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Students of evolutionary and behavioural ecology are often unfamiliar with mathematical techniques, though much of biology relies on mathematics. Evolutionary ideas are often complex, meaning that the logic of hypotheses proposed should not only be tested empirically but also mathematically. There are numerous different modelling tools used by ecologists, ranging from population genetic 'bookkeeping', to game theory and individual-based computer simulations. Due to the many different modelling options available, it is often difficult to know where to start. Hanna Kokko has designed this 2007 book to help with these decisions. Each method described is illustrated with one or two biologically interesting examples that have been chosen to help overcome fears of many biologists when faced with mathematical work, whilst also providing the programming code (Matlab) for each problem. Aimed primarily at students of evolutionary and behavioural ecology, this book will be of interest to any biologist interested in mathematical modelling.
A friendly 2007 guide to mathematical modelling for evolutionary and behavioural ecologists.
Species are typically adapted to the local environmental conditions in which they have evolved.
Provides an overview of the fast expanding field of dispersal ecology. The causes, mechanisms, and consequences of dispersal at the individual, population, species, and community levels are all considered.
The theme of the book is the distribution and abundance of organisms in space and time. The core of the book lies in how local births and deaths are tied to emigration and immigration processes, and how environmental variability at different scales affects population dynamics with stochastic processes and spatial structure and shows how elementary analytical tools can be used to understand population fluctuations, synchrony, processes underlying range distributions and community structure and species coexistence. The book also shows how spatial population dynamics models can be used to understand life history evolution and aspects of evolutionary game theory. Although primarily based on analytical and numerical analyses of spatial population processes, data from several study systems are also dealt with.
"The chapters in this book [posit] that humans clearly have the capacity to make war, but since war is absent in some cultures, it cannot be viewed as a human universal. And counter to frequent presumption, the actual archaeological record reveals the recent emergence of war. It does not typify the ancestral type of human society, the nomadic forager band, and contrary to widespread assumptions, there is little support for the idea that war is ancient or an evolved adaptation. Views of human nature as inherently warlike stem not from the facts but from cultural views embedded in Western thinking"--Amazon.com.
Almost everything we do is based on our knowledge of the world around us: how we dress in the morning, how we go about our work, how we interact with other people – all these things rest on our understanding of how we know life. Knowledge might be seen as the most central as well as the most under-researched trait of social life: we mainly think of knowledge as either technical (scientific knowledge) or formal (as bestowed by academic education). The things that we know are obscured in our everyday routines, not revealing their true status as "known" – until critical moments demand it. This book establishes a fundamentally social understanding of knowledge. Knowledge is re-embedded into the discussion of how we, as individuals and groups, and as a modern society produce and reproduce knowledge as the foundation of our lives. Knowledge is approached as a societal phenomenon, as we uncover the ingredients and settings in which knowledge is produced and put to use.
Contests are an important aspect of the lives of diverse animals, from sea anemones competing for space on a rocky shore to fallow deer stags contending for access to females. Why do animals fight? What determines when fights stop and which contestant wins? Addressing fundamental questions on contest behaviour, this volume presents theoretical and empirical perspectives across a range of species. The historical development of contest research, the evolutionary theory of both dyadic and multiparty contests, and approaches to experimental design and data analysis are discussed in the first chapters. This is followed by reviews of research in key animal taxa, from the use of aerial displays and assessment rules in butterflies and the developmental biology of weapons in beetles, through to interstate warfare in humans. The final chapter considers future directions and applications of contest research, making this a comprehensive resource for both graduate students and researchers in the field.
This contributed volume considers recent advances in dynamic games and their applications, based on presentations given at the 17th Symposium of the International Society of Dynamic Games, held July 12-15, 2016, in Urbino, Italy. Written by experts in their respective disciplines, these papers cover various aspects of dynamic game theory including mean-field games, stochastic and pursuit-evasion games, and computational methods for dynamic games. Topics covered include Pedestrian flow in crowded environments Models for climate change negotiations Nash Equilibria for dynamic games involving Volterra integral equations Differential games in healthcare markets Linear-quadratic Gaussian dynamic games Aircraft control in wind shear conditions Advances in Dynamic and Mean-Field Games presents state-of-the-art research in a wide spectrum of areas. As such, it serves as a testament to the continued vitality and growth of the field of dynamic games and their applications. It will be of interest to an interdisciplinary audience of researchers, practitioners, and graduate students.
Archaeologists have been increasingly turning their attention to the study of religion, but the field so far has lacked a cross-cultural overview. This text challenges archaeological conventions by refusing to respect the geographic and temporal boundaries with which archaeologists too often define their field. Worldwide in range and comparative in perspective, this exploration is guided by several fundamental questions: how do we recognize religion in the archaeological record? When should we recognize the first activities we call religious? What distinguishes a world religion? How can we see the formations of modern world religions in the archaeological record? An Archaeology of Religion begins with the first glimmers of what might be considered religious expression in the Paleolithic period and concludes with the complexities of world religions today. This book is an ambitious attempt to survey how scholars approach the identification of religious sites and practices in the archaeological record.