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1. "Sole or Whole" – Quilting the Racialized Subject Calgary feminist and scholar Aruna Srivastava tackles the complex question of what it means to be "mixed-race/mixedblood/halfbreed/mestizo/hybrid/hyphenated?" in her editorial to Hyphe Nation (1996). In response to her question, this study of contemporary African-Canadian literature suggests that mixed-race Canadians are often constructed as the Other in Canadian society. In consequence, constructions of "racial hybridity" in African-Canadian literature usually aim at carving out a space that doesnt marginalize "racial" mixing but eviscerates restrictive Manichean constructions of identity in order to promulgate concepts of wholeness and self-definition. In consequence, African-Canadian mixed-race writers create hybrid identities that are infinite, multilayered, fragmented and yet whole. They reflect the processes of shifting, overlapping and re-creation in the process of creating identity and can hence be read as representations of complex, de-central, non-hierarchical identities. They are quilting multidimensional racialized subjects. 2. Signifying the In-Between: "Race", "Racial Hybridity" and Questions of Belonging "Race" is not a biological category. Rather it represents a social construction predicated upon the interpretation of difference. It was designed to establish, justify or perpetuate hegemonic social structures and is adherent to the principle of white supremacy. Contemporary "race" theory often neglects the experiences of racially mixed individuals because it fails to offer flexible models of identity in which bi- and multiracial people find themselves represented. This thesis argues in favor of a poetics of difference that accepts and recognizes the heterogeneity of subjectivities while taking into consideration the various dimensions of class, gender, sexuality and ethnicity. Accordingly, constructions of racial hybridity in contemporary African-Canadian literature demonstrate that racism must be acknowledged as an ideology in which people believe and upon which people act. Thus identities often bear the stamp of various histories of resistance and domination, while tackling the question of belonging and re-defining Canadianness. 3. African-Canadian Borderlands References to interracial contacts and the existence of bi- and multiracial people have been omitted from the official founding narratives of the Canadian nation. African-Canadian writers have therefore been successful chroniclers of the past and filled blanks in Canadian historiography in order to shed light on hitherto repressed or erased knowledge. Part of this process is also the inscription of the mixed-race experience into Canadas past. Along this line, bi- and multiracial Canadians often criticize that the state-proclaimed policy of multiculturalism fails to take their manifold racial and ethnic subjectivities into account. 4. "From Sole to Whole" – African-Canadian Mixed-Race Poetics Mixed-race characters in US-American literature often appear in the literary motif of the "tragic mulatto" and it is often implicitly suggested that the bi- or multiracial protagonist is categorized as black. In contrast, African-Canadian constructions of racial hybridity less frequently adhere to the stereotype of the "tragic mulatto" and leave more space for employing alternative modes of racial and ethnic identification. Canadian writers of mixed descent have created a mixed-race poetics that calls attention to contexts, relationships, intersections and wholes. They encourage sites of inclusiveness, incessant shifting and discontinuity in the process of constructing identities. Nevertheless, modes of identification among racially hybrid writers in Canada vary, ranging from detesting whiteness to claiming a Black Nationalist stance. In general, however, they support the idea of fluid and flexible identities. The answer to the initial question of Srivastava is hence given by a vast variety of African-Canadian subject positions. An essentially "black" or "racially mixed" Canadian subject does not exist. Instead, constructions of racial hybridity in African-Canadian literature offer a holistic view of identity and aim at re-conceptualizing the various senses of self and community in Canada. This strategy provides a significant means of self-empowerment and self-reclamation – making racially mixed African-Canadians "whole" instead of "sole".
Tunable Diode Laser Absorption Spectroscopy in the mid InfraRed spectral range (IR-TDLAS) has been applied to investigate the behaviour of CF, CF2 and C2F4 species produced in pulsed CF4/H2 capacitively coupled radio frequency plasmas (13.56 MHz CCP). This experimental technique was shown to be suitable for temporally resolved measurements of the absolute number density of the target molecules in the studied fluorocarbon discharges. The temporal resolution of about 20…40 ms typically achieved in the standard data acquisition mode (“stream mode”) was sufficient for the real-time measurements of CF2 and C2F4, but not of CF whose kinetics was observed to be much faster. Therefore, a more sophisticated approach (“burst mode”) providing a temporal resolution of 0.94 ms was established and successfully applied to CF density measurements. In order to enable the TDLAS measurements of the target species, preliminary investigations on their spectroscopic data had been carried out. In particular, pure C2F4 has been produced in laboratory by means of vacuum thermal decomposition (pyrolysis) of polytetrafluoroethylene and used as a reference gas. Therefore, an absorption structure consisting of several overlapping C2F4 lines around 1337.11 cm-1 was selected and carefully calibrated, which provided the first absolute measurements of the species by means of the applied experimental technique. The absolute number density traces measured for CF, CF2 and C2F4 in the studied pulsed plasmas were then analysed, in which two differential balance equations were proposed for each of the species to describe their behaviour during both “plasma on” and “plasma off” phases. Analytical solutions of the balance equations were used to fit the experimental data and hence to deduce important information on the kinetics of the studied molecules. In particular, during the “plasma off” phase, the self-recombination of CF2 (CF2 + CF2 (+M) → C2F4 (+M)) was found to be dominant in the kinetics of the radical, but of minor importance for C2F4 production. A rapid consumption of CF observed within 7…25 ms after switching off the plasma was explained mainly by volume reaction with other species (most likely with CF3), whereas diffusion of the radical towards the reactor walls followed by sticking on the surfaces was found to contribute only at relatively low pressures (<10 Pa). Under certain discharge conditions, measured CF density traces exhibited significant overshoots in 50…150 ms after the plasma ignition, which had not been known from literature before. The electron impact fragmentation of C2F4 was shown to be essential for CF production at the beginning of the “plasma on” phase and therefore for formation of the observed CF density overshoots. Finally, the broad band FTIR spectroscopy was applied in order to better characterize the gas phase composition of the studied plasmas. Thus, absorption bands of CF4, C2F4, C2F6, C3F8, CHF3 and HF stable molecules were detected in the FTIR spectra recorded between 400 and 4000 cm-1. The spectra were then successfully deconvolved and the absolute concentration of the detected species was estimated. In particular, the absolute number density of C2F4 obtained from the FTIR measurements was in a good agreement with that achieved by means of the IR-TDLAS technique. The work was supported by the German Research Foundation (DFG) within the framework of the Collaborative Research Centre Transregio 24 “Fundamentals of Complex Plasmas” (SFB/TRR24, project section B5).
In classical Drude theory the conductivity is determined by the mass of the propagating particles and the mean free path between two scattering events. For a quantum particle this simple picture of diffusive transport loses relevance if strong correlations dominate the particle motion. We study a situation where the propagation of a fermionic particle is possible only through creation and annihilation of local bosonic excitations. This correlated quantum transport process is outside the Drude picture, since one cannot distinguish between free propagation and intermittent scattering. The characterization of transport is possible using the Drude weight obtained from the f-sum rule, although its interpretation in terms of free mass and mean free path breaks down. For the situation studied we calculate the Green's function and Drude weight using a Green's functions expansion technique, and discuss their physical meaning.
Diabetes mellitus has been linked with an increased risk for oral diseases, especially periodontitis. However, studies results were not consistent. The present study was conducted to evaluate whether both type 1 (T1DM) and type 2 diabetes mellitus (T2DM) are associated with increased prevalence and extent of periodontal disease and tooth loss compared with non-diabetic subjects within a homogeneous adult study population. T1DM, T2DM and non-diabetic subjects were recruited from the population-based Study of Health in Pomerania (SHIP). Additionally, T1DM subjects were retrieved from a Diabetes Centre in the same region. The total study population comprised 145 T1DM and 2,647 non-diabetic subjects aged 20-59 years, and 182 T2DM and 1,314 non-diabetic subjects aged 50-81 years. Multivariable regression revealed an association between T1DM and mean attachment loss (B=0.40 [95% CI; 0.19, 0.61], adjusted). Also, T1DM was positively associated with increased number of missing teeth after full adjustment (p<0.001). The association between T1DM and tooth loss was enhanced in subjects aged 40-49 and 50-59 years (p for interaction=0.01). In T2DM subjects, mean attachment loss was significantly higher compared with non-diabetic subjects (B=0.47 [95% CI; 0.21, 0.73], adjusted). The effect of T2DM was significantly enhanced in 60-69-years-old subjects (p for interaction=0.04). The association between T2DM and number of missing teeth was not statistically significant after adjustment (p=0.25). Analyses showed that the effect of T2DM on tooth loss was pronounced in females compared with males (p for interaction=0.01). In accordance with previous literature, present results suggested that periodontal diseases and tooth loss can been seen as a complication of both types of diabetes. Generally, periodontal diseases are preventable and treatable. Therefore, appropriate goals and strategies for improving periodontal health in subjects with diabetes need to be developed. Further, early detection and careful managed therapeutics with the physician and dentist working hand-in-hand may prove beneficial to the patient–s general health.
Behavior of a porous particle in a radiofrequency plasma under pulsed argon ion beam bombardment
(2010)
The behavior of a single porous particle with a diameter of 250 μm levitating in a radiofrequency (RF) plasma under pulsed argon ion beam bombardment was investigated. The motion of the particle under the action of the ion beam was observed to be an oscillatory motion. The Fourier-analyzed motion is dominated by the excitation frequency of the pulsed ion beam and odd higher harmonics, which peak near the resonance frequency. The appearance of even harmonics is explained by a variation of the particles's charge depending on its position in the plasma sheath. The Fourier analysis also allows a discussion of neutral and ion forces. The particle's charge was derived and compared with theoretical estimates based on the orbital motion-limited (OML) model using also a numerical simulation of the RF discharge. The derived particle's charge is about 7–15 times larger than predicted by the theoretical models. This difference is attributed to the porous structure of the particle.
Staphylococcus aureus is a commensal colonizing 20-30% of the population as well as a pathogen causing diverse diseases ranging from skin infections via toxin mediated diseases to life threatening conditions. In its interplay with the human host, this microorganism resorts to an extensive repertoire of both membrane-bound and secreted virulence factors facilitating adhesion to, invasion of, and spreading into various host tissues. Among the numerous virulence factors produced by S. aureus are the staphylococcal superantigens (SAgs). They directly cross-link conserved regions of the T cell-receptor with MHC class II molecules (outside the peptide-binding cleft) on antigen presenting cells. This results in a strong stimulation of up to 20% of all T cells which respond with proliferation and massive cytokine release. Recently, the enterotoxin gene cluster (egc) located on a pathogenicity island was described. The egc-genes are the most prevalent SAg genes in commensal and invasive S. aureus isolates. However, they appear to cause toxic shock only very rarely and their presence is negatively correlated with severity of S. aureus sepsis. Therefore it was suggested that SAgs might differ in their pro-inflammatory potential. In addition to their superantigenicity, SAgs also act as conventional antigens and induce a specific antibody response. In contrast to non-egc SAgs, despite the high prevalence of egc SAgs, neutralizing antibodies against egc SAgs are very rare, even among carriers of egc-positive S. aureus strains. In order to find an explanation for this “egc-gap”, we have tested two non-exclusive hypotheses: (i) egc and non-egc SAgs have unique intrinsic properties and drive the immune response into different directions and (ii) egc and non-egc SAgs are released by S. aureus under different conditions, which shape the immune response to them. To test these hypotheses, we compared the effects of egc and non-egc SAgs on human blood cells. Their T cell-mitogenic potencies, the elicited cytokine profiles as well as their impact on gene expression were highly similar. Both egc and non-egc SAgs induced a very strong pro-inflammatory response. In contrast, the regulation of SAg release by S. aureus differed markedly between egc and non-egc SAgs. Egc-encoded proteins were secreted by S. aureus during exponential growth, while non-egc SAgs were released in the stationary phase. We conclude that the distinct biological behavior of egc and non-egc SAgs is not due to their intrinsic properties, which are very similar, but is caused by their differential release by S. aureus. Traditionally, S. aureus has not been considered as an intracellular pathogen but strong evidence emerged indicating that staphylococci can invade and persist in various cell types. Internalization might constitute a bacterial strategy to evade the host’s defense reactions and the action of antibiotics. The intracellular niche might thus constitute a reservoir for chronic or relapsing infections. Contrary to their potential importance, genome-wide functional genomics analyses of the adaptation reactions of S. aureus to the host cell environment are rare and so far confined to gene expression profiling. Investigations addressing the proteome of internalized S. aureus are still lacking due to the challenge of obtaining a sufficient number of infecting bacteria. The proteome of other pathogens such as Francisella tularensis has been characterized by classical 2-DE approaches. However, the number of bacteria required for such a 2-DE based approach is often exceeding the numbers available from in vivo infection models. Furthermore, this approach does not allow monitoring of time-dependent quantitative changes in protein levels. Here, a workflow allowing time-resolved analysis of internalized S. aureus by combining pulse-chase stable isotope labeling by amino acids in cell culture with high capacity cell sorting, on-membrane digestion, and high-sensitivity mass spectrometry is presented. This workflow permits detection and quantitative monitoring of several hundred staphylococcal proteins from as little as a few million internalized S. aureus cells. This approach has been used to reveal time-resolved changes in levels of proteins in S. aureus RN1HG upon internalization by human bronchial epithelial cells. Proteins involved in stress adaptation as well as protein folding and some components of the phosphotransferase system were upregulated in internalized staphylococci, whereas proteins of the purine biosynthesis pathway and tRNA aminoacylation were downregulated. Furthermore, regulatory adaptive responses of internalized S. aureus to the intracellular milieu were shown as global regulators displayed increased protein abundance levels compared to non-internalized bacteria. Taken together, we observed changes in levels of proteins with functions in protection against oxidative damage and adaptation of cell wall synthesis in internalized S. aureus.
Summary Cyanobacteria are a diverse and ancient group of photosynthetic prokaryotic organisms that can inhabit a wide range of environments including extreme conditions such as hot springs, desert soils and the Antarctic. They are abundant producers of natural products well recognized for their bioactivity and utility in drug discovery and biotechnology applications. Novel intracellular and extracellular compounds from various cultured and field cyanobacteria with diverse biological activities and a wide range of chemical classes have considerable potential for development of pharmaceuticals and other biomedical applications. However, cyanobacteria are still viewed as unexplored source of potential drugs. Especially the collections of cyanobacterial strains from South East Asia where biodiversity is high are still largely unexplored. Thus, we investigated twelve soil cyanobacterial strains isolated from soil samples collected from rice, cotton, and coffee fields in Dak Lak province of Vietnam and one marine strain, Lyngbya majuscula collected from Khanh Hoa province of Vietnam for the search for new compounds with antimicrobial and cytotoxic activities. From the 12 soil cyanobacterial strains, 48 extracts prepared with n-hexane, methanol, and water for biomasses and ethyl acetate for growth media were screened for antibacterial activity against Gram-positive bacteria (Bacillus subtilis ATCC 6051 and Staphylococcus aureus ATCC 6538) and Gram-negative bacteria (Escherichia coli ATCC 11229, Pseudomonas aeruginosa ATCC 27853). Of 48 extracts, 47.92% and 45.83% showed activity against Bacillus subtilis and Staphylococcus aureus, respectively, while 22.92% and 6.25% exhibited activity against Escherichia coli and Pseudomonas aeruginosa, respectively. All investigated cyanobacteria (12/12) showed antibacterial activity to at least one of the test organisms applied. Among the active extracts, extracts obtained from 5 cyanobacterial strains, Westiellopsis sp. VN, Calothrix javanica, Scytonema ocellatum, Anabaena sp. and Nostoc sp. showed the highest strength and range of antibacterial activity and therefore were selected for chemical investigation with an emphasis on the isolation and structure elucidation of antimicrobial compounds. Bioassay-guided fractionation of the methanol extract prepared from biomass of Westiellopsis sp. VN by silica gel chromatography, followed by sephadex LH-20 chromatography and reversed-phase HPLC led to isolation and identification of 6 compounds as ambiguine D isonitrile, ambiguine B isonitrile, dechloro-ambiguine B isonitrile, fischerellin A, hydroxy-eicosatetraenoic acid and methoxy-nonadecadienoic acid. Identification of these active compounds was established by direct comparison of our spectroscopic data, including 1H NMR and HR-ESI-MS with those reported in the literature. All these compounds showed biological activity. The identification of fatty acids and other volatile components by GS-MS in the active MeOH fraction obtained from EtOAc extract of growth medium was done before commencing further fractionation processes. Culture optimization of Westiellopsis sp.VN showed that NaNO3 deficiency increased accumulation of antimicrobial compounds. Biosynthesis of antimicrobial compounds increased over cultivation time resulting in increased diameter of inhibition zone of the methanol extract towards the end of the 7-to 8- week growth period, but the most clear inhibition zone of this extract was detected after cultivation time of 8 weeks. Bioassay-guided fractionation of the methanol extract prepared from biomass of either Calothrix javanica by C18 chromatography followed by reversed-phase HPLC or Scytonema ocellatum by C18 chromatography followed by silica gel chromatography and reversed-phase HPLC led to isolation and structure elucidation of new cyclic peptide named daklakapeptin. Structure of daklakapeptin was elucidated by exhaustive 1D (1H) and 2D (COSY, TOCSY, NOESY, HMQC, HMBC) NMR spectroscopy in combination with HR-ESI-MS. Daklakapeptin was found to have totally 12 residues including 6 proteinogenic amino acids (Pro, Tyr, Ile, Leu, Gln, Thr), 4 complexes (X,Y,T,Z) and the methyl derivative of Ile. The exact sequence of daklakapeptin is shown in following figure with X: (CH3)2CHCH2CH2CH(NH-)CH2CO-, Y:(CH3)2CHCH(OH)CH(NH-)CO-, T: HOCH2CH2CH(NH-)CO-, Z: HOCH2CHOHCH(NH-)CO- This new cyclic peptide exhibited antibacterial activity against Staphylococcus aureus with diameter of inhibition zone of 12.5 mm in concentration of 200 mg/disc. Further test for activity to other bacteria and for cytotoxic activity are in progress. Using reversed-phase HPLC to separate compounds in the crude ethyl acetate extract obtained from culture medium of Anabaena sp. led to isolation and structure elucidation of flourensadiol. The structure of flourensadiol was established using an extensive array of 1D (1H, 13C, DEPT-135) and 2D (HMQC, COSY, HMBC) NMR and HR-ESI-MS experiments. Flourensadiol was isolated previously from the common western shrub Flourensia cernua. However, only MS, IR, and proton NMR data but no reports on biological activity were available. In this study, we report the complete NMR data of flourensadiol for the first time. Flourensadiol was found to be very strong antibacterial active against Escherichia coli with diameter of inhibition zone of 20.0 mm in concentration of 200 mg/disc. Further test for activity to other bacteria and cytotoxic activity are in progress. Bioassay-guided fractionation of the methanol extract from biomass of Nostoc sp. by silica gel chromatography followed by C18 chromatography and reversed phase HPLC led to isolation of the active fraction NsF2 which exhibited antibacterial activity against Staphylococcus aureus with diameter of inhibition zone of 10.0 mm in concentration of 500 mg/disc. The low resolution ESI-MS of fraction NsF2 showed signal at m/z 426 [M+H]+. The NMR and MS characterization of compounds in fraction NsF2 is in progress. Bioassay-guided fractionation of the methanol extract prepared from biomass of marine cyanobacterium Lyngbya majuscula collected from Khanh Hoa province of Vietnam by various chromatographic methods (CC, PTLC, HPLC) afforded 3 cytotoxic compounds anhydrodebromoaplysiatoxin, debromoaplysiatoxin, and anhydroaplysiatoxin. Identification of these cytotoxic compounds was established by direct comparison of our spectroscopic data, including (1H, 13C) NMR and HR-ESI-MS with those reported in the literature. In our study, debromoaplysiatoxin and anhydroaplysiatoxin exhibited cytotoxic activity against bladder cancer cell line 5637 with IC50 of 86 ng/ml and 40 ng/ml, respectively but anhydrodebromoaplysiatoxin was not yet tested for cytotoxic activity. The identification of fatty acids by GS-MS technique in the n-hexane extract obtained from biomass of this marine cyanobacterium was undertaken before commencing further fractionation processes. The presented results prove that soil cyanobacteria are a promising source to yield chemical and pharmaceutical interesting compounds.
In order to clarify the physics of the crossover from a spin-density-wave (SDW) Mott insulator to a charge-density-wave (CDW) Peierls insulator in one-dimensional (1D) systems, we investigate the Hubbard-Holstein Hamiltonian at half filling within a density matrix renormalisation group (DMRG) approach. Determining the spin and charge correlation exponents, the momentum distribution function, and various excitation gaps, we confirm that an intervening metallic phase expands the SDW-CDW transition in the weak-coupling regime.
Carbon dioxide (CO2) is one of the most important factors of the Earth’s carbon cycle. Peatlands are well-known to be a long term sink for atmospheric carbon dioxide. Under changing environmental conditions, the carbon balance and hence the CO2 fluxes can be significantly changed, and peatlands may even become a significant atmospheric carbon source. To be able to predict the changes in climatic conditions and their effects on ecosystems, it is important to understand the contemporary CO2 exchange of the ecosystems. Many studies on peatland CO2 fluxes have been conducted in the boreal zone of North America and Scandinavia. Still little scientific evidence is available from peatland ecosystems of boreal Russia. This dissertation presents the detailed investigation of CO2 dynamics and the relevant processes and environmental factors from the boreal peatland site Ust-Pojeg (61°56'N, 50°13'E) in Komi Republic, northwest Russia. On the small spatial scale (microform), the investigated peatland was characterised by high variability in vegetation composition and coverage as well as in water table level which resulted in large variability in CO2 fluxes not only between the microform types but also within one microform type. The cumulative flux over the investigation period for the different microforms ranged from strong CO2 sources to CO2 sinks. An area-weighted estimate for the entire peatland showed that it was a CO2 source for the investigation period, which was characterised by average conditions in terms of precipitation and temperature. The CO2 fluxes were measured at different scales: by the closed chamber method at the microform scale and by the eddy covariance technique at the ecosystem scale. Three different upscaling methods were used to compare the fluxes. Irrespective of the upscaling methods, the discrepancies between the estimates based on the upscaled chamber measurements and estimates based on measurements by the eddy covariance technique were high. The high spatial heterogeneity of the vegetation and the water table level and thus of the CO2 fluxes were recognised as reasons for high potential errors when upscaling CO2 fluxes from the microform to the ecosystem level. Large discrepancies were also observed in comparison between measured CO2 fluxes and CO2 estimates based on the mechanistic ecosystem model LPJ-GUESS. Insufficient model forcing may have led to errors in the timing of the onset and the end of the growing season, and the modelled vegetation did not always reproduce the observed vegetation. These two factors may have led to the discrepancies in the model-measurement comparison. Although the closed chamber technique is widely used for measurements of CO2 fluxes between ecosystems and the atmosphere, the errors which might occur during the measurement itself or which are associated with the used measurement devices as well as the flux calculation from chamber-based CO2 concentration data are still under discussion. The study showed that the CO2 fluxes measured by the closed chamber method can be overestimated during low-turbulence nighttime conditions and can be seriously biased by inappropriate application of linear regression for the flux calculation. The methodological studies were conducted at the boreal peatland Salmisuo in eastern Finland (62°46'N, 30°58'E). The methods developed in this dissertation could contribute significantly to improved CO2 flux estimates. VI
Impurity ions pose a potentially serious threat to fusion plasma performance by affecting the confinement in various, usually deleterious, ways. Due to the creation of helium ash during fusion reactions and the interaction of the plasma with the wall components, which makes it possible for heavy ions to penetrate into the core plasma, impurities can intrinsically not be avoided. Therefore, it is essential to study their behaviour in the fusion plasma in detail. Within the framework of this thesis, different problems arising in connection with impurities have been investigated. 1. Collisional damping of zonal flows in tokamkas: The effect of impurities on the collisional damping of zonal flows is investigated. Since the Coulomb collision frequency increases with increasing ion charge, heavy, highly charged impurities play an important role in this process. The effect of such impurities on the linear response of the plasma to an external potential perturbation, as caused by zonal flows, is calculated with analytical methods and compared with numerical simulations, resulting in good agreement. 2. Impurity transport driven by microturbulence in tokamaks: Fine scale turbulence driven by microinstabilities is a source of particle and heat transport in a fusion reactor. A semi-analytical model is presented describing the resulting impurity fluxes and the stability boundary of the underlying mode. The results are compared with numerical simulations. Both the impurity flux and the stability boundary are found to depend strongly on the plasma parameters such as the impurity density and the temperature gradient. 3. Pfirsch-Schlüter transport in stellarators: Due to geometry effects, collisional transport plays a much more prominent role in stellarators than in tokamaks. Analytical expressions for the particle and heat fluxes in an impure, collisional plasma are derived from first principles. Contrary to the tokamak case, where collisional transport is exclusively caused directly by friction, in stellarators an additional source of transport exists, namely pressure anisotropy. Since this term is, contrary to the contribution from friction, non-ambipolar, it plays an important role regarding the ambipolar electric field. Furthermore, the behaviour of heavy impurities in the presence of strong radial temperature and density gradients is studied, which lead to a redistribution of the impurities on the flux surfaces. As a consequence, the radial impurity flux is decreased considerably compared with a plasma in which the impurities are evenly distributed on the flux surfaces.