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    Multiphasic analysis of growth

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    The central theme of this thesis is the mathematical analysis of growth in animals, based on the theory of multiphasic growth. Growth in biological terms is related to increase in size and shape. This increase is determined by internal (genetical) and external (environmental) factors. Well known mathematical functions, used in studies to quantify growth in size from birth to maturity, assume growth to be a result of one growth phase. Over the course of time, body weight or other body measures first show an exponential increase, followed by a decreasing increase. For size-age relationships, this results in a S-shaped growth curve.Multiphasic growth theory states that the total growth curve is a result of a summation of many smaller S-curves. Each cell or group of cells has its own genetically determined growth potential, with different ages where gain is maximum. The total growth curve reflects an average growth pattern. The number of detectable phases depends on frequency and variability of the measurements.Multiphasic, or multicyclic, growth theory was a subject of discussion in growth literature from 1900 to 1945. In the Introduction of this thesis, a review of this literature is given. Multiphasic growth functions have been widely accepted to describe human growth. In the description of animal growth, however, single-phase (or monophasic) functions have been used, although in the extensive literature of animal growth studies there is sufficient evidence for the existence of more than one growth phase.The main objective of this study was to investigate the application of a multiphasic growth function to quantify animal growth. Investigation includes: application of the multiphasic function for different growth data (mean and individual curves) under different circumstances (internal and external influences), comparison of a multiple-phase function to single-phase functions and consequences on morphometric growth studies of assuming multiphasic growth.Application of a multiphasic growth function is demonstrated in Chapter 1, with four data sets taken from literature. The multiphasic growth function used was a summation of n logistic growth functions. Human height growth curves of this type are known as "double logistic" (n=2) or "triple logistic" (n=3) growth curves. When applied to the human height curve and to pika, mice and rabbit weight curves, the fit of the multiphasic growth function was superior to the monophasic model in terms of smaller residual variances and absence of autocorrelation of residuals. For pika weights, two phases could be distinguished and for the other data sets, three phases.Application of a multiphasic function to individual weights is tested in Chapter 2. Growth curves of mean body weights were compared to those of individual weights, when fitted to data of male and female mice using monophasic and triphasic growth (logistic) functions. Because of the large variability in individual weights, it was necessary to set bounds on some parameters. Goodness-of-fit criteria suggested that the triphasic function, with smaller and less correlated residuals, described the data better than the monophasic function. For the triphasic function, residual variances were larger when fitting curves for individual weights than for mean weights. Means of parameters for the triphasic function were higher for individual weights than for mean weights. Differences in parameter estimates between curves within sex were small. Parameters were similar for males and females in the first phase of growth. For the second and the third phase, however, asymptotic weight was higher for males than for females. It could be concluded that the triphasic function was able to describe accurately individual weights of male and female mice.In Chapter 3, a multiphasic growth function is applied to problems of growth in different circumstances. Seasonal influence on growth in length of Northsea herring is an example of an external factor causing phases of growth. By modifying the multiphasic function slightly, length growth was described. The most important internal factor causing phases of growth is the difference in growth patterns of body components. The multiphasic function was modified and applied to growth of body components in pigs. Growth of total dry matter was analyzed with a diphasic function, and growth of fat and fat-free components were each analyzed with a monophasic function. Results for total dry matter showed clearly that parameter estimates of the diphasic function for the two distinguishable phases were related closely to parameter estimates of a monophasic function for each of the two Components. In a second illustration on growth in pigs, also a relation between growth phases of the function and growth of different body components could be shown. By restricting parameters of the general multiphasic function, or treating some parameters as constants, growth functions can be constructed that have parameters that are easy to interpret.The relation of the multiple-phase to the single-phase approach for describing growth curves is studied in Chapter 4. A multiple-phase growth function is compared with four single-phase growth functions. From a general five-parameter function, four functions were selected to achieve maximal differences in shape: the JohnsonSchumacher, Michaelis-Menten, Gompertz and Logistic function. The multiphasic function was fitted to the simulated data from each of the four functions. Body weights of a cow and a boar were analyzed with four single-phase functions and with the multiphasic function.Results of simulation showed that a triphasic function satisfactorily described simulated data from the four functions, in terms of smaller residual standard deviation and absence of systematic deviations in residuals. it could be concluded, therefore, that single-phase functions, with early inflection points, show relatively high fractions of the asymptotic value in the first phase. Using a single-phase function, cow and boar data could be described best with the Johnson-Schumacher function. Using a diphasic function for each data set, systematic deviations were eliminated and residual standard deviation was no larger than when using the JohnsonSchumacher function for the two data sets. This comparison showed that a multiple-phase function is a reasonable alternative to a single-phase function. An important advantage of a multiple-phase over a single-phase function is not having to select the 'best' single-phase function. Problems of having to estimate a larger number of parameters for a multiple-phase function than for a sing lephase function can be overcome because parameters for a multiple-phase function are less correlated than those for a single-phase function.Application of the multiphasic growth function to body weights and tail lengths of mice is studied in Chapter 5, in cases where large, genetically determined differences in size exist between littermates. Mice were progeny of one male that carried the human growth hormone gene (somatotropin) and random bred NMRI females. At week 12, ten litters, with at least four females or four males, were chosen. Within each litter, four females or four males were selected, two with highest and two with lowest body weight. Mice with highest body weight were considered to be transgenic. Although this was not tested biologically, differences in body weight were considerable and the assumption probably was correct. Body weight and tail length of these 40 mice were measured about weekly from week 3 to 26. Female transgenic mice reached26-week body weight that averaged 1.6 times that of their non- transgenic littermates; for males, this ratio was 1.9. A diphasic growth function was used either for body weight and for tail length with marked results, especially for tail length. In the first phase, transgenic females had .64 cm shorter tails and transgenic males had .92 cm shorter tails than nontransgenic littermates. In second phase, transgenic females grew 1.4 cm and males 1.58 cm more than non-transgenic littermates. Body weight differences in each phase were in favor of transgenic mice. Multiphasic growth functions fitted data for body weight and tail length satisfactorily and provided clearer insight into differences in growth patterns of transgenic and nontransgenic mice.Body weights and tail lengths of these same mice were used in Chapter 6 to study consequences on morphometric studies of assuming multiphasic growth. These types of studies, frequently indicated as 'allometric growth studies', will have an extra dimension when phases are taken into consideration. Multiphasic growth functions are based on assigning weight or other body measures to different phases. The well-known allometric function is used most often to study relations in growth of different body dimensions of an individual. Complex allometry exists when age at maximum gain is shifted on the age scale. Growth functions can used to estimate these ages. In this chapter, the literature on this subject is reviewed. By using multiphasic functions to describe growth of different body measures, it is possible to relate the growth in different phases. In mice data, it could be shown that the second phase of tail length was related the strongest to the first phase of body weight. Gain in second phase of body weight seemed to be unrelated to other body measures. Multiphasic growth analysis provides a suitable extension to study relations of growth in different body dimensions.Findings in these investigations can be summarized in the following conclusions:1. The existence of more than one phase in growth curves of humans and animals is supported by biological explanations in the literature.2. Application of the multiphasic growth function provides detailed insight into growth patterns of body weight or other body measures, for individuals or groups of individuals.3. Use of the multiphasic function requires frequent measurements during a relatively long period of life; this improves discrimination of the phases.4. The multiphasic function is applicable in circumstances where phases are caused by systematic external influences and in cases where phases are the result of internal factors.5. In each phase of the multiphasic function, body components that have maximum gain at a similar age will be grouped together, if external influences are negligible.6. In cases where detection of multiple phases in the growth curve is not the main objective, use of a multiphasic function is an attractive alternative to single-phasic functions. If a multiphasic function is modified according to circumstances in which growth took place, then parameters are less correlated then those of single-phase functions.7. Use of a multiphasic function in "allometric growth studies" leads to an extra dimension for comparison. In addition to comparing growth of different body measures, it is possible to compare growth of different phases. In light of conclusion 5, phases within one body measure will show "complex allometric" relations.8. Application of the multiphasic growth function can make an important contribution in determining stage of physiological maturity, which is especially of interest when using the "genetic scaling rules" defined by Taylor

    Diffusive author(s), cohesive author: Analysis of S/N (1994)

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    This study indicates the ways in which various aspects of the author(s) are brought forth in Dumb type’s performance art, the S/N production. Previous research has suggested a non-hierarchical organization of Dumb type and the absence of a “privileged author” in Dumb type’s collaborative work, S/N. However, the results that I have investigated from member’s interviews on the creative process of S/N along with my analysis of the recorded images of S/N, indicate a different aspect of the author(s). First, S/N was created through, so to speak, the collective ideas of the members of Dumb type. Further, S/N has at least nine quotations from previous performances, installations, and printed writings, besides the work-in-progress technique. Explicating one of the “author functions” as given by Michel Foucault, each text has plural subjects of the author. However, it has been revealed from members’ interviews that Teiji Furuhashi had a decision-making role in selecting the members’ ideas within the performance. Since then, S/N has had plural subjects of creation; however, Furuhashi is one of the subjects of creation along with the “privileged author.” S/N has plural authors (diffusive authors) yet at the same time, it has a “privileged author,” Teiji Furuhashi (cohesive author)

    Going Beyond Counting First Authors in Author Co-citation Analysis

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    The present study examines one of the fundamental aspects of author co-citation analysis (ACA) - the way co-citation counts are defined. Co-citation counting provides the data on which all subsequent statistical analyses and mappings are based, and we compare ACA results based on two different types of co-citation counting - the traditional type that only counts the first one among a cited work's authors on the one hand and a non-traditional type that takes into account the first 5 authors of a cited work on the other hand. Results indicate that the picture produced through this non-traditional author co-citation counting contains more coherent author groups and is therefore considerably clearer. However, this picture represents fewer specialties in the research field being studied than that produced through the traditional first-author co-citation counting when the same number of top-ranked authors is selected and analyzed. Reasons for these effects are discussed

    Dispelling the Myths Behind First-author Citation Counts

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    We conducted a full-scale evaluative citation analysis study of scholars in the XML research field to explore just how different from each other author rankings resulting from different citation counting methods actually are, and to demonstrate the capability of emerging data and tools on the Web in supporting more realistic citation counting methods. Our results contest some common arguments for the continued use of first-author citation counts in the evaluation of scholars, such as high correlations between author rankings by first-author citation counts and other citation counting methods, and high costs of using more realistic citation counting methods that are not well-supported by the ISI databases. It is argued that increasingly available digital full text research papers make it possible for citation analysis studies to go beyond what the ISI databases have directly supported and to employ more sophisticated methods

    Author's address:

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    Can archives of audiovisual TV interviews be used to make authors more visible to students, and thereby reduce the learning gap between native and non-native language speakers in college classes? We examined students in a college course who learned about one scholar's ideas through watching an audiovisual TV interview (i.e., visible author format) and about another scholar's ideas through reading a formal text description (i.e., invisible author format). For the invisible author, native language speakers scored significantly higher than the non-native language speakers on a corresponding exam question (i.e., a cognitive measure), generated more words on the exam question (i.e., a motivational measure), and mentioned the author's name more often in answering the exam question (i.e., an affective measure). For the visible author, the groups did not differ on any of these measures. These findings provide evidence for the idea that making the author visible through audiovisual TV interviews can eliminate the learning gap between native and non-native language speakers. 3 Universities around the world serve students who are non-native speakers of th

    The vanishing author in computer-generated works: a critical analysis of recent Australian case law

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    Abstract The use of software is ubiquitous in the creation of many copyright works, yet the requirement in copyright law that every work have a human author who engages in independent intellectual effort means that its use may prevent copyright subsistence. Several recent Australian cases have refocused attention on authorship as an essential criterion of copyright subsistence, and these cases suggest that much computer-produced output may be authorless and thus lack copyright protection. This article, the first in a two-part series, analyses how each case deals with the question of authorship of computer-produced works and why the use of software diminishes copyright protection for a significant number of computer-generated works. The article critiques the application of conventional notions of human authorship developed in the pre-computer age to modern productions and suggests alternative approaches to authorship that satisfy both the major objectives of copyright policy and the need to adapt to the computer age. The article argues that, without a broader judicial approach to authorship of computer-generated works, Parliament must remedy the lacuna in protection for these ‘authorless’ works. Possible solutions for reform are suggested. In a forthcoming article, the author comprehensively examines those reform proposals

    The construction of Karen Karnak: The multi-author-function

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    This thesis is situated within the comparatively recent developments of Web 2.0 and the emergence of interactive WikiMedia, and explores the mode of authorship within a Read/Write culture compared to that of a Read/Only tradition. The hypothesis of this study is that the role of the audience has become merged with the author, and as such, represents new functions and attributes, distinct from a more conventional concept of authorship, in which the roles of audience and author are more separate. Read/Write and participatory culture, as defined by this study, is focused on collaboration, and includes the influences of D.I.Y. culture, Open-Source practices and the production of text by multiple authors. Multi-authorship presents a re-thinking of several concepts which support the notion of the individual author, since the focus of multi-authorship is not on attribution and ownership of a finished text, but on the continued malleability of a text. Modes of multi-authorship, demonstrated in the use of the pseudonyms Alan Smithee and Karen Eliot, represent declarative authors whose names signify multiple origins, whilst concurrently indicating a distinct body of work. The function of these names form an important context to this study, since primary research involves the construction of an experimental mode of multi-authorship utilising WikiMedia technology and the interaction of thirty nine participants, who are invited to create a body of work under the collective pseudonym Karen Karnak. The data generated by this experiment is analysed using aspects of Michel Foucault's author-function to identify and determine power structures inherent in the WikiMedia context. The interplay of power structures, including concepts such as identity, ownership and the body of work, affect the resulting mode of authorship and contribute to the construction of Karen Karnak, suggesting further areas of research into the emerging multi-author

    An Author´s Existence

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    This bachelor´s thesis represents a sort of personal looking back vhich goes in two parallel lines - looking for oneself in artistic circles and looking for one own creative approach to the life and pedagogy. The work is divided into three parts. First part maps the author´s (not only) family background, in the second part the author leads us through a period of searching and trying to understand oneself through studying artistic and psychosomatic disciplines and the third integrating part concentrates on the present moment as a point of departure for work with the voice and voice pedagogy
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