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Toward a physiological explanation of juvenile growth curves
Juvenile growth curves are generally sigmoid in shape: Growth is initially nearly exponential, but it slows to near zero as the animal approaches maturity. The drop‐off in growth rate is puzzling because, everything else being equal, selection favors growing as fast as possible. Existing theory posits sublinear scaling of resource acquisition with juvenile body mass and linear scaling of the requirement for maintenance, so the difference, fuel for growth, decreases as the juvenile increases in size. Experimental evidence, however, suggests that maintenance metabolism increases sublinearly not linearly with size. Here, we develop a new theory consistent with the experimental evidence. Our theory is based on the plausible assumption that there is a trade‐off in the capacity of capillaries to supply growing and developed cells. As the proportion of non‐growing cells increases, they take up more macromolecules from the capillaries, leaving fewer to support growing cells. The predicted growth curves are realistic and similar to those of previous models (Bertalanffy, Gompertz, and Logistic) but have the advantage of being derived from a plausible physiological model. We hope that our focus on resource delivery in capillaries will encourage new experimental work to identify the detailed physiological basis of the trade‐off underlying juvenile growth curves
Simulation Komplexer Populationsdynamik
Simulation is an essential tool for the investigation of laws and functioning in ecosystems. Models of populations are only realistic if the physiological constraints of the individuals are considered. Some specific problems of ecological modelling are demonstrated on such a model concept asking for the consequences of cannibalism on predacious Zooplankton. With finely structured compartments of detailed developmental stages it is possible to follow an age structure, which is highly instable under cannibalism. General statements are given on the conditions, when cannibalism destroys its own population and when cannibalism is a stabilizing factor in predator-prey-systems
Density-Dependence as a Size-Independent Regulatory Mechanism
The growth function of populations is central in biomathematics. The main
dogma is the existence of density dependence mechanisms, which can be modelled
with distinct functional forms that depend on the size of the population. One
important class of regulatory functions is the -logistic, which
generalises the logistic equation. Using this model as a motivation, this paper
introduces a simple dynamical reformulation that generalises many growth
functions. The reformulation consists of two equations, one for population
size, and one for the growth rate. Furthermore, the model shows that although
population is density-dependent, the dynamics of the growth rate does not
depend either on population size, nor on the carrying capacity. Actually, the
growth equation is uncoupled from the population size equation, and the model
has only two parameters, a Malthusian parameter and a competition
coefficient . Distinct sign combinations of these parameters reproduce
not only the family of -logistics, but also the van Bertalanffy,
Gompertz and Potential Growth equations, among other possibilities. It is also
shown that, except for two critical points, there is a general size-scaling
relation that includes those appearing in the most important allometric
theories, including the recently proposed Metabolic Theory of Ecology. With
this model, several issues of general interest are discussed such as the growth
of animal population, extinctions, cell growth and allometry, and the effect of
environment over a population.Comment: 41 Pages, 5 figures Submitted to JT
Complex Systems Science: Dreams of Universality, Reality of Interdisciplinarity
Using a large database (~ 215 000 records) of relevant articles, we
empirically study the "complex systems" field and its claims to find universal
principles applying to systems in general. The study of references shared by
the papers allows us to obtain a global point of view on the structure of this
highly interdisciplinary field. We show that its overall coherence does not
arise from a universal theory but instead from computational techniques and
fruitful adaptations of the idea of self-organization to specific systems. We
also find that communication between different disciplines goes through
specific "trading zones", ie sub-communities that create an interface around
specific tools (a DNA microchip) or concepts (a network).Comment: Journal of the American Society for Information Science and
Technology (2012) 10.1002/asi.2264
The New Old (and Old New) Medical Model:Four Decades Navigating the Biomedical and Psychosocial Understandings of Health and Illness
The importance of how disease and illness are conceptualised lies in the fact that such definition is paramount to understand the boundaries and scope of responsibility associated with medical work. In this paper, we aim to provide an overview of the interplay of these understandings in shaping the nature of medical work, philosophically, and in practice. We first discuss the emergence of the biopsychosocial model as an attempt to both challenge and broaden the traditional biomedical model. Then, we outline the main criticisms associated with the biopsychosocial model and note a range of contributions addressing the shortcomings of the model as initially formulated. Despite recurrent criticisms and uneven uptake, the biopsychosocial model has gone on to influence core aspects of medical practice, education, and research across many areas of medicine. One of these areas is adolescent medicine, which provides a particularly good exemplar to examine the contemporary challenges associated with the practical application of the biopsychosocial model. We conclude that a more optimal use of existing bodies of evidence, bringing together evidence-based methodological advances of the biopsychosocial model and existing evidence on the psychosocial needs associated with specific conditions/populations, can help to bridge the gap between philosophy and practice
The Implications of Interactions for Science and Philosophy
Reductionism has dominated science and philosophy for centuries. Complexity
has recently shown that interactions---which reductionism neglects---are
relevant for understanding phenomena. When interactions are considered,
reductionism becomes limited in several aspects. In this paper, I argue that
interactions imply non-reductionism, non-materialism, non-predictability,
non-Platonism, and non-nihilism. As alternatives to each of these, holism,
informism, adaptation, contextuality, and meaningfulness are put forward,
respectively. A worldview that includes interactions not only describes better
our world, but can help to solve many open scientific, philosophical, and
social problems caused by implications of reductionism.Comment: 12 pages, 2 figure
Адаптация персонала организации на примере сети кафе «Пельмени Project»
Объектом исследования является–система адаптации персонала в кафе «Пельмени Project» и разработка путей ее совершенствования.
Предметом исследования является – система адаптации персонала.
Цель работы– оценка системы адаптации и разработка методов ее совершенствования в кафе «Пельмени Project». В процессе исследования проводился комплексный опрос. В результате исследования были разработаны рекомендации по улучшению системы адаптации персоналом в кафе «Пельмени Project».
Степень внедрения:система адаптации молодых сотрудников в кафе
«Пельмени Project» находится на хорошем уровне, проводятся различные мероприятия для благоприятной адаптации на работе, несмотря на это, все равно существует ряд недоработок в этой области, подтверждением тому является текучка кадров и неудовлетворенность новых сотрудников.The object of this study is to adapt the system-staff in the cafe "Dumplings Project» and to develop ways to improve it. The subject issledovaniyayavlyaetsya - personnel system adaptation.
The purpose work- evaluation system to adapt and develop methods to improve it in the cafe "Dumplings Project». The study conducted a comprehensive survey. The study developed recommendations to improve the personnel system to adapt to the cafe "Dumplings Project».
Degree of implementation: adapting the system of young staff in the cafe
"Dumplings Project» is at a good level, hosts a variety of
supportive measures for adaptation to work, in spite of this, all
still there are some shortcomings in this area, confirming that
is staff turnover and dissatisfaction with the new employees
Modelling the emergence of rodent filial huddling from physiological huddling
Huddling behaviour in neonatal rodents reduces the metabolic costs of physiological thermoregulation. However, animals continue to huddle into adulthood, at ambient temperatures where they are able to sustain a basal metabolism in isolation from the huddle. This 'filial huddling' in older animals is known to be guided by olfactory rather than thermal cues. The present study aimed to test whether thermally rewarding contacts between young mice, experienced when thermogenesis in brown adipose fat tissue (BAT) is highest, could give rise to olfactory preferences that persist as filial huddling interactions in adults. To this end, a simple model was constructed to fit existing data on the development of mouse thermal physiology and behaviour. The form of the model that emerged yields a remarkable explanation for filial huddling; associative learning maintains huddling into adulthood via processes that reduce thermodynamic entropy from BAT-metabolism and increase information about social ordering amongst littermates
Systems biology and the virtual physiological human
The virtual physiological human (VPH) initiative is intended to support the development of patient‐specific computer models and their application in personalised and predictive healthcare. The VPH, a core target of the European Commission's 7th Framework Programme, will serve as a ‘methodological and technological framework that, once established, will enable collaborative investigation of the human body as a single complex system’ (http://www.europhysiome.org/roadmap/). As such, the VPH initiative constitutes an integral part of the international Physiome Project (http://www.physiome.org.nz/), a worldwide public domain effort to develop a computational framework for the quantitative description of biological processes in living systems across all relevant levels of structural and functional integration, from molecule to organism, including the human (Kohl et al, 2000; Bassingthwaighte et al, 2009). So, what is the connection between this grand challenge and systems biology? To explore this, we must first agree on what we take systems biology to mean
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