224 research outputs found
Microbial biosurfactant production: The effect of the Bacillus strain JF-2 biosurfactant on anaerobic hydrocarbon degradation, and the presence of indigenous biosurfactant-producing bacteria in soils.
A series of experiments was designed utilizing the biosurfactant produced by Bacillus JF2. Specifically, these experiments were designed to determine if the presence of various levels of pre-purified JF2 biosurfactant would affect the degradation of a range of hydrocarbons under a variety of anaerobic conditions. A second goal of these experiments was to discern if in situ production of the JF2 biosurfactant would increase the degradation of these hydrocarbons to a greater degree than if the biosurfactant was added in its pre-purified form. These experiments have indicated how future work should proceed. This work also suggests that it may be more practical to stimulate indigenous biosurfactant producing bacteria within a soil than to add either pre-purified compound or to attempt in situ production.This manuscript includes a review of information regarding biosurfactants. A detailed description of the Bacillus species JF2 biosurfactant, including the genetics and physiology of biosurfactant production, is provided. Additionally, a comprehensive review of the literature regarding the use of biosurfactants in hydrocarbon degradation studies is included.The second portion of this dissertation investigates the presence of biosurfactant producing bacteria in uncontaminated and hydrocarbon contaminated soils. Prior research indicated that the number of bacterial biosurfactant producers in soil may be influenced by the presence of hydrocarbon contamination as well as levels of organic matter and fungi. The purpose of this study was to determine the relationship between soil organic matter levels, hydrocarbon contamination, numbers of fungi, and numbers of indigenous biosurfactant producers. Six soils were used: two hydrocarbon impacted soils, each paired with uncontaminated soil, and two pristine soils with different levels of organic matter. Gross numbers of fungi were higher in soils with higher levels of organic matter. Soils containing higher numbers of fungi contained a greater percentage of biosurfactant-producing aerobic heterotrophs, but only in the absence of a hydrocarbon. The percentage of biosurfactant producers was greater when hydrocarbon contamination was present. Additionally, the presence of the Bacillus subtilis srfA gene, which encodes a highly conserved region of the surfactant synthetase complex, was monitored directly in soils for the first time by PCR amplification and Southern hybridization
Using complementary microanalytical techniques to analyse diamond anvil cell experiments
Diamond anvil cell (DAC) experiments are being used with increasing frequency to examine deep planetary processes. A variety of analytical techniques are available to characterise the products of high-pressure, high-temperature DAC experiments. Recent developments in both sample preparation and analytical techniques allow in-situ measurements made during experiments (typically synchrotron-source X-ray techniques) to be supplemented and supported by ex-situ measurements made of the extracted experimental sample after the experiment. The combination of complementary microanalytical techniques facilitates the verification of analytical results and allows additional information to be obtained from these technically-challenging experiments. Techniques with differing spatial resolutions can also be effectively used together. This contribution describes some techniques used to analyse the products of DAC experiments, and discusses example case studies from the Earth and planetary sciences where the combination of several complementary techniques has resulted in important additional insight into the interpretation of DAC experimental results
Colorado Native Plant Society Newsletter, Vol. 8 No. 1, January-February 1983
https://epublications.regis.edu/aquilegia/1170/thumbnail.jp
Ferropicrites as evidence for lithological heterogeneity in the mantle source of continental fl ood basalts
The sublithospheric mantle must be chemically heterogeneous as a consequence of billions of years\ud
worth of continuous subduction. Evidence for heterogeneity is strong in ocean island settings, where\ud
variability in isotopic, major and trace element composition is frequently attributed to variability in\ud
the mantle source. In continental fl ood basalt (CFB) provinces, signals of mantle-derived hetero-\ud
geneity are obscured by fractionated and contaminated nature of CFB magmas. However, outcrops of\ud
primitive magmas that more closely represent primary mantle melts are found in some CFB provinces.\ud
This study focuses on picrites and ferropicrites from the Paraná-Etendeka CFB province, and also ex-\ud
amines ferropicrites from the Karoo CFB province, which are found as dykes and thin fl ows. Ferropi-\ud
crites are Fe-rich, Al-poor magmas equally primitive and Mg-rich as the peridotite-derived picrites,\ud
but cannot have formed from peridotite melting.\ud
The sample sets are investigated by supplementing published whole-rock and mineral analyses\ud
with new mineral chemistry and melt inclusion data. Incompatible trace element compositions of their\ud
olivine-hosted melt inclusions are very homogeneous, suggesting that their primary fractional mantle\ud
melts underwent extensive mixing prior to the onset of crystallisation. Compared with primitive melt\ud
inclusions from other settings, inclusions in these and other CFB provinces are well-mixed. The\ud
crystallisation temperatures of olivine phenocrysts in these samples were determined by Al-in-olivine\ud
thermometry, with maximum crystallisation temperatures of ∼ 1500 °C identifi ed in some Etendeka\ud
picrites. These require a very high mantle potential temperature (TP ); the ferropicrites crystallised at\ud
somewhat lower temperatures. XANES analyses confi rmed that the spinel Fe\ud
3+\ud
/FeT were within the\ud
thermometer’s calibrated range.\ud
Ferropicrite has been suggested to originate from high pressure, low fraction melting of mantle\ud
pyroxenite. The Etendeka ferropicrite geochemistry is examined with the aid of a new thermodynamic\ud
model in order to interrogate its mantle source lithology and melting conditions. Modelling indicates\ud
that both the major and trace element composition of ferropicrite is indeed more compatible with\ud
garnet clinopyroxenite melting than peridotite melting, and that elevated TP plume conditions are\ud
required in its formation. By comparison, picrite major element chemistry is consistent with a high\ud
TP depleted peridotite melt. If a depleted peridotite and hybrid pyroxenite source mineralogy are\ud
used for picrite and Etendeka ferropicrite, respectively, then they both represent ∼ 10–20% mantle\ud
melting
Ferropicrites as evidence for lithological heterogeneity in the mantle source of continental flood basalts
The sublithospheric mantle must be chemically heterogeneous as a consequence of billions of years
worth of continuous subduction. Evidence for heterogeneity is strong in ocean island settings, where
variability in isotopic, major and trace element composition is frequently attributed to variability in
the mantle source. In continental fl ood basalt (CFB) provinces, signals of mantle-derived hetero-
geneity are obscured by fractionated and contaminated nature of CFB magmas. However, outcrops of
primitive magmas that more closely represent primary mantle melts are found in some CFB provinces.
This study focuses on picrites and ferropicrites from the Paraná-Etendeka CFB province, and also ex-
amines ferropicrites from the Karoo CFB province, which are found as dykes and thin fl ows. Ferropi-
crites are Fe-rich, Al-poor magmas equally primitive and Mg-rich as the peridotite-derived picrites,
but cannot have formed from peridotite melting.
The sample sets are investigated by supplementing published whole-rock and mineral analyses
with new mineral chemistry and melt inclusion data. Incompatible trace element compositions of their
olivine-hosted melt inclusions are very homogeneous, suggesting that their primary fractional mantle
melts underwent extensive mixing prior to the onset of crystallisation. Compared with primitive melt
inclusions from other settings, inclusions in these and other CFB provinces are well-mixed. The
crystallisation temperatures of olivine phenocrysts in these samples were determined by Al-in-olivine
thermometry, with maximum crystallisation temperatures of ∼ 1500 °C identifi ed in some Etendeka
picrites. These require a very high mantle potential temperature (TP ); the ferropicrites crystallised at
somewhat lower temperatures. XANES analyses confi rmed that the spinel Fe
3+
/FeT were within the
thermometer’s calibrated range.
Ferropicrite has been suggested to originate from high pressure, low fraction melting of mantle
pyroxenite. The Etendeka ferropicrite geochemistry is examined with the aid of a new thermodynamic
model in order to interrogate its mantle source lithology and melting conditions. Modelling indicates
that both the major and trace element composition of ferropicrite is indeed more compatible with
garnet clinopyroxenite melting than peridotite melting, and that elevated TP plume conditions are
required in its formation. By comparison, picrite major element chemistry is consistent with a high
TP depleted peridotite melt. If a depleted peridotite and hybrid pyroxenite source mineralogy are
used for picrite and Etendeka ferropicrite, respectively, then they both represent ∼ 10–20% mantle
melting
NETLAKE guidelines for automated monitoring system development. Station maintenance (Factsheet 012).
NETLAKE guidelines for automated monitoring system development. Factsheet 007: Communication options.
The purpose of this fact sheet is to provide some advice on the available methods to communicate with and retrieve data from your automated monitoring system
NETLAKE guidelines for automated monitoring system development. Factsheet 001: options for buoy design.
In this factsheet, we describe some of the options that can be used to house an automatic monitoring station (AMS) on a lake
NETLAKE guidelines for automated monitoring system development. How to deploy a low cost option (Factsheet 003).
In this factsheet, we give an overview of one “low cost” platform system
Colorado Native Plant Society Newsletter, Vol. 9 No. 4, July-September 1985
The Colorado Native Plant Society Newsletter will be published on a bimonthly basis. The contents will consist primarily of a calendar of events, notes of interest, editorials, listings of new members and conservation news. Until there is a Society journal, the Newsletter will include short articles also. The deadline for the Newsletter is one month prior to its release.https://epublications.regis.edu/aquilegia/1026/thumbnail.jp
- …