A new "tilt" illusion reveals the relation between border ownership and border binding

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The role of crowding in contextual influences on contour integration

Dakin and Baruch (2009) investigated how context influences contour integration, specifically reporting that near-perpendicular surrounding-elements reduced the exposure-duration observers required to localize and determine the shape of contours (compared to performance with randomly oriented surrounds) while near-parallel surrounds increased this time. Here, we ask if this effect might be a manifestation of visual crowding (the disruptive influence of "visual clutter" on object recognition). We first report that the effect generalizes to simple contour-localization (without explicit shape-discrimination) and influences tolerance to orientation jitter in the same way it affects threshold exposure-duration. We next directly examined the role of crowding by quantifying observers' local uncertainty (about the orientation of the elements that comprised our contours), showing that this largely accounts for the effects of context on global contour integration. These findings support the idea that context influences contour integration at a predominantly local stage of processing and that the local effects of crowding eventually influence downstream stages in the cortical processing of visual form

The nucleon spin and momentum decomposition using lattice QCD simulations

We determine within lattice QCD, the nucleon spin carried by valence and sea quarks, and gluons. The calculation is performed using an ensemble of gauge configurations with two degenerate light quarks with mass fixed to approximately reproduce the physical pion mass. We find that the total angular momentum carried by the quarks in the nucleon is $J_{u+d+s}{=}0.408(61)_{\rm stat.}(48)_{\rm syst.}$ and the gluon contribution is $J_g {=}0.133(11)_{\rm stat.}(14)_{\rm syst.}$ giving a total of $J_N{=}0.54(6)_{\rm stat.}(5)_{\rm syst.}$ consistent with the spin sum. For the quark intrinsic spin contribution we obtain $\frac{1}{2}\Delta \Sigma_{u+d+s}{=}0.201(17)_{\rm stat.}(5)_{\rm syst.}$. All quantities are given in the $\overline{\textrm{MS}}$ scheme at 2~GeV. The quark and gluon momentum fractions are also computed and add up to $\langle x\rangle_{u+d+s}+\langle x\rangle_g{=}0.804(121)_{\rm stat.}(95)_{\rm syst.}+0.267(12)_{\rm stat.}(10)_{\rm syst.}{=}1.07(12)_{\rm stat.}(10)_{\rm syst.}$ satisfying the momentum sum.Comment: Version published in PR

separate motion detecting mechanisms for first and second order patterns revealed by rapid forms of visual motion priming and motion aftereffect

Fast adaptation biases the perceived motion direction of a subsequently presented ambiguous test pattern (R. Kanai & F. A. Verstraten, 2005). Depending on both the duration of the adapting stimulus (ranging from tens to hundreds of milliseconds) and the duration of the adaptation-test blank interval, the perceived direction of an ambiguous test pattern can be biased towards the same or the opposite direction of the adaptation pattern, resulting in rapid forms of motion priming or motion aftereffect respectively. These findings were obtained employing drifting luminance gratings. Many studies have shown that first-order motion (luminance-defined) and second-order motion (contrast-defined) stimuli are processed by separate mechanisms. We assessed whether these effects also exist within the second-order motion domain. Results show that fast adaptation to second-order motion biases the perceived direction of a subsequently presented second-order ambiguous test pattern with similar time courses to that obtained for first-order motion. To assess whether a single mechanism could account for these results, we ran a cross-order adaptation condition. Results showed little or no transfer between the two motion cues and probes, suggesting a degree of separation between the neural substrates subserving fast adaptation of first- and second-order motion. © ARVO

Nucleon scalar and tensor charges using lattice QCD simulations at the physical value of the pion mass

We present results on the light, strange and charm nucleon scalar and tensor charges from lattice QCD, using simulations with $N_f=2$ flavors of twisted mass Clover-improved fermions with a physical value of the pion mass. Both connected and disconnected contributions are included, enabling us to extract the isoscalar, strange and charm charges for the first time directly at the physical point. Furthermore, the renormalization is computed non-perturbatively for both isovector and isoscalar quantities. We investigate excited state effects by analyzing several sink-source time separations and by employing a set of methods to probe ground state dominance. Our final results for the scalar charges are $g_S^u = 5.20(42)(15)(12)$, $g_S^d = 4.27(26)(15)(12)$, $g_S^s=0.33(7)(1)(4)$, $g_S^c=0.062(13)(3)(5)$ and for the tensor charges $g_T^u = 0.782(16)(2)(13)$, $g_T^d = -0.219(10)(2)(13)$, $g_T^s=-0.00319(69)(2)(22)$, $g_T^c=-0.00263(269)(2)(37)$ in the $\overline{\rm MS}$ scheme at 2~GeV. The first error is statistical, the second is the systematic error due to the renormalization and the third the systematic arising from possible contamination due to the excited states.Comment: 20 pages and 13 figure

LP/HT metamorphism as a temporal marker of change of deformation style within the Late Palaeozoic accretionary wedge of central Chile

A Late Palaeozoic accretionary prism, formed at the southwestern margin of Gondwana from Early Carboniferous to Late Triassic, comprises the Coastal Accretionary Complex of central Chile (34–41°S). This fossil accretionary system is made up of two parallel contemporaneous metamorphic belts: a high‐pressure/low temperature belt (HP/LT – Western Series) and a low pressure/high temperature belt (LP/HT – Eastern Series). However, the timing of deformation events associated with the growth of the accretionary prism (successive frontal accretion and basal underplating) and the development of the LP/HT metamorphism in the shallower levels of the wedge are not continuously observed along this paired metamorphic belt, suggesting the former existence of local perturbations in the subduction regime. In the Pichilemu region, a well‐preserved segment of the paired metamorphic belt allows a first order correlation between the metamorphic and deformational evolution of the deep accreted slices of oceanic crust (blueschists and HP greenschists from the Western Series) and deformation at the shallower levels of the wedge (the Eastern Series). LP/HT mineral assemblages grew in response to arc‐related granitic intrusions, and porphyroblasts constitute time markers recording the evolution of deformation within shallow wedge material. Integrated P–T–t–d analysis reveals that the LP/HT belt is formed between the stages of frontal accretion (D1) and basal underplating of basic rocks (D2) forming blueschists at c. 300 Ma. A timeline evolution relating the formation of blueschists and the formation and deformation of LP/HT mineral assemblages at shallower levels, combined with published geochronological/thermobarometric/geochemistry data suggests a cause–effect relation between the basal accretion of basic rocks and the deformation of the shallower LP/HT belt. The S2 foliation that formed during basal accretion initiated near the base of the accretionary wedge at ~30 km depth at c. 308 Ma. Later, the S2 foliation developed at c. 300 Ma and ~15 km depth shortly after the emplacement of the granitoids and formation of the (LP/HT) peak metamorphic mineral assemblages. This shallow deformation may reflect a perturbation in the long‐term subduction dynamics (e.g. entrance of a seamount), which would in turn have contributed to the coeval exhumation of the nearby blueschists at c. 300 Ma. Finally, 40Ar–39Ar cooling ages reveal that foliated LP/HT rocks were already at ~350 °C at c. 292 Ma, indicating a rapid cooling for this metamorphic system.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/115992/1/jmg12166-sup-0001-FigS1-S5.pdfhttp://deepblue.lib.umich.edu/bitstream/2027.42/115992/2/jmg12166_am.pdfhttp://deepblue.lib.umich.edu/bitstream/2027.42/115992/3/jmg12166.pd

Limited genetic antagonism between premium cuts yield and intramuscular fat content in Iberian pigs

Ponencia publicada en ITEA, vol.104La producción de cerdo ibérico está orientada a la obtención de materia prima para la elaboración de productos curados de alta calidad, determinada entre otros factores por el contenido en grasa intramuscular. Este trabajo tiene como objetivo estimar las correlaciones genéticas entre el contenido de grasa intramuscular, medido mediante tecnología NIRS en M. longissimus, y los principales caracteres productivos: porcentaje de jamones, paletas y lomos del peso de la canal, y la ganancia media diaria durante el periodo de ‘Montanera’. Los registros analizados proceden de 6.103 cerdos castrados de 56 ganaderías y controlados desde 1993 al 2007 por AECERIBER. Los animales con un manejo extensivo común fueron sacrificados, en 79 lotes, a un peso medio de aproximadamente 160 kg. Las heredabilidades estimadas presentaron valores altos para todos los caracteres (0,37 a 0,48) indicando que la selección para todos los caracteres puede ser efectiva. Las correlaciones genéticas entre el porcentaje de las principales piezas nobles fueron altas y positivas (de 0,36 a 0,69) lo cual indica que dichos caracteres están en parte controlados por un mismo grupo de genes. Las correlaciones genéticas entre el contenido en grasa intramuscular y ganancia media diaria y el porcentaje de paletas no fueron significativamente diferentes de cero. Sin embargo, se estimaron efectos negativos significativos entre el contenido en grasa intramuscular y el porcentaje de jamones (-0.19 ± 0.04) y lomos (-0.23 ± 0.03). Estos valores indican que una intensa selección orientada a mejorar el porcentaje de piezas nobles de la canal, puede a medio plazo deteriorar la calidad de los productos curados en cerdos Ibéricos.The production of Iberian pigs is mainly focused to obtain raw meat to elaborate dry-cured products of high sensorial quality, mainly influenced by the intramuscular fat content. The objective of this work was to estimate the genetic correlations between intramuscular fat content in M. longissimus, measured using NIRS technology, and the main productive traits: percentages on carcass weight of hams, forelegs and loins, and the daily growth along the final fattening period. Records for this analysis came from 6,103 castrate males, born in 56 herds and controlled by AECERIBER from 1993 to 2007. All the animals were fattened with a common extensive management system and slaughtered, distributed in 79 batches, at approximately 160 kg. Heritability estimates presented high values for all the traits (ranging between 0.37 and 0.48) indicating that the selection for these traits could be effective. Genetic correlations between percentages of premium cuts were high and positive (from 0.36 to 0.69). This fact indicates that these traits are partially controlled by the same group of genes. Genetic correlations between intramuscular fat content and the daily growth and percentage of forelegs showed estimated values statistically non different from cero. However, significant negative values of genetic correlations were estimated between intramuscular fat content and the percentages of hams (-0.19 ± 0.04) and loins (-0.23 ± 0.03). These last values indicate that a strong selection in Iberian pigs focused to the improvement of the carcass percentage of premium cuts, could cause a deterioration of the meat suitability for dry-curing in a medium-time horizon

The role of crowding in contextual influences on contour integration

Dakin and Baruch (2009) investigated how context influences contour integration, specifically reporting that nearperpendicular surrounding-elements reduced the exposure-duration observers required to localize and determine the shape of contours (compared to performance with randomly oriented surrounds) while near-parallel surrounds increased this time. Here, we ask if this effect might be a manifestation of visual crowding (the disruptive influence of ''visual clutter'' on object recognition). We first report that the effect generalizes to simple contour-localization (without explicit shape-discrimination) and influences tolerance to orientation jitter in the same way it affects threshold exposure-duration. We next directly examined the role of crowding by quantifying observers' local uncertainty (about the orientation of the elements that comprised our contours), showing that this largely accounts for the effects of context on global contour integration. These findings support the idea that context influences contour integration at a predominantly local stage of processing and that the local effects of crowding eventually influence downstream stages in the cortical processing of visual form

Strange nucleon electromagnetic form factors from lattice QCD

We evaluate the strange nucleon electromagnetic form factors using an ensemble of gauge configurations generated with two degenerate maximally twisted mass clover-improved fermions with mass tuned to approximately reproduce the physical pion mass. In addition, we present results for the disconnected light quark contributions to the nucleon electromagnetic form factors. Improved stochastic methods are employed leading to high-precision results. The momentum dependence of the disconnected contributions is fitted using the model-independent z-expansion. We extract the magnetic moment and the electric and magnetic radii of the proton and neutron by including both connected and disconnected contributions. We find that the disconnected light quark contributions to both electric and magnetic form factors are non-zero and at the few percent level as compared to the connected. The strange form factors are also at the percent level but more noisy yielding statistical errors that are typically within one standard deviation from a zero value.Comment: 10 pages, 11 figure