The canonical correlation redundancy analysis showed that coat re

The canonical correlation redundancy analysis showed that coat reflectance as well as hair length and number of hairs per unit area were the most useful in explaining changes in physiological traits. Skin and coat traits such as hair length, coat reflectance, percentage of epithelial area occupied by sweat glands, skin reflectance and thickness, as well as heart and breathing rates were the most important in separating these groups.”
“Collisions between planetesimals were common during the first approximately

100Myr of solar system formation. Such collisions learn more have been suggested to be responsible for thermal processing seen in some meteorites, although previous work has demonstrated that such events could not be responsible for the global thermal evolution of a meteorite parent body. At this early epoch in solar system history, however, meteorite parent bodies would have been heated or retained heat from the decay of short-lived radionuclides, most notably DZNeP Al-26. The postimpact structure of an impacted body is shown here to be a strong function of the internal temperature structure of the target body. We calculate the temperature-time history of all mass

in these impacted bodies, accounting for their heating in an onion-shell-structured body prior to the collision event and then allowing for the postimpact thermal evolution as heat from both radioactivities and the impact is diffused through the resulting planetesimal and radiated to space. The thermal histories of materials in these bodies are compared

with what they would be in an unimpacted, onion-shell body. We find that while collisions in the early solar system led to the heating of a target body around the point of impact, a greater amount of mass had its cooling rates accelerated as a result of the flow of heated materials to the surface during the cratering event.”
“Two-way wavelength conversion was achieved for visible and infrared signal pulses by using a phosphorescent disk. When a visible (530 nm) or infrared (980 nm) laser beam was focused on the disk, absorbed photons created bright spots that emitted both visible and infrared phosphorescence (upconversion and downconversion). Although the phosphorescence lasted PD98059 for 1 ms, a pulse signal of 1 MHz (1 mu s period) was detected successfully by circulating the bright spots on the disk (a time-space conversion method). In comparison with downconversion, upconversion was easier to achieve for high-frequency signals, since the two-photon absorption process prevented overlapping of adjacent spots by restricting the phosphorescence spot size. (C) 2013 Elsevier B.V. All rights reserved.”
“Corneal epithelium is maintained throughout life by well-orchestrated proliferation of limbal epithelial stem cells, followed by migration and maturation centripetally across the ocular surface.

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