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The Syilx Okanagan environmental ethic is a philosophy expressed in the practice of Indigeneity as a social (cultural) paradigm and is identified by an inter-reliant experience in the land, as demonstrated in land-use practice which is shaped by the land’s realities as observed, learned and communicated to succeeding generations. Syilx Okanagan Indigeneity reflects an epistemology that optimum human wellbeing cannot be achieved through a human centered ethic but must focus on the optimum ability for the environment to regenerate itself. Syilx Okanagan stories convey the social experience and act as a records system to preserve, maintain and transfer the knowledge of the land. On one level, captikwl contain essential specific environmental knowledge as an oral documentation method, while on another level, as literature, captikwl reconstructs the ethos of interdependency specific to the ecology of the Syilx Okanagan territory through reenactment of nature’s interactions. captikwl in the Nsyilxcen language mimics the dynamic aspects of nature’s required regenerative principles to each succeeding generation, and acts as a feed-back loop reconstructing the social paradigm as an environmental ethic. captikwl might be seen as a distinctly Indigenous human adaptive response scheme within a natural system as it constructs the Syilx Okanagan world and results in behavior with sustainable outcome in the environment. captikwl is a distinct oral artistry that must be read through a literary framework cognizant of oral memory device, structure and Syilx Okanagan context. Okanagan author Morning Dove’s collection of Okanagan stories, as well as, the Mattina and DeSautel bilingual collections and other original version captikwl were consulted. Captikwl demonstrates the concept of tmixw which better translates as a life-force. The word for land is tmxwulaxw, which translates better as a life-force-place, rather than land as location or ecology type. Syilx society demonstrates an “ecological conscience” as the common text through captikwl which is enacted in their social institutions in the manner theorized by respected American conservationist Aldo Leopold, as desirable to achieve within society. The Syilx environmental ethic, rather than a sustainable human ethic of utility, is a willingness to live within a strict imperative to continuously sustain a unity of existence through societal knowledge and reverent practice of respect toward all life-forms. The Syilx environmental ethic diverges from ecocentrism, as articulated by Callicott, in recognizing a fundamental distinction between non-life forms and life forms, in their ability for self-regeneration through inter-reliance, as the focus for delineating moral considerability. The Syilx environmental ethic differs from biocentrism, as articulated by Taylor, in recognizing moral considerability as resting with the on-going life form which is capable of regeneration within its ecology, rather than the singular biological unit. The Syilx environmental ethic also differs from the concept of the ethics of place, as articulated by Berthold-Bond and characterized as an ethical bioregional human utility of a location. Tmixw is the life-force which makes up the tmxwulaxw or life-force-place and the humans are only “placed” as a life-force themselves through Indigeneity as a social paradigm within a criteria of full reciprocity in the regeneration of all life forms of a place. The Syilx environmental ethic also differs from the ethic of sustainability proposed by Daly as a steady state economic model of human utilitarianism, in the positioning of nature treated as capital, to be prudently developed in a way that off-sets depletions of renewable and non-renewable resources in meeting human requirements. The Syilx Okanagan view of economy, while structurally a sustainability model, does not construct value based on human utility as a defining line in decision-making as to which life forms are to be devalued and displaced. Syilx Indigeneity is guided through a societal dialogue practice of Enowkinwixw, a process of decision-making structured to include living within the requirements of the land to fully regenerate. Syilx Okanagan Indigeneity frames an environmental ethic from a tmixwcentric position and offers a model proposing an ethic of re-indigenization as a path to sustainability. The thesis proposes a common text for human society in the form of such literatures, since literature is widely accessible, which demonstrate, imbed and advocate a regenerative land ethic towards the re-indigenization of place.
Tourette syndrome has been associated with impairments of performance monitoring and alterations of attentional and executive functions. This impairment has been linked to fronto-striatal dysfunctions, which comprise the same braincircuits that are actively engaged in the suppression of tics. We compared behavioral performance and performance monitoring in nineteen boys with Tourette syndrome (TS) (mean age 12.64 years, ± 2.05) and nineteen age-matched controls (mean age 13.16 years, ± 2.29) in a Go/NoGo paradigm. This paradigm was designed to test for problems with inhibition and attention when withholding the response to NoGo targets following repetitive Go targets. The results indicated similar performance accuracy in the TS group and the control group. TS participants showed the expected pattern of Post-Error Slowing, but responded significantly also slower to correct Go trials than the controls. The reaction times (RT) to NoGo targets in commission errors, however, did not differ between the groups. The results suggest that boys with TS develop inhibitory adaptive strategies (overall slower reaction times) to maintain high performance accuracy. These effects may be suspended prior to and during NoGo commission errors.
We present classical and hybrid modeling approaches for genetic regulatory networks focusing on promoter analysis for negatively and positively autoregulated networks. The main aim of this thesis is to introduce an alternative mathematical approach to model gene regulatory networks based on piecewise deterministic Markov processes (PDMP). During somitogenesis, a process describing the early segmentation in vertebrates, molecular oscillators play a crucial role as part of a segmentation clock. In mice, these oscillators are called Hes1 and Hes7 and are commonly modeled by a system of two delay differential equations including a Hill function, which describes gene repression by their own gene products. The Hill coefficient, which is a measure of nonlinearity of the binding processes in the promoter, is assumed to be equal to two, based on the fact that Hes1 and Hes7 form dimers.However, by standard arguments applied to binding analysis, we show that a higher Hill coefficient is reasonable. This leads to results different from those in literature which requires a more sophisticated model. For the Hes7 oscillator we present a system of ordinary differential equations including a Michaelis-Menten term describing a nonlinear degradation of the proteins by the ubiquitinpathway. As demonstrated by the Hes1 and Hes7 oscillator, promoter behavior can have strong influence on the dynamical behavior of genetic networks. Since purely deterministic systems cannot reveal phenomenons caused by the inherent random fluctuations, we propose a novel approach based on PDMPs. Such models allow to model binding processes of transcription factors to binding sites in a promoter as random processes, where all other processes like synthesis, degradation or dimerization of the gene products are modeled in deterministic manner. We present and discuss a simulation algorithm for PDMPs and apply it to three types of genetic networks: an unregulated gene, a toggle switch, and a positively autoregulated network. The different regulation characteristics are analyzed and compared by numerical means. Furthermore, we determine analytical solutions of the stationary distributions of one negatively, and three positively autoregulated networks. Based on these results, we analyze attenuation of noise in a negative feedback loop, and the question of graded or binary response in autocatalytic networks.
In 1992, the international regime 'Agenda 21' was agreed upon. Accordingly, countries worldwide have been undergoing reforms in their water management into Integrated Water Resources Management (IWRM). The implementation is promoted by international actors. The main institutional aspects of IWRM are the river basin approach, clear property rights allocation, and application of economical instruments. In former centrally planned economies, the process of IWRM implementation has been coincided with transformation for the market economy. The implementation of institutional aspects of IWRM in countries under transition is connected with high transaction costs. Against this background, the comparative empirical study was initialised in order to analyse institutional change of water management towards IWRM in Vietnam and in Poland. Two models of river basin organisations were examined. Consequently, pros and cons of decentralised polycentric and hierarchical unicentric river basin organisations have been evaluated. Formal institutions were studied with the use of an in-depth review of legislation in Vietnam and in Poland. The EU Water Frame Directive (EU WFD) and other international policies were also examined. For the empirical study in Vietnam and in Poland, actors were interviewed as experts. The results of the study on both countries were discussed separately, and conclusions were drawn in a comparative manner. Water management reforms towards IWRM in Vietnam and in Poland have been generating multi-level governance processes including international, national and sub-national levels. The implementation of IWRM in Vietnam is supported by international donor agencies. In Poland, the implementation of the EU WFD is coordinated by the European Commission in a hierarchical manner. In comparison to international joint-development projects in Vietnam, the European Commission enforces international IWRM policy more effectively. Since the resumption of ODA in early 1990s, water resources management has been institutionalised in Vietnam by international support. In 1998, a Water Law was established in Vietnam. The intended separation of water resources management from water service provisions caused fragmentation between the Ministry of Natural Resources and Environment, and the Ministry of Agriculture and Rural Development, respectively. This ‘silo-effect’ has been intensified by the competition for international ODA. The power struggles affect even agencies within ministries. Polycentric river basin committees have been established as entities subordinated to the Ministry of Agriculture and Rural Development, as well as the Ministry of Natural Resources and Environment. However, because of weak property rights allocation and the absence of administrative powers, the river basin organisations work ineffectively. The river basin has not yet been established as a sub-national area of political action. Decisions sustained to be made at central level and are affected by the information problem due to largely centralised organisations of Vietnamese water management. The sub-national level is characterised by very low planning and management capacities. In Poland, unicentric river basin organisations were established in 1991. They are aligned with hydrological borders. Water resources planning and management are carried out according to river basins and water regions in order to implement the EU WFD. The river basin has been established as a new area of decision-making. Conflicts between local-governments have been resolved after the reforms. Nevertheless, spatial management planning, environmental protection planning, water service delivery, etc., are further carried out by local self-governments. To integrate water resources planning and management with these services, horizontal coordination is of critical importance. However, this is hampered by problems of ‘spatial fit’. Moreover, a high degree of horizontal cross-border communication increases information problems in hierarchical organisations. Thus, features of polycentric governance models become increasingly important in order to fully implement the EU WFD in Poland.
Discovery of novel Baeyer-Villiger monooxygenases and their application in organic synthesis.
(2009)
The application of BVMOs in kinetic resolution is a versatile alternative for the synthesis of optically pure esters. Within this thesis BVMOs proved to be highly active against a broad range of linear and aryl aliphatic ketones yielding a variety of enantiopure products. Among the beta-hydroxy ketones several CHMOs and BVMOPsfl showed the best results (E > 100), whereas the application of the latter enzyme also allowed access to the abnormal esters (regioisomeric excess > 40%). Interestingly, some enzymes showed a reduced activity and selectivity with a growing chain length of the ketone, suggesting that middle-chain ketones (C8-C10) might be preferred. Moreover, the production of optically pure 1,2-diols was observed (yields 8-50%), resulting from an in vivo hydrolysis of the 2-hydroxy alkyl acetates. Regarding the N-protected beta-amino ketones, results were different. While the majority of CHMOs catalyzed linear substrates showing high enantioselectivities (for CHMOBrevi1 and CHMOBrachy E > 100, c = 40-50%), BVMOPsfl did not convert nitrogen bearing linear ketones, although this might also be justified with the methylcarbamate protecting group. Interestingly, the number of BVMOs catalyzing oxidation of spatially more demanding linear branched beta-amino ketones was greatly reduced, indicating steric hindrance that was also combined with a decrease in selectivity. Similar to the observation for beta-hydroxy ketones, also the 2 amino alkyl acetates hydrolyzed furnishing 2-amino alcohols (yields 9-52%). Moreover, hydrolysis of the “abnormal“ esters allowed an alternative access to valuable native and non-native β-amino acids. In a two step process, using CDMO from R. ruber and CAL-B, it was possible to generate N-protected (+)-beta-leucine. During kinetic resolutions of aryl aliphatic ketones it was observed that the highest enantio¬selectivities could be achieved utilizing HAPMOJD1, HAPMOACB and PAMO, enzymes typically preferring aromatic substrates. Biotransformation with 3-phenyl-2-butanone revealed an E-value > 100 for HAPMOJD1 (S-selective). Nevertheless, also BVMOPsfl converted this sub¬strate (E = 43), and also CHMOAcineto and CPMO oxidized it, although selectivity was rather low (E < 5). Interestingly, BVMOKT2440 was the only examined enzyme showing R selectivity (E = 13). Additionally, increasing the scale and performing biotransformation in a baffled flask could increase enantioselectivity of BVMOPsfl from E = 43 to 82. The discovery of novel enzymes with diverse properties is still a main goal of the biotechnological industry. Within these studies, two BVMOs (BVMOKT2440 and HAPMOJD1) could be successfully amplified from genomic DNA using different PCR-methods. Then, expression in E. coli was optimized, revealing that the reduction of expression temperature, implementation of E. coli JM109 or RosettaTM (DE3), possessing the pRARE plasmid to facilitate translation of rare codons in the latter case, and/or co-expression of chaperones (pGro7: GroEL/ES-familiy) could increase the amount of soluble and active protein. Both enzymes were subjected to biocatalysis and it was found that BVMOKT2440 preferentially oxidized linear ketones, while HAPMOJD1 dominantly converted aryl aliphatic ketones. The latter enzyme could be purified by anion exchange and affinity chromatography allowing examination of kinetic parameters. Thereby, HAPMOJD1 displayed lowest KM-values for acetophenone derivatives bearing their substituent in para-position (KM < 320 µM). Moreover, also aldehydes and heteroaromatic compounds were oxidized and also sulfoxidation was observed. Interestingly it was found, that both BVMO genes are located in the direct neighborhood of a dehydrogenase and a hydrolase. This led to the suggestion that these enzymes may be metabolically connected in the degradation of their natural substrate.
This thesis constitutes a computational study of charge and ion drag force on micron-sized dust particles immersed in rf discharges. Knowledge of dust parameters like dust charge, floating potential, shielding and ion drag force is very crucial for explaining complex laboratory dusty plasma phenomena, such as void formation in microgravity experiments and wakefield formation in the sheaths. Existing theoretical models assume standard distribution functions for plasma species and are applicable over a limited range of flow velocities and collisionality. Kinetic simulations are suitable tools for studying dust charging and drag force computation. The main aim of this thesis is to perform three dimensional simulations using a Particle-Particle-Particle-Mesh ($P^3M$) model to understand how the dust parameters vary for different positions of dust in rf discharges and how these parameters on a dust evolve in the presence of neighboring dust particles. At first, rf discharges in argon have been modelled using a three-dimensional PIC-MCC code for the discharge conditions relevant to the dusty plasma experiments. All necessary elastic and inelastic collisions have been considered. The plasma background is found collisional, charge-exchange collisions between ions and neutrals being dominant. Electron and ion distributions are non-Maxwellian. The dominant heating mechanism is Ohmic. Then, simulations have been done to compute the dust parameters for various sizes of dust located at different positions in the rf discharges. Dust charge and floating potential in the presheath are slightly larger than the values in the bulk due to the higher electron flux to the dust particle in the presheath. From presheath to the sheath the charge and floating potential values decrease due to the decrease of the electron current to the dust. A linear dependence of dust potential on dust size has been found, which results in a nonlinear dependence of the dust charge with the dust size when the particle is assumed to be a spherical capacitor. This has been verified by independently counting the charges collected by the dust. %where indeed it has been noted that the dust charge %scales nonlinearly with the dust size. The computed dust parameters are also compared with theoretical models. Simulated dust floating potentials are comparable to values obtained from Allen-Boyd-Reynolds (ABR) and Khrapak models, but much smaller than the values obtained from Orbit Motion Limited (OML) model. The dust potential distribution behaves Debye-H\"{u}ckel-like. The shielding lengths are in between ion and electron Debye lengths. % indicating shielding by both ions and electrons. Further, the orbital drag force is typically larger than the collection drag force. The total drag force for the collisional case is larger than for the collisionless case and it scales nonlinearly with the dust size. The collection drag values and size-scaling agrees with Zobnin's model. The charging and drag force computation is then extended to two and multiple static dust particles in the rf discharge to study the influence of neighboring dust particles on the dust parameters. Initially, the dust parameters on two dust particles are computed for various interparticle separation distances and for dust particles placed at different locations in the rf discharge. It is observed that for dust separations larger than the shielding length the dust parameters for the two dust particles match with the single dust particle values. As the dust separation is equal to or less than the shielding length the ion drag force increases due to the buildup of a parallel drag force component. However, the main dust properties like charge, potential, vertical component of ion drag are not affected considerably. This is attributed to the smaller collection impact parameter values compared to the dust separation. %This is because the %collection impact parameter values in the sheath and the presheath are smaller %than the smallest dust separation and in case of the dust in the bulk, the %collection impact parameter is comparable with the dust separation. Then the dust charges on multiple dust particles located at different positions in the discharge and arranged along the discharge axis are also computed. It is found that the charges of the multiple dust particles in the bulk or presheath do not differ much from the single particle values at that location. But the dust charges of multiple dust particles located in the sheath drastically differ from the single dust parameter values. Due to ion focusing from dust particles in the upper layers, the ion current increases to dust particles in the lower layers resulting in smaller charge values. This is as well the case where dust particles are vertically aligned as in the standard experiments of dusty plasmas. In conclusion, this work used a fully kinetic (PIC and MD or $P^3M$) model to study the physics of dust charging in rf plasmas. Our simulations revealed that the dust parameters vary considerably from the bulk to the sheath. The CX collisions increase flux to the dust thereby affecting the dust parameters and their scaling with dust size. Also, a dust particle affects the charging dynamics of its neighbor only when their separation is within the shielding length. In the plasma sheath, ion focussing can cause great reduction in dust charges.
Infrared laser absorption spectroscopy (IRLAS) employing both tuneable diode and quantum cascade lasers (TDLs, QCLs) has been applied with both high sensitivity and high time resolution to plasma diagnostics and trace gas measurements.
TDLAS combined with a conventional White type multiple pass cell was used to detect up to 13 constituent molecular species in low pressure Ar/H2/N2/O2 and Ar/CH4/N2/O2 microwave discharges, among them the main products such as H2O, NH3, NO and CO, HCN respectively. The hydroxyl radical has been measured in the mid infrared (MIR) spectral range in-situ in both plasmas yielding number densities of between 1011 ... 1012 cm-3. Strong indications of surface dominated formation of either NH3 or N2O and NO were found in the H2-N2-O2 system. In methane containing plasmas a transition between deposition and etching conditions and generally an incomplete oxidation of the precursor were observed.
The application of QCLs for IRLAS under low pressure conditions employing the most common tuning approaches has been investigated in detail. A new method of analysing absorption features quantitatively when the rapid passage effect is present is proposed. If power saturation is negligible, integrating the undisturbed half of the line profile yields accurate number densities without calibrating the system. By means of a time resolved analysis of individual chirped QCL pulses the main reasons for increased effective laser line widths could be identified. Apart from the well-known frequency down chirp non-linear absorption phenomena and bandwidth limitations of the detection system may significantly degrade the performance and accuracy of inter pulse spectrometers. The minimum analogue bandwidth of the entire system should normally not fall below 250 MHz.
QCLAS using pulsed lasers has been used for highly time resolved measurements in reactive plasmas for the first time enabling a time resolution down to about 100 ns to be achieved. A temperature increase of typically less than 50 K has been established for pulsed DC discharges containing Ar/N2 and traces of NO. The main NO production and depletion reactions have been identified from a comparison of model calculations and time resolved measurements in plasma pulses of up to 100 ms. Considerable NO struction is observed after 5 ... 10 ms due to the impact of N atoms.
Finally, thermoelectrically cooled pulsed and continuous wave (cw) QCLs have been employed for high finesse cavity absorption spectroscopy in the MIR. Cavity ring down spectroscopy (CRDS) has been performed with pulsed QCLs and was found to be limited by the intrinsic frequency chirp of the laser suppressing an efficient intensity build-up inside the cavity. Consequently the accuracy and advantage of an absolute internal absorption calibration is not achievable. A room temperature cw QCL was used in a complementary cavity enhanced absorption spectroscopy (CEAS) configuration which was equipped with different cavities of up to ~ 1.3 m length. This spectrometer yielded path lengths of up to 4 km and a noise equivalent absorption down to 4 x 10-8 cm-1Hz-1/2. The corresponding molecular concentration detection limit (e.g. for CH4, N2O and C2H2 at 1303 cm-1/7.66 μm) was generally below 1 x 1010 cm-3 for 1 s integration times and one order of magnitude less for 30 s integration times. The main limiting factor for achieving even higher sensitivity is the residual mode noise of the cavity. Employing a ~ 0.5 m long cavity the achieved sensitivity was good enough for the selective measurement of trace atmospheric constituents at 2.2 mbar.
(A paperback version is published by Logos under ISBN 978-3-8325-2345-9.)
Solifuges (Solifugae, Arachnida) are an important element of the fauna especially in arid and desert environments. Unfortunately, this animal group has only been extremely poorly studied not only in terms of morphology, but also ecology, physiology, systematics and phylogeny. The present study aimed to provide a detailed overview of their anatomy and ultrastructure. Representatives of these peculiar animals were investigated by means of light and electron microscopy in order to gain new insights in their functional morphology and also to evaluate potential characters for their systematic and future phylogenetic studies. The histology and ultrastructure of the following organ systems have been investigated: tarsal structures, sensory structures and nervous system, coxal glands, alimentary system, respiratory system, circulatory system and reproductive systems. Additionally, a camel spider in Baltic amber was described, representing the second known specimen of fossil Solifugae in Baltic amber. Further on, the entire mitochondrial genome of Nothopuga sp. was sequenced for comparison with other solifuges and chelicerates in order to reveal changes in their gene order.
The introduction of two-dimensional polyacrylamide gel electrophoresis (2-D PAGE) enabled the separation and visualization of a substantial fraction of an organism’s entire proteome, and when mass spectrometry entered protein science, these proteins became even amenable to identification on a grand scale. Nevertheless, important classes of proteins elude a separation on classical 2 D gels, as the ones showing extremes in isoelectric point or molecular weight, and foremost very hydrophobic proteins naturally embedded in lipid membranes. This thesis aimed at the establishment and adaptation of alternatives to 2-D PAGE. New techniques allowing for an identification and quantification of critical protein classes were designed and adopted to physiological questions in the Gram-positive bacteria Bacillus subtilis and Staphylococcus aureus. In a comprehensive study on cytoplasmic proteins of S. aureus COL the number of proteins identified by a 2-D gel based approach could be extended by 650 proteins employing gel free technologies. Application of these complementary methods resulted in the establishment of a comprehensive reference map of the cytosolic proteome in growing and non-growing S. aureus cells which can serve as basis for further physiological investigations. Gel free separation of complex protein digests was likewise used in a quantitative study on heat stress in B. subtilis. By implementation of the iTRAQ® technology four different physiological states could be relatively quantified in one experiment. A parallel generation of 2-D gel based data enabled the depiction of strengths and weaknesses of protein quantitation by both, spot intensities on 2-D gels and iTRAQ® signal intensities in MS/MS spectra. Furthermore, new insights into heat sensitivity of pivotal enzymes involved in amino acid biosynthesis could be delivered. The institution of gel free approaches and advancements in 2-D PAGE provide the tools to penetrate into yet unamenable scopes of proteomes. A review on proteome coverage in B. subtilis gives an overview on the strategies which have been explored for most comprehensive protein identification in various sub-proteomes. Although more than one third of B. subtilis’ open reading frames could be demonstrated on protein level, one has to be aware of the fact that it still is a long way to achieve complete coverage of its proteome. Integral membrane proteins make up about one quarter of the entirety of proteins in a cell. Despite their large portion they are clearly understudied due to the intricacy of identification. Their low abundance and non-accessibility of membrane-spanning domains represent major experimental difficulties. The establishment of a protocol efficiently depleting cytosolic proteins by membrane shaving and targeting trans-membrane peptides by novel digestion strategies essentially facilitated identification of highly hydrophobic integral membrane proteins. This protocol was not only successfully applied to the membrane proteome of growing S. aureus cells, but was shown to be applicable in B. subtilis as well. Both studies displayed the novel membrane shaving approach to be highly complementary to a previously established separation of membrane proteins via 1 D PAGE. A combination of the two techniques resulted in identification of about half of the theoretical membrane proteome in both bacteria, and hence layed the foundation for advanced and quantitative analyses. In this regard, 14N/15N metabolically labeled membrane samples of growing and non-growing cells of S. aureus COL were relatively quantified revealing a significant difference in amount for more than one third of the proteins. A corresponding experimental setup was used to compare the membrane proteomes of S. aureus SA113 and its mutant deficient in the lysylphosphatidylglycerol synthetase MprF. Interesting quantitative differences were obtained for proteins most likely involved in the regulation of cellular surface net charge as well as for virulence-associated proteins.
Asymmetrical capacitively coupled RF discharges in oxygen, argon and hydrogen have been experimentally investigated with the innovative technique of the phase resolved optical emission spectroscopy. This diagnostic tool allows to measure spatio-temporally resolved emission intensities of electronically excited species with a high resolution. The spatial (axial) resolution was better than 1 mm and a temporal resolution of about 1.5 ns has been achieved. Therefore the plasma induced optical emission within the RF cycle (TRF = 73.75 ns) from the RF sheath region with a typical mean sheath thickness of about 5mm has been studied. Spatio-temporally resolved optical emission patterns of the following optical transitions have been measured for a total gas pressure in the range of 20 to 100 Pa and self-bias voltages between -50 and -550 V: Oxygen plasma Emission at 777.4 nm and 844.6 nm (atomic oxygen) Argon plasma Emission at about 751 nm and 841 nm (argon) Hydrogen plasma Emission at 656.3nm (atomic hydrogen, H alpha-line) These transitions are the most prominent ones of the investigated excited species in these plasmas as could be shown from overview spectra of the plasma induced optical emission in the range from 350 to 850 nm. For the first time such extensive PROES measurements in oxygen CCRF plasmas are presented in this work. The additional investigations of argon and hydrogen plasmas serve as a reference and for a direct comparison with results from the literature. The temporal behavior of the emission intensity is influenced by the effective lifetime of the emitting states which is on the order of the nanosecond time scale of the RF cycle. Therefore, it does not represent the real temporal behavior of the excitation. A simple method has been applied to calculate relative excitation rates from the measured emission intensities to distinguish different excitation mechanisms and their correct relative temporal behavior. In a close collaboration within the framework of the Sonderforschungsbereich Transregio 24 'Fundamentals of Complex Plasmas' a newly 1d3v PIC-MCC code for simulations of capacitive RF discharges in oxygen has been developed by Matyash et al. The very close coupling of experiment and modeling allowed a really detailed and microscopic understanding of the processes and dynamics from the sheath to the bulk plasma in CCRF discharges. The spatio-temporally resolved excitation rate profiles show four different excitation structures (I-IV). Excitation processes due to the following mechanisms in CCPs could be identified and characterized: I Electrons expelled from growing sheath II Electrons detached from negative ions (collisions with neutrals) + secondary electrons from the electrode surface (ion bombardment) III Field-reversal effect, reduced mobility of electrons (electron-neutral collisions) IV Heavy-particle collisions These excitation mechanisms are characterized by different temporal and spatial behaviors of the excitation rate within the RF cycle. Additionally it has been shown that the excitation by electron impact in the investigated oxygen plasmas results mainly from dissociative electron impact excitation (O2 + e -> O + O* + e) and not from direct electron impact excitation (O + e -> O* + e). Actinometry measurements show that the results are not really credible. Thus actinometry is not applicable on the investigated oxygen RF plasma. A challenge in interpretation is the observed excitation pattern IV. Pattern IV has to be caused in connection with heavy particle collisions nearby the electrode surface and could be observed in all the three plasmas oxygen, argon and hydrogen. It is located directly in front of the powered electrode and appears during almost the whole RF cycle. The temporal modulation is nearly sinusoidal and weak in comparison to the first three patterns. This is due to the weak RF modulation of the ion flux towards the electrode surface which has been proven by a PIC simulation. It could be shown that the modulation degree of pattern IV depends on the transition time of the corresponding positive ions through the RF sheath which is influenced by the ion mass. In oxygen as well as in argon CCRF plasmas pattern IV is less modulated than in hydrogen CCRF plasmas due to the heavier ions in oxygen and argon. Additionally the modulation degree increases with increasing pressure due to the more confined plasma at higher pressures which is yielding in a stronger modulated ion current towards the powered electrode.