81 research outputs found
Diamond-BLASTx of transcriptome contigs of Thalassiosira hyalina and Nitzschia frigida
<p>This is an annotation file, delivering the Diamond-BLASTx results for the contigs of the transcriptome assemblies of Thalassiosira hyalina and Nitzschia frigida. Theswe originate from a time course experiment, in which these two species were exposed to high light stress and monitored over 120h under low and high pCO2. The corresponding Sequencing data is deposited at the EBI ArrayExpress database under accession number E-MTAB-6999. Contigs were created with Trinity Assembler and are available under DOI:10.5281/zenodo.3361258</p>
<p>The according publication is currently in review (8/6/2019): Higher sensitivity towards light stress and ocean acidification in an Arctic sympagic compared to a pelagic diatom;</p>
<p>Author team: Ane C. Kvernvik, Sebastian D. Rokitta, Eva Leu, Lars Harms, Tove M. Gabrielsen, Björn Rost and Clara J. M. Hoppe</p>
<p>Do not hesitate to contact the authors if you like more information!</p>
Loophole-free Bell test using electron spins in diamond: second experiment and additional analysis
This is the dataset that belongs to the experiment described in the article "Loophole-free Bell test using electron spins in diamond: second experiment and additional analysis", online preprint at arXiv:1603.05705
[Correspondence R. Hanson to: [email protected]
Effects of Clamping a Urinary Catheter on Post-Void Residuals and Catheter Reinsertion Rates
Trade reform, policy uncertainty and the current account: A non-expected utility approach
Current Account;Free Trade;Non Expected Utility Theory
Application of mandatory rules in the private international law of contracts : a critical analysis of approaches in selected continental and common law jurisdictions, with a view to the development of South African law
Includes bibliographical referencesThis thesis is a comparative examination of the application of mandatory rules in the area of the private international law of contracts.] As will be seen during the course of this study, and as will be briefly noted in the following introductory remarks, this question arises in a number of situations. It prompts fundamental issues that have been debated for many years by academics all over the world. Some of the problems are still not fully settled
Carbon nanotube grafted carbon fibres: A study of wetting and fibre fragmentation
26/09/12 meb. Author version, OK to pub.Carbon nanotubes (CNTs) were grafted on IM7 carbon fibres using a chemical vapour deposition method.The overall grafting process resulted in a threefold increase of the BET surface area compared to the original primary carbon fibres (0.57 m2/g). At the same time, there was a degradation of fibre tensile strength by around 15% (depending on gauge length), due to the dissolution of iron catalyst into the carbon;
the modulus was not significantly affected. The wetting behaviour between fibres and poly(methyl
methacrylate) (PMMA) was directly quantified using contact angle measurements for drop-on-fibre systems and indicated good wettability. Single fibre fragmentation tests were conducted on hierarchical fibre/PMMA model composites, demonstrating a significant (26%) improvement of the apparent interfacial shear strength (IFSS) over the baseline composites. The result is associated with improved stress transfer between the carbon fibres and surrounding matrix, through the grafted CNT layer. The improved IFSS was found to correlate directly with a reduced contact angle between fibre and matrix
Meta-analysis identifies 13 new loci associated with waist-hip ratio and reveals sexual dimorphism in the genetic basis of fat distribution
Waist-hip ratio (WHR) is a measure of body fat distribution and a predictor of metabolic consequences independent of overall adiposity. WHR is heritable, but few genetic variants influencing this trait have been identified. We conducted a meta-analysis of 32 genome-wide association studies for WHR adjusted for body mass index (comprising up to 77,167 participants), following up 16 loci in an additional 29 studies (comprising up to 113,636 subjects). We identified 13 new loci in or near RSPO3, VEGFA, TBX15-WARS2, NFE2L3, GRB14, DNM3-PIGC, ITPR2-SSPN, LY86, HOXC13, ADAMTS9, ZNRF3-KREMEN1, NISCH-STAB1 and CPEB4 (P = 1.9 × 10⁻⁹ to P = 1.8 × 10⁻⁴⁰) and the known signal at LYPLAL1. Seven of these loci exhibited marked sexual dimorphism, all with a stronger effect on WHR in women than men (P for sex difference = 1.9 × 10⁻³ to P = 1.2 × 10⁻¹³). These findings provide evidence for multiple loci that modulate body fat distribution independent of overall adiposity and reveal strong gene-by-sex interactions
Comprehensive structural changes in nanoscale-deformed silicon modelled with an integrated atomic potential
Funding Information: This research was assisted by the Academy of Finland - Research Platform OMA for Programmable Materials (The Consortium PROPER). DC is grateful for the support from the National Science Centre , Poland (Grant No. 2016/21/B/ST8/02737 ). All computer simulations used resources provided to the Nordic Hysitron Laboratory by the CSC-IT Centre for Science, Finland, which we gratefully acknowledge. RN appreciates the visiting scholar opportunity at Hokkaido University and Meijo University. Publisher Copyright: © 2023 The Author(s)In spite of remarkable developments in the field of advanced materials, silicon remains one of the foremost semiconductors of the day. Of enduring relevance to science and technology is silicon's nanomechanical behaviour including phase transformation, amorphization and dislocations generation, particularly in the context of molecular dynamics and materials research. So far, comprehensive modelling of the whole cycle of events in silicon during nanoscale deformation has not been possible, however, due to the limitations inherent in the existing interatomic potentials. This paper examines how well an unconventional combination of two well-known potentials - the Tersoff and Stillinger-Weber - can perform in simulating that complexity. Our model indicates that an irreversible deformation of silicon (Si-I) is set in motion by a transformation to a non-diamond structure (Si-nd), and followed by a subsequent transition to the Si-II and Si-XII phases (Si-1→Si-nd→Si-II→Si-XII). This leads to the generation of dislocations spreading outwards from the incubation zone. In effect, our simulations parallel the structural changes detected experimentally in the deformed material. This includes both the experimentally observed sequence of phase transitions and dislocation activity, which - taken together - neither the Tersoff nor Stillinger-Weber, or indeed any other available Si interatomic potential, is able to achieve in its own right. Notably, the Si-XII phase was not discerned by any of the previous computational models, which points towards the effectiveness of our integrated approach to forecasting novel phenomena discovered by advanced structure examinations. Last not least, our method satisfies the demand for a quick means to construct potentials by opening up the huge library of existing models to new applications in various branches of materials science.Peer reviewe
Conducting ecological risk assessments of inorganic metals and metalloids: current status
Ecological risk assessment (ERA) of inorganic metals and metalloids (metals) must be specific to these substances and cannot be generic because most metals arc naturally occurring, some are essential, speciation affects bioavailability, and bioavailability is determined by both external environmental conditions and organism physiological/biological characteristics. Key information required for ERA of metals includes: emissions, pathways, and movements in the environment (Do metals accumulate in biota above background concentrations?); the relationship between internal dose and/or external concentration (Are these metals bioreactive?); and the incidence and severity of any effects (Are bioreactive metals likely to result in adverse or, in the case of essential metals, beneficial effects?)-ground-truthed in contaminated areas by field observations. Specific requirements for metals ERA are delineated for each ERA component (Hazard Identification, Exposure Analysis, Effects Analysis, Risk Characterization), updating Chapman and Wang (2000). In addition, key specific information required for ERA is delineated by major information category (conceptual diagrams, bioavailability, predicted environmental concentration [PEC], predicted no effect concentration [PNEC], tolerance, application [uncertainty] factors, risk characterization) relative to three different tiered, iterative levels of ERA: Problem Formulation, Screening Level ERA (SLERA), and Detailed Level ERA (DLERA). 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MUNGER C, 1997, ENVIRON SCI TECHNOL, V31, P891 MUYSSEN BTA, 2001, CHEMOSPHERE, V45, P507 MUYSSEN BTA, 2001, ENVIRON POLLUT, V117, P301 MUYSSEN BTA, 2001, ENVIRON TOXICOL CHEM, V20, P2053 MUYSSEN BTA, 2002, AQUAT TOXICOL, V56, P69 MUYSSEN BTA, 2002, ARCH ENVIRON CON TOX, V43, P492 NAFTEL SJ, 2002, CAN J ANAL SCI SPECT, V47, P36 NAN ZR, 2002, SCI TOTAL ENVIRON, V285, P187 NASCARELLA MA, 2002, 23 ANN SETAC M NOV 1 NEWMAN MC, 1998, FUNDAMENTALS ECOTOXI NIYOGI S, 2003, HUM ECOL RISK ASSESS, V9, P795 NOLAN AL, 2003, ENVIRON SCI TECHNOL, V37, P90 NORTON SA, 1997, WATER AIR SOIL POLL, V100, P271 NORWOOD WP, 2002, 23 ANN SETAC M NOV 1 NOVAK M, 2003, ENVIRON SCI TECHNOL, V37, P437 NUUTINEN S, 1998, BIOGEOCHEMISTRY, V40, P267 OBERY AM, 2002, HUM ECOL RISK ASSESS, V8, P405 OSTE LA, 2001, ENVIRON TOXICOL CHEM, V20, P1785 PAN JF, 2002, MAR BIOL, V141, P915 PANE EF, 2003, IN PRESS AQUAT TOXIC PAQUIN P, 2003, IN PRESS LIFE CYCLE PARKER DR, 2001, ENVIRON TOXICOL CHEM, V20, P899 PEDERSEN MB, 2000, ENVIRON TOXICOL CHEM, V19, P2579 PEETERS ETHM, 2000, ENVIRON TOXICOL CH 1, V19, P1002 PEIJNENBURG W, 2003, SETAC GLOBE, V4, P36 PERCEVAL O, 2002, ENVIRON POLLUT, V118, P5 PEREZRAMA M, 2001, ENVIRON TOXICOL CHEM, V20, P2061 POSTMA JF, 1994, ARCH ENVIRON CON TOX, V26, P143 PRESTON BL, 2002, ENVIRON MANAGE, V29, P311 PRESTON BL, 2002, ENVIRON POLLUT, V117, P431 PRICE B, 2002, HUM ECOL RISK ASSESS, V8, P305 PUNSHON T, 2003, ARCH ENVIRON CON TOX, V44, P30 RAINBOW PS, 2002, ENVIRON POLLUT, V120, P497 RAJOTTE JW, 2002, CAN J FISH AQUAT SCI, V59, P1296 RAPOPORT S, 2002, 23 ANN SETAC M NOV 1 RATHORE RS, 2003, WATER AIR SOIL POLL, V142, P341 REIMANN C, 2000, ENVIRON SCI TECHNOL, V34, P5084 RICE KC, 2002, ENVIRON SCI TECHNOL, V36, P4962 RICHARDS JG, 2001, ENVIRON TOXICOL CHEM, V20, P1159 ROBINSON KA, 2003, ENVIRON POLLUT, V122, P159 RODITI HA, 1999, LIMNOL OCEANOGR, V44, P1730 RODITI HA, 2000, ENVIRON SCI TECHNOL, V34, P2817 ROSMAN KJR, 1998, ENVIRON SCI TECHNOL, V32, P2542 ROSS K, 2002, MAR POLLUT BULL, V44, P671 SALMINEN J, 2001, ENVIRON TOXICOL CHEM, V20, P1167 SALMINEN J, 2001, ENVIRON TOXICOL CHEM, V20, P1993 SANGSTER DF, 2000, ENV REV, V8, P115 SANTORE RC, 2001, ENVIRON TOXICOL CHEM, V20, P2397 SANTSCHI PH, 1984, LIMNOL OCEANOGR, V29, P1100 SARMA SSS, 2001, B ENVIRON CONTAM TOX, V67, P841 SAULNIER I, 2000, APPL GEOCHEM, V15, P191 SAUVE S, 1998, ENVIRON TOXICOL CHEM, V17, P1481 SCHEIFLER R, 2002, CHEMOSPHERE, V48, P571 SCHEIFLER R, 2003, ENVIRON SCI TECHNOL, V37, P81 SCHLEKAT CE, 2002, COASTAL ESTUARINE RI, P151 SCOTT GR, 2003, IN PRESS J EXP BIOL SERVEISS VB, 2002, ENVIRON MANAGE, V29, P145 SHEPHARD BK, 1998, NAT SED BIOACC C P, P2 SHERWOOD GD, 2002, CAN J FISH AQUAT SCI, V59, P1 SHERWOOD GD, 2002, CAN J FISH AQUAT SCI, V59, P229 SHOTYK W, 1997, WATER AIR SOIL POLL, V100, P213 SIGG L, 1998, METALS SURFACE WATER, P215 SILEO L, 2001, ARCH ENVIRON CON TOX, V41, P364 SIMONETTI A, 2000, GEOCHIM COSMOCHIM AC, V64, P3439 SIMPSON SL, 1998, ENVIRON SCI TECHNOL, V32, P620 SIMPSON SL, 2001, ENVIRON TOXICOL CHEM, V20, P2657 SIMPSON SL, 2002, MAR FRESHWATER RES, V53, P9 SKEAFF JM, 2002, ENVIRON TOXICOL CHEM, V21, P2581 SLOMAN KA, 2002, ENVIRON TOXICOL CHEM, V21, P1255 SLOMAN KA, 2003, IN PRESS COMP BIOC C SMIEJAN A, 2003, ENVIRON SCI TECHNOL, V37, P701 SMOLDERS E, 2001, ENVIRON TOXICOL CHEM, V20, P2469 SPURGEON DJ, 1999, ARCH ENVIRON CON TOX, V37, P332 STEEVENS JA, 1999, TOXICOL SCI, V52, P168 STEPHENSON M, 1993, WATER AIR SOIL POLL, V68, P341 STROO HF, 2000, ENVIRON SCI TECHNOL, V34, P3831 SUNDELIN B, 2001, ENVIRON TOXICOL CHEM, V20, P748 SZEBEDINSZKY C, 2001, ENVIRON TOXICOL CHEM, V20, P597 TAYLOR LN, 2003, IN PRESS AQUAT TOXIC THOMANN RV, 1997, ENVIRON TOXICOL CHEM, V20, P2627 TOLL J, 2001, EU ECB SPEC TECHN M TRAN D, 2001, ENVIRON TOXICOL CHEM, V20, P2073 TRIVEDI P, 2001, ENVIRON SCI TECHNOL, V35, P1779 TUCKER KA, 1999, ENVIRON TOXICOL CHEM, V18, P2797 TURNER A, 2002, ENVIRON SCI TECHNOL, V36, P4578 VANDECASTEELE B, 2002, SCI TOTAL ENVIRON, V299, P191 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