Articles: biological-evolution.
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Public health reviews · Jan 2003
Review Historical ArticleThe impact of "ancient pathogen" studies on the practice of public health.
A new field of "ancient pathogens" is making an impact on our concepts of the evolution of infectious diseases, and it will eventually alter the practice of public health in their control. It has begun to answer important questions regarding past epidemics of influenza and tuberculosis by recovering the genetic sequences of the ancient causative agents. Vaccination strategics will have to study these microbial variants in order to develop tomorrow's vaccines. ⋯ Signal molecules are being identified which alter the virulence of the microbe. Focussing on these mechanisms without attempting to kill the pathogen may in some cases drive it into a benign state. These and other aspects of the evolution of pathogens are discussed which may lead to innovative approaches to the control of infectious diseases.
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Reproduction places severe demands on the energy metabolism in human females. When physical work entails higher energy expenditure, not enough energy will be left for the support of the reproductive processes and temporal suppression of the reproductive function is expected. While energy needed for reproduction may be obtained by increases in energy intake, utilization of fat reserves, or reallocation of energy from basal metabolism, several environmental or physiological constraints render such solutions unlikely. ⋯ It is, therefore, likely that allocating enough energy to the reproductive processes during periods when energy expenditure rises may be difficult due to physiological and bioenergetic constraints. Females attempting pregnancy in such conditions may compromise their lifetime reproductive output. A reproductive suppression occurring in low energy availability situations may thus represent an adaptive rather then a pathological response.
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Riv Biol Biol Forum · Sep 2002
Biography Historical ArticleCapuchin monkey tool use and Léon Croizat's ideas on the evolution of human behavior.
This note reviews Léon Croizat's ideas about the evolution of human behavior, based on his evaluation of the tool use capabilities of a capuchin monkey. Croizat theorized mainly on his orthogenetic view to explain such behavior. Interesting enough is the timeframe (1962) and context of his statement and the monkey's model used for such explanation. In this direction, some comments are provided considering the current knowledge of capuchin tool using and its potential implications for modeling hominid evolution.
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Instances of strikingly accurate Batesian mimicry (in which a palatable prey organism closely resembles an aversive model) are often cited to illustrate the power of natural selection. Less attention has been paid to those mimics, such as many hoverfly (Syrphidae) mimics of wasps or bees, that resemble their models only poorly. Attempts to provide an adaptive explanation for imperfect mimicry have suggested that what seems a crude resemblance to human observers may appear a close match to predators, or that inaccurate mimics may bear a general resemblance to several different model species. ⋯ Signal detection theory predicts that predators will modify their level of discrimination adaptively in response to the relative frequencies and similarity of models and mimics. If models are rare and/or weakly aversive, greater local similarity of mimics can thus lead to greater attack rates. Where individual mimics are related to others in their vicinity, kin selection will then oppose the evolution of accurate mimicry.
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The skeleton of a eutherian (placental) mammal has been discovered from the Lower Cretaceous Yixian Formation of northeastern China. We estimate its age to be about 125 million years (Myr), extending the date of the oldest eutherian records with skull and skeleton by about 40 50 Myr. ⋯ The new eutherian has limb and foot features that are known only from scansorial (climbing) and arboreal (tree-living) extant mammals, in contrast to the terrestrial or cursorial (running) features of other Cretaceous eutherians. This suggests that the earliest eutherian lineages developed different locomotory adaptations, facilitating their spread to diverse niches in the Cretaceous.