357 research outputs found
Generalized Functional Responses for Species Distributions
Researchers employing resource selection functions (RSFs) and other related methods aim to detect correlates of space-use and mitigate against detrimental environmental change. However, an empirical model fit to data from one place or time is unlikely to capture species responses under different conditions because organisms respond nonlinearly to changes in habitat availability. This phenomenon, known as a functional response in resource selection, has been debated extensively in the RSF literature but continues to be ignored by practitioners for lack of a practical treatment. We therefore extend the RSF approach to enable it to estimate generalized functional responses (GFRs) from spatial data. GFRs employ data from several sampling instances characterized by diverse profiles of habitat availability. By modeling the regression coefficients of the underlying RSF as functions of availability, GFRs can account for environmental change and thus predict population distributions in new environments. We formulate the approach as a mixed-effects model so that it is estimable by readily available statistical software. We illustrate its application using (1) simulation and (2) wolf home-range telemetry. Our results indicate that GFRs can offer considerable improvements in estimation speed and predictive ability over existing mixed-effects approaches
Natural Genetic Variation for Acclimation of Photosynthetic Light Use Efficiency to Growth Irradiance in Arabidopsis
The Influence of Topographic and Dynamic Cyclic Variables on the Distribution of Small Cetaceans in a Shallow Coastal System
The influence of topographic and temporal variables on cetacean distribution at a fine-scale is still poorly understood. To study the spatial and temporal distribution of harbour porpoise Phocoena phocoena and the poorly known Risso’s dolphin Grampus griseus we carried out land-based observations from Bardsey Island (Wales, UK) in summer (2001–2007). Using Kernel analysis and Generalized Additive Models it was shown that porpoises and Risso’s appeared to be linked to topographic and dynamic cyclic variables with both species using different core areas (dolphins to the West and porpoises to the East off Bardsey). Depth, slope and aspect and a low variation in current speed (for Risso’s) were important in explaining the patchy distributions for both species. The prime temporal conditions in these shallow coastal systems were related to the tidal cycle (Low Water Slack and the flood phase), lunar cycle (a few days following the neap tidal phase), diel cycle (afternoons) and seasonal cycle (peaking in August) but differed between species on a temporary but predictable basis. The measure of tidal stratification was shown to be important. Coastal waters generally show a stronger stratification particularly during neap tides upon which the phytoplankton biomass at the surface rises reaching its maximum about 2–3 days after neap tide. It appeared that porpoises occurred in those areas where stratification is maximised and Risso’s preferred more mixed waters. This fine-scale study provided a temporal insight into spatial distribution of two species that single studies conducted over broader scales (tens or hundreds of kilometers) do not achieve. Understanding which topographic and cyclic variables drive the patchy distribution of porpoises and Risso’s in a Headland/Island system may form the initial basis for identifying potentially critical habitats for these species
The distress thermometer as a predictor for survival in stage III lung cancer patients treated with chemotherapy
Background: Depression and Health Related Quality of Life have been associated with prognosis in lung cancer. As the Distress Thermometer measures emotional problems and may share similarities with aspects of Health Related Quality of Life, we aimed to retrospectively assess the prognostic value of the Distress Thermometer in lung cancer patients treated with chemotherapy. Methods: Patients with stage III lung cancer who were treated at the day-care oncology unit with chemotherapy containing carboplatin from 2009 to 2014 and in whom a Distress Thermometer was performed at the time of the first cycle of chemotherapy were included in this study. Results: In total, one hundred and thirteen patients were included in the analysis. In the simple Cox regression analysis, overall survival did not significantly differ according to Distress Thermometer score. No significant differences in Distress Thermometer score according to stage, histology, (intended) treatment, age, sex, and comorbidity were observed. Also in a multivariable model the Distress Thermometer was not prognostic for overall survival, whereas sex and (intended) treatment was. Conclusions: In this study no prognostic value of the Distress Thermometer could be established in patients with stage III lung cancer treated with carboplatin. Further research is warranted to address this issue
Critical phenomena from the two-particle irreducible 1/N expansion
The 1/N expansion of the two-particle irreducible (2PI) effective action is
employed to compute universal properties at the second-order phase transition
of an O(N)-symmetric N-vector model directly in three dimensions. At
next-to-leading order the approach cures the spurious small-N divergence of the
standard (1PI) 1/N expansion for a computation of the critical anomalous
dimension eta(N), and leads to improved estimates already for moderate values
of N.Comment: 18 pages, 3 figure
Ion Current Rectification and Long-Range Interference in Conical Silicon Micropores
Fluidic devices exhibiting ion current rectification (ICR), or ionic diodes,
are of broad interest for applications including desalination, energy
harvesting, and sensing, amongst others. For such applications a large
conductance is desirable which can be achieved by simultaneously using thin
membranes and wide pores. In this paper we demonstrate ICR in micron sized
conical channels in a thin silicon membrane with pore diameters comparable to
the membrane thickness but both much larger than the electrolyte screening
length. We show that for these pores the entrance resistance is not only key to
Ohmic conductance around 0 V, but also for understanding ICR, both of which we
measure experimentally and capture within a single analytic theoretical
framework. The only fit parameter in this theory is the membrane surface
potential, for which we find that it is voltage dependent and its value is
excessively large compared to literature. From this we infer that surface
charge outside the pore strongly contributes to the observed Ohmic conductance
and rectification by a different extent. We experimentally verify this
hypothesis in a small array of pores and find that ICR vanishes due to
pore-pore interactions mediated through the membrane surface, while Ohmic
conductance around 0 V remains unaffected. We find that the pore-pore
interaction for ICR is set by a long-ranged decay of the concentration which
explains the surprising finding that the ICR vanishes for even a sparsely
populated array with a pore-pore spacing as large as 7 m.Comment: 30 pages, 6 figures, Supplementary Information: 13 pages, 9 figure
Cholinergic, but not dopaminergic or noradrenergic, enhancement sharpens visual spatial perception in humans
The neuromodulator acetylcholine modulates spatial integration in visual cortex by altering the balance of inputs that generate neuronal receptive fields. These cholinergic effects may provide a neurobiological mechanism underlying the modulation of visual representations by visual spatial attention. However, the consequences of cholinergic enhancement on visuospatial perception in humans are unknown. We conducted two experiments to test whether enhancing cholinergic signaling selectively alters perceptual measures of visuospatial interactions in human subjects. In Experiment 1, a double-blind placebo-controlled pharmacology study, we measured how flanking distractors influenced detection of a small contrast decrement of a peripheral target, as a function of target-flanker distance. We found that cholinergic enhancement with the cholinesterase inhibitor donepezil improved target detection, and modeling suggested that this was mainly due to a narrowing of the extent of facilitatory perceptual spatial interactions. In Experiment 2, we tested whether these effects were selective to the cholinergic system or would also be observed following enhancements of related neuromodulators dopamine or norepinephrine. Unlike cholinergic enhancement, dopamine (bromocriptine) and norepinephrine (guanfacine) manipulations did not improve performance or systematically alter the spatial profile of perceptual interactions between targets and distractors. These findings reveal mechanisms by which cholinergic signaling influences visual spatial interactions in perception and improves processing of a visual target among distractors, effects that are notably similar to those of spatial selective attention
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