2,127 research outputs found
Examination of homogeneity of selected Irish pooling groups
Flood frequency analysis is a necessary and important part of flood risk assessment and management studies. Regional flood frequency methods, in which flood data from groups of catchments are pooled together in order to enhance the precision of flood estimates at project locations, is an accepted part of such studies. This enhancement of precision is based on the assumption that catchments so pooled together are homogeneous in their flood producing properties. If homogeneity is assured then a homogeneous pooling group of sites lead to a reduction in the error of quantile estimates, relative to estimators based on single at-site data series alone. Homogeneous pooling groups are selected by using a previously nominated rule and this paper examines how effective one such rule is in selecting homogeneous groups. In this paper a study, based on annual maximum series obtained from 85 Irish gauging stations, examines how successful a common method of identifying pooling group membership is in selecting groups that actually are homogeneous. Each station has its own unique pooling group selected by use of a Euclidean distance measure in catchment descriptor space, commonly denoted <i>d</i><i><sub>ij</sub></i> and with a minimum of 500 station years of data in the pooling group. It was found that <i>d</i><i><sub>ij</sub></i> could be effectively defined in terms of catchment area, mean rainfall and baseflow index. The study then investigated how effective this selected method is in selecting groups of catchments that are actually homogenous as indicated by their L-Cv values. The sampling distribution of L-CV (<i>t</i><sub>2</sub>) in each pooling group and the 95% confidence limits about the pooled estimate of <i>t</i><sub>2</sub> are obtained by simulation. The <i>t</i><sub>2</sub> values of the selected group members are compared with these confidence limits both graphically and numerically. Of the 85 stations, only 1 station's pooling group members have all their <i>t</i><sub>2</sub> values within the confidence limits, while 7, 33 and 44 of them have 1, 2 or 3 or more, <i>t</i><sub>2</sub> values outside the confidence limits. The outcomes are also compared with the heterogeneity measures H1 and H2. The H1 values show an upward trend with the ranges of <i>t</i><sub>2</sub> values in the pooling group whereas the H2 values do not show any such dependency. A selection of 27 pooling groups, found to be heterogeneous, were further examined with the help of box-plots of catchment descriptor values and one particular case is considered in detail. Overall the results show that even with a carefully considered selection procedure, it is not certain that perfectly homogeneous pooling groups are identified
Fish and human brain evolution
Carlson and Kingston ([2007]: Am J Hum Biol 19:132–141) propose that
preformed dietary docosahexaenoic acid (an omega-3 fatty acid in fish) did not have a significant
role in hominin encephalization. Their position hinges on claiming that humans are able
to make sufficient docosahexaenoic acid from the plant-based \parent" omega-3 fatty acid—alinolenic acid. They also suggest that hominin fish consumption occurred too late to have materially influenced encephalization. The authors quantify here a summary of the published data
showing that humans cannot make sufficient docosahexaenoic acid to maintain normal infant
brain development. The authors also provide evidence that the fossil record shows that some of
the earliest hominins were regularly consuming fish. Hence, we reject Carlson and Kingston’s
position and reiterate support for the concept that access to shore-based diets containing docosahexaenoic acid was necessary for hominin encephalization beyond the level seen in the great
apes. Am. J. Hum. Biol. 19:578–581, 2007
Extremely limited synthesis of long chain polyunsaturates in adults: implications for their dietary essentiality and use as supplements
La communauté scientifique accorde beaucoup d’intérêt à plusieurs acides gras polyinsaturés (PUFA) et à leur atténuation potentielle du taux de mortalité et de morbidité causée par les maladies dégénératives du système cardiovasculaire et du cerveau. Il n’en demeure pas moins que la confusion demeure au sujet du taux de conversion chez l’humain des PUFA en amont – acide linoléique ou α-linolénique (ALA) – en des substances respectives à plus longue chaîne. On ne connaît toujours pas les bienfaits potentiels de l’ALA en amont de l’acide eicosapentaénoïque (EPA) ou de l’acide docosahexaénoïque (DHA). La confusion est en partie née du fait que les mammifères disposent des enzymes nécessaires pour synthétiser les PUFA à chaîne longue à partir des PUFA en amont alors que les études in vivo chez l’humain révèlent que ≈5 % de l’ALA est converti en EPA et moins de 0,5 % de l’ALA est converti en DHA. Du fait de la très faible capacité de cette voie de synthèse chez des humains en bonne santé non végétariens, même un grand apport alimentaire d’ALA a un effet négligeable sur la concentration plasmatique de DHA ; on observe le même phénomène chez les PUFA oméga-6 : l’apport alimentaire d’acide linoléique a peu d’effet sur la concentration plasmatique de l’acide arachidonique. Nonobstant cette conversion à faible rendement, l’ALA et l’EPA ont potentiellement un rôle à jouer au plan de la santé chez l’humain qui n’a rien à voir avec la conversion en DHA dans la voie de désaturation-élongation des acides gras.Abstract: There is considerable interest in the potential impact of several polyunsaturated fatty acids (PUFAs) in mitigating the significant morbidity and mortality caused by degenerative diseases of the cardiovascular system and brain. Despite this interest, confusion surrounds the extent of conversion in humans of the parent PUFA, linoleic acid or alpha-linolenic acid (ALA), to their respective long-chain PUFA products. As a result, there is uncertainty about the potential benefits of ALA versus eicosapentaenoic acid (EPA) or docosahexaenoic acid (DHA). Some of the confusion arises because although mammals have the necessary enzymes to make the long-chain PUFA from the parent PUFA, in vivo studies in humans show that asymptotically equal to 5% of ALA is converted to EPA and <0.5% of ALA is converted to DHA. Because the capacity of this pathway is very low in healthy, nonvegetarian humans, even large amounts of dietary ALA have a negligible effect on plasma DHA, an effect paralleled in the omega6 PUFA by a negligible effect of dietary linoleic acid on plasma arachidonic acid. Despite this inefficient conversion, there are potential roles in human health for ALA and EPA that could be independent of their metabolism to DHA through the desaturation - chain elongation pathway
Antioxidant properties of water-soluble gum from flaxseed hulls
Soluble flaxseed gum (SFG) was extracted from flax (Linum usitatissimum) hulls using hot water, and its functional groups and antioxidant properties were investigated using infrared spectroscopy and different antioxidant assays (2,2-diphenyl-1-picrylhydrazyl (DPPH), 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulphonic acid (ABTS), reducing power capacity, and β-carotene bleaching inhibition assay), respectively. The antioxidant capacity of SFG showed interesting DPPH radical-scavenging capacity (IC50 SFG = 2.5 mg·mL−1), strong ABTS radical scavenging activity (% inhibition ABTS = 75.6% ± 2.6% at 40 mg·mL−1), high reducing power capacity (RPSFG = 5 mg·mL−1), and potent β-carotene bleaching inhibition activity (IC50 SFG = 10 mg·mL−1). All of the obtained results demonstrate the promising potential use of SFG in numerous industrial applications, and a way to valorize flaxseed hulls
Heart Valve Leaflet Deflection Testing Apparatus
The information contained in this report is confidential and proprietary information of Edwards Lifesciences
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CSNF WASTE FORM DEGRADATION: SUMMARY ABSTRACTION
The purpose of this model report is to describe the development and validation of models that can be used to calculate the release of radionuclides from commercial spent nuclear fuel (CSNF) following a hypothetical breach of the waste package and fuel cladding in the repository. The purpose also includes describing the uncertainties associated with modeling the radionuclide release for the range of CSNF types, exposure conditions, and durations for which the radionuclide release models are to be applied. This document was developed in accordance with Technical Work Plan for: Regulatory Integration Modeling and Analysis of the Waste Form and Waste Package (BSC 2004 [DIRS 169944]). This document considers radionuclides to be released from CSNF when they are available for mobilization by gas-phase mass transport, or by dissolution or colloid formation in water that may contact the fuel. Because other reports address limitations on the dissolved and colloidal radionuclide concentrations (BSC 2004 [DIRS 169944], Table 2-1), this report does not address processes that control the extent to which the radionuclides released from CSNF are mobilized and transported away from the fuel either in the gas phase or in the aqueous phase as dissolved and colloidal species. The scope is limited to consideration of degradation of the CSNF rods following an initial breach of the cladding. It considers features of CSNF that limit the availability of individual radionuclides for release into the gaseous or aqueous phases that may contact the fuel and the processes and events expected to degrade these CSNF features. In short, the purpose is to describe the characteristics of breached fuel rods and the degradation processes expected to influence radionuclide release
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DSNF AND OTHER WASTE FORM DEGRADATION ABSTRACTION
Several hundred distinct types of DOE-owned spent nuclear fuel (DSNF) may potentially be disposed in the Yucca Mountain repository. These fuel types represent many more types than can be viably individually examined for their effect on the Total System Performance Assessment for the License Application (TSPA-LA). Additionally, for most of these fuel types, there is no known direct experimental test data for the degradation and dissolution of the waste form in repository groundwaters. The approach used in the TSPA-LA model is, therefore, to assess available information on each of 11 groups of DSNF, and to identify a model that can be used in the TSPA-LA model without differentiating between individual codisposal waste packages containing different DSNF types. The purpose of this report is to examine the available data and information concerning the dissolution kinetics of DSNF matrices for the purpose of abstracting a degradation model suitable for use in describing degradation of the DSNF inventory in the Total System Performance Assessment for the License Application. The data and information and associated degradation models were examined for the following types of DSNF: Group 1--Naval spent nuclear fuel; Group 2--Plutonium/uranium alloy (Fermi 1 SNF); Group 3--Plutonium/uranium carbide (Fast Flux Test Facility-Test Fuel Assembly SNF); Group 4--Mixed oxide and plutonium oxide (Fast Flux Test Facility-Demonstration Fuel Assembly/Fast Flux Test Facility-Test Demonstration Fuel Assembly SNF); Group 5--Thorium/uranium carbide (Fort St. Vrain SNF); Group 6--Thorium/uranium oxide (Shippingport light water breeder reactor SNF); Group 7--Uranium metal (N Reactor SNF); Group 8--Uranium oxide (Three Mile Island-2 core debris); Group 9--Aluminum-based SNF (Foreign Research Reactor SNF); Group 10--Miscellaneous Fuel; and Group 11--Uranium-zirconium hydride (Training Research Isotopes-General Atomics SNF). The analyses contained in this document provide an ''upper-limit'' (i.e., instantaneous degradation) model for use in the TSPA-LA model. ''Best-estimate'' models for the degradation of the fuels in each of the DSNF groups are discussed to provide a basis for selecting the upper limit model for use in the TSPA-LA model. The instantaneous degradation model is chosen for use in the TSPA-LA model because the available information shows that the degradation rate of the N Reactor fuel (which constitutes most of the DSNF inventory) is very high and because the available qualified information is insufficient to justify use of a less conservative approach. The commercial spent nuclear fuel model will be used for naval spent nuclear fuel because it has been shown to be conservative for representing naval spent nuclear fuel
KidsTime Workshops: Strengthening Resilience of Children of Parents with a Mental Illness
This chapter will introduce children of parents with mental illness (COPMI) as a group and explain the impact and risk factors of parental mental illness on children. We will provide examples of approaches that can help children in this situation, using the KidsTime Workshop model as a case study. We will describe the approaches and methods of the KidsTime practice model and explain how a combination of family therapy and systemic therapy influences, together with drama, can create an effective multi-family therapy intervention. It will describe the impact of the KidsTime model, including testimonials from children and families, and highlight the evidence in support of preventative approaches, as well as the barriers to securing investment for these interventions. The chapter will conclude with recommendations for practice
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