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Bringing together cases written by experienced leadership and executive coaches from all over the world, this project explores the most demanding and challenging situations they have faced in their professional practices. By analysing and reflecting on the real life case studies the authors show how to deal with these situations in daily life.
Bringing together cases written by experienced leadership and executive coaches from all over the world, this project explores the most demanding and challenging situations they have faced in their professional practices. By analysing and reflecting on the real life case studies the authors show how to deal with these situations in daily life.
This FULL COLOR publication focuses on the relatively small number of microorganisms (primarily fungi) and arthropods (primarily insects) that are capable of causing noticeable damage to oaks in California. We have included agents that cause serious damage to oaks, as well as some common agents that produce conspicuous impacts even if they are not especially detrimental to oak health. Conspicuous but relatively inconsequential agents, such as cynipid gall wasps, often attract more attention than more cryptic agents that can severely impact oak health and structural integrity, such as canker rot fungi. However, some agents that have little or no impact on oak health may still create a nuisance in urban settings as the result of materials that are shed (e.g., sap) or because they adversely affect the appearance of oaks in the landscape. This publication is primarily intended to help arborists, land managers, pest management specialists, and other professionals identify and assess the likely impacts of common agents that attack oaks in California. While we have incorporated enough technical information to make this document useful for professionals, property owners and other members of the general public can also use this publication to better understand common oak diseases and pests. A much more comprehensive compilation of agents that feed on, colonize, and/or damage oaks can be found in the California Oak Disease and Arthropod (CODA) database (currently available at http: //Phytosphere.com/coda)
If language and the brain are co-evolved and language as a latecomer can avail itself of pre-existing means to solve its own problems, then it should be possible to describe it in terms of processing strategies and constraints arising from brain systems. This is precisely what this study attempts to do with respect to the emergence of three types of higher-level meanings; direct speech acts, built-in conditions for their success and non-defective performance and constraints on sequencing of an argumentational kind. In so doing there are three main issues it needs to address. What types of problem arise at the text level that could have led to the emergence in question? Is there a clear parallel between these problems and those faced by brain systems? What solutions have been evolved to cater for the latter, which could have been co-opted by language? Finally there is the question of the extent to which such an account is compatible with a global theory of brain function such as Edelman's Theory of Neuronal Group Selection.
Study of the syntax of Old English and Old Icelandic has for long been dominated by the impressions of early philologists. Their assertions that these languages were � free in their word-order were for many years unchallenged. Only within the last two decades has it been demonstrated that the word-order of each shows regular patterns which approach the status of rules, and which may be precisely described. This book takes the subject one step further by offering a comparison of the syntax of Old English and Old Icelandic, the two best-preserved Old Germanic languages. Over-whelmingly the two languages show the same word-order patterns - as do the other Old Germanic languages, at least as far as can be determined from the fragments which have survived. It has long been recognised that Old English and Old Icelandic have a high proportion of common lexis and very similar morphology, yet the convention has been to emphasise the differences between the two as representatives respectively of the West and North sub-families of Germanic. The argument of this book is that the similar word-order of the two should instead lead us to stress the similarities between the two languages. Old English and Old Icelandic were sufficiently close to be mutually comprehensible. This thesis receives copious support from historical and literary texts. Our understanding of the Old Germanic world should be modified by the concept of a common � Northern Speech which provided a common Germanic ethnic identity and a platform for the free flow of cultural ideas.
If language and the brain are co-evolved and language as a latecomer can avail itself of pre-existing means to solve its own problems, then it should be possible to describe it in terms of processing strategies and constraints arising from brain systems. This is precisely what this study attempts to do with respect to the emergence of three types of higher-level meanings; direct speech acts, built-in conditions for their success and non-defective performance and constraints on sequencing of an argumentational kind. In so doing there are three main issues it needs to address. What types of problem arise at the text level that could have led to the emergence in question? Is there a clear parallel between these problems and those faced by brain systems? What solutions have been evolved to cater for the latter, which could have been co-opted by language? Finally there is the question of the extent to which such an account is compatible with a global theory of brain function such as Edelman's Theory of Neuronal Group Selection.
Analyzing the power of metaphor in the rhetoric of science, this book examines the use of words to express complex scientific concepts. Metaphor and Knowledge offers a sweeping history of rhetoric and metaphor in science, delving into questions about how language constitutes knowledge. Weaving together insights from a group of scientists at the Santa Fe Institute as they shape the new interdisciplinary field of complexity science, Ken Baake shows the difficulty of writing science when word meanings are unsettled, and he analyzes the power of metaphor in science. He argues that metaphors function as musical notes, which sound "harmonics" in the process of transferring ideas from one term to another. These harmonics force scientists to confront implications, even paradoxes, of a theory.
In light of rapid and radical changes in the American workplace, urges teachers to adopt an expansion of traditional notions of English but also maintain a commitment to a strong liberal arts foundation and humanistic goals. Seeks the best fit between what schools have traditionally taught and the k
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