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Previous studies of the effect of carbonation on taste perception have
suggested that it may be negligible, manifesting primarily in increases in
the perceived intensity of weak salt and sour stimuli. Assuming CO2
solutions in the mouth stimulate only trigeminal nerve endings, this result
is not altogether surprising; however, there are neurophysiological data
indicating that CO2 stimulates gustatory as well as trigeminal fibers. In
that case, carbonation might alter the quality profile of a stimulus
without producing substantial changes in overall taste intensity--much as
occurs when qualitatively different taste stimuli are mixed. To address
this possibility, subjects were asked to rate the total taste intensity of
moderate concentrations of stimuli representing each of the basic tastes
and their binary combinations, with an without added carbonation. They then
subdivided total taste intensity into the proportions of sweetness,
saltiness, sourness, bitterness and 'other taste qualities' they perceived.
The addition of carbonation produced only small increases in ratings of
total taste intensity. However, rather dramatic alterations in the quality
profiles of stimuli were observed, particularly for sweet and salty tastes.
The nature of the interaction is consistent with a direct effect of
carbonation/CO2 on the gustatory system, although the possibility that at
least some of the observed effects reflect trigeminal-gustatory
interactions cannot be ruled out.
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KARI BJØRNERAAS BRAM VAN MOORTER CHRISTER MOE ROLANDSEN IVAR HERFINDAL 《The Journal of wildlife management》2010,74(6):1361-1366
Abstract: Animal locations estimated by Global Positioning System (GPS) inherently contain errors. Screening procedures used to remove large positional errors often trade data accuracy for data loss. We developed a simple screening method that identifies locations arising from unrealistic movement patterns. When applied to a large data set of moose (Alces alces) locations, our method identified virtually all known errors with minimal loss of data. Thus, our method for screening GPS data improves the quality of data sets and increases the value of such data for research and management. 相似文献
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1. Omnivorous predators can protect plants from herbivores, but may also consume plant material themselves. Omnivores and their purely herbivorous prey have previously been thought to respond similarly to host‐plant quality. However, different responses of omnivores and herbivores to their shared host plants may influence the fitness, trophic identity, and population dynamics of the omnivores. 2. The aim of the present study was to show that an omnivorous heteropteran (Anthocoris nemorum L.) and two strictly herbivorous prey species respond differently to different genotypes of their shared host plant, Salix. Some plant genotypes were sub‐optimal for the omnivore, although suitable for the herbivores, and vice versa. 3. The contrasting patterns of plant suitability for the omnivore and the herbivores highlight an interaction between plant genotype and omnivores' access to animal food. Plant genotypes that were sub‐optimal for the omnivore when herbivores were experimentally excluded became the best host plants when herbivores were present, as in the latter situation additional prey became available. By contrast, the quality of plant genotypes that were intrinsically suitable for omnivores, did not improve when herbivores were present as these plant genotypes were intrinsically sub‐optimal for herbivores, thus providing omnivores with almost no additional animal food. 4. The differential responses of omnivores and their prey to the same host‐plant genotypes should allow omnivores to colonise sub‐optimal host plants in their capacity as predators, and to colonise more suitable host plants in their capacity as herbivores. It may thus be difficult for Salix to escape herbivory entirely, as it will rarely be unsuitable for both omnivores and pure herbivores at the same time. 相似文献