grass red brome. Red brome density is correlated with various climate and landscape variables, but to establish causality, we experimentally assessed germination and growth of red brome. Red brome responded positively to fall precipitation, finer-textured soils, fertile-islands soils, and soils from burned landscapes. Red brome germination is maximized in wet fall periods when adequate water and optimal temperatures overlap . To evaluate landscape responses of pre- and post-fire plant communities and the potential for repeated burning we analyzed vegetation greenness (NDVI) data from 1985-2011 in response to temperature and precipitation. Landscape analysis indicated that the dominance of exotic grasses increases on post-fire landscapes. Following wet fall and winter seasons, high red brome productivity increases fire potential. Without mitigation, the establishment of an invasive-plant-driven fire regime is likely and may drive state transitions from arid shrublands to arid annual grasslands. Potential revegetation of post-fire landscapes will depend at least in part upon the physiological response of surviving vegetation to post-fire landscapes. Plant physiological responses to post-fire landscapes were generally neutral or positive, suggesting that revegetation of post-fire landscapes is not precluded by resource loss associated with fire and may even be enhanced by post-fire conditions. This will likely translate to increased reproductive potential of surviving plants. Alterations to small mammal populations will likely play a role in the reestablishment of vegetation (both native and exotics) as small mammals have strong top-down effects in arid ecosystems. Diversity and species richness responded negatively to burned landscapes as Merriam's kangaroo rat (Dipodomys merriami) increased in abundance while other species practically disappeared from burned landscapes. Merriam's kangaroo rat affects propagule sources through direct consumption, and seed dispersal. Increases in abundance and dominance of Merriam's kangaroo rat will likely alter plant recruitment.
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