French consumer preferences reveal a potential for segmentation in carrot

Gustatory differentiation is one possible means of segmentation. Consumer preferences of carrot were studied within the framework of the CosiVeg project. The characteristics of batches offered for consumer assessment enables their preferences to be evaluated. In preparation for a hedonic test of raw grated carrots that was carried out in autumn 2011, the carrot sensory space was studied in 2010 using 48 batches that were evaluated using quantative descriptive sensory analysis. The cultivars were representative of different types, Nantais, Imperator, Flakkee, coloured carrots and genetic resources. . Significant differences were observed for all criteria, allowing varieties to be grouped based on their sensory characteristics. Texture, flavor and aroma contribute to the “identity” of carrots. Overall aroma is correlated with perceptions of bitterness, sharpness and chemical aroma. Fourteen orange carrot varieties were selected for sowing in 2011. In 2010, although maximum scores were obtained for pungent and bitter attributes, this was not the case in 2011. In spite of this, the selected batches allowed the different profiles of the sensory characteristics of the carrots to be determined. Ten batches of carrot that represented a wide range of variability were tasted by a trained panel as well as a consumer panel; the product was presented as raw grated carrot. The sensory measurements obtained were used to map preferences, underlining preferences for a carrot that is juicy, aromatic and sweet. However bitter and chemical flavour carrots were not appreciated. Three types of consumer exist each having different expectations in terms of quality. Almost 20 % of people questioned are looking for a high quality product, for 33 % of consumers carrots are a staple food and they have no specific expectations and 48 % are satisfied with the current product but are potentially interested by a product that would distinguish itself as regards to quality. It means that segmentation with a high gustatory quality will be of interest for one consumer for 5

Simulation of cellular irradiation with the CENBG microbeam line using GEANT4

Light-ion microbeams provide a unique opportunity to irradiate biological samples at the cellular level and to investigate radiobiological effects at low doses of high LET ionising radiation. Since 1998 a single-ion irradiation facility has been developed on the focused horizontal microbeam line of the CENBG 3.5 MV Van de Graaff accelerator. This setup delivers in air single protons and alpha particles of a few MeV onto cultured cells, with a spatial resolution of a few microns, allowing subcellular targeting. In this paper, we present results from the use of the GEANT4 toolkit to simulate cellular irradiation with the CENBG microbeam line, from the entrance to the microprobe up to the cellular medium.Comment: 6 pages, 8 figures, presented at the 2003 IEEE-NSS conference, Portland, OR, USA, October 20-24, 200

The Delphi and GRADE methodology used in the PSOGI 2018 consensus statement on Pseudomyxoma Peritonei and Peritoneal Mesothelioma

Pseudomyxoma Peritonei (PMP) and Peritoneal Mesothelioma (PM) are both rare peritoneal malignancies. Currently, affected patients may be treated with Cytoreductive Surgery and Hyperthermic Intraperitoneal Chemotherapy offering long-term survival or even cure in selected patients. However, many issues regarding the optimal treatment strategy are currently under debate. To aid physicians involved in the treatment of these patients in clinical decision making, the PSOGI executive committee proposed to create a consensus statement on PMP and PM. This manuscript describes the methodology of the consensus process. The Delphi technique is a reliable method for attaining consensus on a topic that lacks scientific evidence through multiple voting rounds which feeds back responses to the participants in between rounds. The GRADE system provides a structured framework for presenting and grading the available evidence. Separate questionnaires were created for PMP and PM and sent during two voting rounds to 80 and 38 experts, respectively. A consensus threshold of 51.0% was chosen. After the second round, consensus was reached on 92.9%–100.0% of the questions. The results were presented and discussed in the plenary session at the PSOGI 2018 international meeting in Paris. A third round for the remaining issues is currently in progress. In conclusion, using the Delphi technique and GRADE methodology, consensus was reached in many issues regarding the treatment of PM and PMP amongst an international panel of experts. The main results will be published in the near future

Qualité organoleptique de la carotte : variabilité des critères sensoriels selon le type variétal

La différenciation gustative est une voie possible de segmentation. L\u27étude a porté sur la variabilité des critères sensoriels dans le matériel végétal. Trente-trois varié - tés des types Nantais, Imperator, Flakkee, de carottes de couleur et de ressources génétiques ont été caractérisées en analyse sensorielle descriptive quantitative et par des mesures physico-chimiques. Des différences significatives pour tous les critères existent et permettent de regrouper les variétés sur la base de leurs caractéristiques sensorielles. Texture, saveur et arôme contribuent à la typicité de la carotte ; l\u27arôme global est corrélé aux perceptions d\u27amer, de piquant et d\u27arôme chimique. La mesure des sucres ne permet pas d\u27évaluer la perception en bouche du sucre du fait de l\u27influence du potentiel d\u27amertume

Photon-photon correlations and entanglement in doped photonic crystals

We consider a photonic crystal (PC) doped with four-level atoms whose intermediate transition is coupled near-resonantly with a photonic band-gap edge. We show that two photons, each coupled to a different atomic transition in such atoms, can manifest strong phase or amplitude correlations: One photon can induce a large phase shift on the other photon or trigger its absorption and thus operate as an ultrasensitive nonlinear photon-switch. These features allow the creation of entangled two-photon states and have unique advantages over previously considered media: (i) no control lasers are needed; (ii) the system parameters can be chosen to cause full two-photon entanglement via absorption; (iii) a number of PCs can be combined in a network.Comment: Modified, expanded text; added reference

Improving the quantification of land cover pressure on stream ecological status at the riparian scale using High Spatial Resolution Imagery

The aim of this paper is to demonstrate the interest of High Spatial Resolution Imagery (HSRI) and the limits of coarse land cover data such as CORINE Land Cover (CLC), for the accurate characterization of land cover structure along river corridors and of its functional links with freshwater ecological status on a large scale. For this purpose, we compared several spatial indicators built from two land cover maps of the Herault river corridor (southern France): one derived from the CLC database, the other derived from HSRI. The HSRI-derived map was obtained using a supervised object-based classification of multi-source remotely-sensed images (SPOT 5 XS-10 m and aerial photography-0.5 m) and presents an overall accuracy of 70 %. The comparison between the two sets of spatial indicators highlights that the HSRI-derived map allows more accuracy in the quantification of land cover pressures near the stream: the spatial structure of the river landscape is finely resolved and the main attributes of riparian vegetation can be quantified in a reliable way. The next challenge will consist in developing an operational methodology using HSRI for large-scale mapping of river corridor land cover,, for spatial indicator computation and for the development of related pressure/impact models, in order to improve the prediction of stream ecological status

Calcul de probabilités de dépassement d'objectifs environnementaux de rejets de sources ponctuelle et diffuse à l'aide du système de modélisation intégrée GIBSI

Dans un contexte de gestion intégrée de l'eau par bassin versant, on doit, avant d'implanter tout programme d'assainissement, comparer les solutions de rechange, distinguer les contributions des différentes sources de pollution aux problèmes de qualité de l'eau, et définir des objectifs environnementaux de rejet (OER) associés aux activités et aux pressions anthropiques. Dans le cas des sources de pollution d'origine ponctuelle, on détermine un OER et son risque de dépassement en fonction d'un débit d'étiage critique d'une période de retour donnée. Dans le cas de la pollution diffuse d'origine agricole, il n'existe pas de concepts similaires pour définir des OER. L'approche que nous proposons, c'est de simuler, à l'aide de chroniques météorologiques et de divers scénarios de gestion de ces rejets, les concentrations résultantes dans les cours d'eau et de calculer les probabilités de dépassement des critères de qualité de l'eau (CQE). Cette approche permet de caractériser la prise de décision pour la période de contrôle en matière du nombre moyen de jours de dépassement d'un CQE. Ceci représente une quantification plus exacte du risque car ce dernier est interprété en fonction de ce qui est mesuré en rivière, c'est-à-dire les concentrations de polluants. Dans cette étude, on illustre l'application de ce concept à partir d'un cas de figure dans le bassin versant de la rivière Chaudière (Québec, Canada) qui est simulé avec le système de modélisation intégrée GIBSI. Dans le cadre d'une analyse de scénarios de restauration des activités récréatives conduisant à des contacts directs et fréquents avec l'eau, on illustre comment on peut, en réduisant respectivement les pressions agricole et urbaine de 32 et 17%, abaisser globalement les probabilités de dépassement des critères esthétique et bactériologique de 0,32 à 0,19 et de 0,94 à 0, respectivement.In an integrated watershed management context, the implementation of any clean water program requires the evaluation of the contribution of pollutant loads associated with wet (nonpoint or diffuse) and dry weather (point) sources to the studied water quality problem. It is also necessary to set environmental load allocations (ELA) or total maximum daily loads (TMDL) for various anthropogenic activities and to link these loads to water pollutant concentrations. The ELA or TMDL is a numerical quantity determining the maximum load of pollutants from point and nonpoint sources as well as background sources, to receiving water bodies that will meet designated water uses (e.g., swimming or fishing) in terms of water quality standards (WQS). The American Congress included a TMDL program in the Clean Water Act of 1972 (US EPA, 1997; 1999). The outcome of the TMDL program corresponds to the drafting of a watershed management plan (NOVOTNY, 1999).Estimation of ELA from point sources is generally based on simultaneous occurrence of severe low flows and maximum daily loads. The ensuing risk of not meeting WQS is usually linked to the inverse of the return period of the design flow. Meanwhile, estimation of ELA from diffuse sources, and associated environmental risks, is not as well established since diffuse sources of pollution generally occur during important runoff events and strongly depend on land use and management practices. These wet weather loads may be allocated using continuous hydrological modelling. Simulation results can then in return be used to link ELA from point sources and diffuse sources to pollutant concentrations and, for a given time period (e.g., summer), to evaluate the probabilities (namely the risks) of exceeding WQS designating the water use.The objective of this study was to present, using the integrated modelling system GIBSI (VILLENEUVE et al., 1998b; MAILHOT et al.,1997), this new approach to assess the risk associated with the establisment of ELA from point and diffuse sources. A case study on the Chaudière River watershed (Quebec, Canada) was defined and simulations were performed (scenarios A-E). The case study focussed on determining whether WQS defining the designated recreational use of water requiring direct and prolonged contact were attainable. Untreated municipal waste waters from a small town (St. Martin) and nonpoint source pollution were responsible for impairment of the studied river segment. Water contaminants considered were fecal coliforms (FC) and phosphorus (P).Two base case scenarios, A and C, were simulated using four years (1982-1985) of meteorological data to illustrate the degraded bacteriological and aesthetic conditions of the river segment due to dry and wet weather sources, respectively. Dry weather sources were assumed to solely contribute to the bacteriological impairment. Meanwhile, both wet and dry weather sources were assumed to contribute to aesthetic impairment. Scenario B was defined to examine the impact of constructing a waste water treatment plant (WWTP) for the town of St. Martin on the bacteriological conditions. Scenarios D and E were elaborated to quantify the impact of both reducing diffuse and point source loads on aesthetic conditions, respectively. For scenario C, on average 31 kg P/ha were applied on cultivated land according to local fertilization calendars. Similarly, the fertilization rate for scenarios D and E was on average 13 kg P/ha. The design stream flow for ELA from point sources was a30 Q5 (30-day low flow, 5-year return period) and estimated at 6.05 m3 /s for the studied river segment. It is noteworthy to mention that for the 1982-1985 summers (June 21 through September 20), simulated daily stream flows exceeded the design flow 31, 62, 19 and 2 times and that 150, 48, 348, and 270 Mm3 of water flowed through the studied river segment, respectively. This means the 1983 meteorological series was three times as dry as that of 1982 despite the fact it was the latter that produced the30 Q5. The ELA from both point and diffuse sources for the river segment receiving the St. Martin's effluent and the studied river segment were 0.75*1012 UFC and 11.21 kg P and 1.05* 1012 UFC and 15.68 kg P, respectively.For scenario A, simulation results showed that respectively 94% and 14% of the time, the bacteriological (WQSFC < 200 UFC/100 ml) and aesthetic (WQSP < 0,03 P mg/l) WQS were not met over the summer season of the four-year meteorological series. Similarly, for scenario C, the simulation results indicated that 32% of the time, the aesthetic WQS was not achieved. Dry weather sources, namely WWTP and wet weather sources, namely agricultural runoff, accounted for P loads. During the driest summer, dry weather sources accounted for 63% of the P loads. For the other summers, wet weather sources accounted for 71, 88, and 78% of total P loads. For scenario B, simulation results showed that the bacteriological WQS was met 100% of the time. Meanwhile, scenario D was designed to see whether a 27% reduction of the agricultural nonpoint source load could alone restore the aesthetic properties. The simulation results showed an improvement as the probability of exceedence dropped from 0.32 to 0.27. This probability was further lowered to 0.19 when St. Martin's waste waters were treated using aerated lagoons and dephosphotation. This corresponded to an additional 17% abatement of the dry weather sources loads (scenario E).It is noteworthy that this study did not specifically attempt to specify the reasons why WQS were not met, whether it was due to low stream flows or large point or nonpoint sources loads although the integrated modelling system allows for this. Also, this study did not attempt to determine impacts of local management scenarios instead of a systematic reduction though GIBSI also allows for this. However, this study clearly illustrated how the proposed methodology, which is rooted in a risk assessment approach based on evaluation of the probability of exceeding WQS, is well suited to characterise ELA for various anthropogenic activities. Indeed, simulation results clearly demonstrated the benefits of assessing independently the impacts of ELA from point and diffuse sources on the attainability of a designated water use. It is believed that this type of ELA assessment approach will facilitate communication with stakeholders. Ideally, these exceeding probabilities should be evaluated using long meteorological series (e.g., 30 years)

The division of visual attention affects the transition point from level walking to stair descent in healthy, active older adults

Background: Stair descent is a frequent daily activity that poses great risks for injury due to falling. Very little is understood about the attentional demands of stair descent and their changes with aging. The present study compared combined locomotor and cognitive functioning during different phases of stair descent between healthy young and older individuals. Methods: Sixteen young and sixteen healthy older subjects walked down a 5-step staircase, performing a simultaneous visual Stroop task (i.e., a dual task) during the approach, transition or steady-state descent phases in some trials. Three dimensional kinematics of trunk and foot motion were recorded along with the accuracy and dual task costs (DTCs) for responses to the Stroop stimuli. Results: Dual tasking influenced both gait and cognitive performance for all subjects, and older adults generally walked slower with higher foot clearances and had greater DTCs. Specific age differences were found at stair transition where older adults showed more attentional effects. Conclusions: Healthy, active older adults showed changes to attention and planning due to normal aging specifically associated with a crucial point of fall risk during stair descent