2,366 research outputs found
Metáforas visuais: significado, interpretação e cultura
This paper outlines an approach to meaning in visual imagery through metaphor, relying on the recent embodiment or neurological account of metaphor. It outlines this account of metaphor and discusses through the use of examples some of the ways in which metaphors work in visual images. It stresses the need for interpretation and the dependence of interpretation on cultural context.Este artigo trata de uma abordagem para a significação de imagens através de metáforas, baseando-se nas atuais discussões sobre a metáfora sob a perspectiva da cognição incorporada. Discute por meio de exemplos alguns modos em que a metáfora funciona em imagens visuais. Salienta a necessidade da interpretação e a dependência entre interpretação e contextos culturais
2013 National Turfgrass Evaluation Program Bermudagrass Test: 2016 Data
Kansas represents the northernmost region in the central United States where bermudagrass can be successfully grown as a perennial turfgrass. Historically, few cultivars that have both acceptable quality and adequate cold tolerance have been available to local growers. Because new introductions are continually being selected for improved hardiness and quality, both seeded and vegetative types need regular evaluation to determine their long-range suitability for use in Kansas
Polymorphisms in the circadian expressed genes PER3 and ARNTL2 are associated with diurnal preference and GNβ3 with sleep measures
Sleep and circadian rhythms are intrinsically linked, with several sleep traits, including sleep timing and duration, influenced by both sleep homeostasis and the circadian phase. Genetic variation in several circadian genes has been associated with diurnal preference (preference in timing of sleep), although there has been limited research on whether they are associated with other sleep measurements. We investigated whether these genetic variations were associated with diurnal preference (Morningness-Eveningness Questionnaire) and various sleep measures, including: the global Pittsburgh Sleep Quality index score; sleep duration; and sleep latency and sleep quality. We genotyped 10 polymorphisms in genes with circadian expression in participants from the G1219 sample (n = 966), a British longitudinal population sample of young adults. We conducted linear regressions using dominant, additive and recessive models of inheritance to test for associations between these polymorphisms and the sleep measures. We found a significant association between diurnal preference and a polymorphism in period homologue 3 (PER3) (P < 0.005, recessive model) and a novel nominally significant association between diurnal preference and a polymorphism in aryl hydrocarbon receptor nuclear translocator-like 2 (ARNTL2) (P < 0.05, additive model). We found that a polymorphism in guanine nucleotide binding protein beta 3 (GNβ3) was associated significantly with global sleep quality (P < 0.005, recessive model), and that a rare polymorphism in period homologue 2 (PER2) was associated significantly with both sleep duration and quality (P < 0.0005, recessive model). These findings suggest that genes with circadian expression may play a role in regulating both the circadian clock and sleep homeostasis, and highlight the importance of further studies aimed at dissecting the specific roles that circadian genes play in these two interrelated but unique behaviours
2012 National Turfgrass Evaluation Program Tall Fescue Test: 2016 Data
Research efforts to improve cultivar quality include selecting for stress tolerance and disease resistance as well as finer leaf texture, a rich green color, and better sward density. Several cultivars included in the 2012 National Turfgrass Evaluation Program Tall Fescue Test performed well and showed good brown patch resistance in south central Kansas during the 2016 growing season
Wildlife Scientists and Wilderness Managers Finding Common Ground with Noninvasive and Nonintrusive Sampling of Wildlife
Iconic wildlife species such as grizzly bears, wolves, lynx, and wolverines are often associated with wilderness. Wilderness may provide some of the last, and best, remaining places for such species because wilderness can offer long-term legislated protection, relatively large areas, and remoteness (Mattson 1997). Indeed, the word wilderness in its original form literally means “place of wild beasts” (Nash 1982). Despite this natural fit between wilderness and wildlife, simply drawing a boundary around an area such as wilderness does not assure the protection and persistence of wildlife either inside the area or across the broader landscape (Landres et al. 1998). Only by understanding where such species occur and how their populations are faring can we know if wilderness is aiding in the role of sustaining wildlif
Cost and U.S. public policy for new coal power plants with carbon capture and sequestration
This paper provides a financial analysis for new supercritical pulverized coal plants with carbon capture and sequestration (CCS) that compares the effects of two relevant climate policies. First, an updated cost estimate is presented for new supercritical pulverized coal plants, both with and without CCS. The capital cost escalation of recent years can be attributed to rising materials, plant supply, and plant contractor constraints. This estimate is then compared with recent estimates from public sources. Second, several current and proposed public policies relevant to CCS are presented. Finally, a financial analysis is performed to evaluate the effectiveness of two likely US carbon regulations on deploying Nth-plant CCS technology. The major conclusion is that the leading US carbon cap-and-trade bills will likely not be sufficient to deploy CCS technology in a manner consistent with a 550 ppm CO[subscript 2] stabilization scenario. A more aggressive carbon policy including CCS research, development, and demonstration must be considered to achieve this goal with significant CCS deployment.Massachusetts Institute of Technology. Carbon Sequestration InitiativeMIT Industrial Performance Cente
Saltwater based fractionation and valorisation of macroalgae
BACKGROUND: Macroalgae are gaining increasing interest as an important biomass feedstock. Yet when valorising marine bio�mass, the presence of salt can pose a substantial obstacle to the effectiveness of downstream biological and chemical processes,
as well as the engineering infrastructure required. Accordingly, dewatering, washing and drying are often considered the first
and crucial primary steps in processing marine biomass such macroalgae. The high costs of these processes can make further
marine biorefinery commercialisation prohibitive. This investigation assesses simple pre-treatments for macroalgal biomass
in saltwater, thereby reducing the freshwater footprint, and removing the need for an energy-intensive washing and drying
stage.
RESULTS: Using acid and basic catalysts, the carbohydrate and soluble protein components were fractionated into a soluble
aqueous phase, for further fermentation and a solid phase suitable for hydrothermal liquefaction. The presence of saltwater
was found to aid the fractionation process, solubilising more of the biomass. The use of H2SO4 produced more monosaccha�rides, whereas NaOH solubilised higher levels of biomass at lower temperatures. The aqueous phase was demonstrated to be
suitable for biological processing with the salt tolerant yeast Metschnikowia pulcherrima, and the residual solids suitable for
processing via hydrothermal liquefaction.
CONCLUSION: By contrast with existing pre-treatment strategies, we demonstrate that an entirely salt-based biochemical con�version route is a potentially viable option. For the first time this work demonstrates that, rather than a hindrance, the presence
of saltwater can be advantageous, and could provide an alternative, more cost-effective pathway to achieving a successful
macroalgal-based biorefinery.
© 2020 Society of Chemical Industr
Mathematical modelling of fibre-enhanced perfusion inside\ud a tissue-engineering bioreactor
We develop a simple mathematical model for forced flow of culture medium through a porous scaffold in a tissue- engineering bioreactor. Porous-walled hollow fibres penetrate the scaffold and act as additional sources of culture medium. The model, based on Darcy’s law, is used to examine the nutrient and shear-stress distributions throughout the scaffold. We consider several configurations of fibres and inlet and outlet pipes. Compared with a numerical solution of the full Navier–Stokes equations within the complex scaffold geometry, the modelling approach is cheap, and does not require knowledge of the detailed microstructure of the particular scaffold being used. The potential of this approach is demonstrated through quantification of the effect the additional flow from the fibres has on the nutrient and shear-stress distribution
2019 National Turfgrass Evaluation Program Bermudagrass Test: Establishment Data
Kansas represents the northernmost region in the central United States where berÂmudagrass (Cynodon spp.) can be successfully grown as a perennial turfgrass. HisÂtorically, few cultivars that have both acceptable quality and adequate cold tolerance have been available to local growers. Because new introductions are continually being selected for improved hardiness and quality, both seeded and vegetative types need regular evaluation to determine their long-range suitability for use in Kansas
- …