An argument that moral psychology can benefit from closer integration with the social sciences, offering a novel ethical theory bridging the two. In this book, Mark Fedyk offers a novel analysis of the relationship between moral psychology and allied fields in the social sciences. Fedyk shows how the social sciences can be integrated with moral philosophy, argues for the benefits of such an integration, and offers a new ethical theory that can be used to bridge research between the two. Fedyk argues that moral psychology should take a social turn, investigating the psychological processes that motivate patterns of social behavior defined as ethical using normative information extracted from the social sciences. He points out methodological problems in conventional moral psychology, particularly the increasing methodological and conceptual inconsilience with both philosophical ethics and evolutionary biology. Fedyk's “causal theory of ethics” is designed to provide moral psychology with an ethical theory that can be used without creating tension between its scientific practice and the conceptual vocabulary of philosophical ethics. His account aims both to redirect moral psychology toward more socially realistic questions about human life and to introduce philosophers to a new form of ethical naturalism—a way of thinking about how to use different fields of scientific research to answer some of the traditional questions that are at the heart of ethics.
An argument that moral psychology can benefit from closer integration with the social sciences, offering a novel ethical theory bridging the two. In this book, Mark Fedyk offers a novel analysis of the relationship between moral psychology and allied fields in the social sciences. Fedyk shows how the social sciences can be integrated with moral philosophy, argues for the benefits of such an integration, and offers a new ethical theory that can be used to bridge research between the two. Fedyk argues that moral psychology should take a social turn, investigating the psychological processes that motivate patterns of social behavior defined as ethical using normative information extracted from the social sciences. He points out methodological problems in conventional moral psychology, particularly the increasing methodological and conceptual inconsilience with both philosophical ethics and evolutionary biology. Fedyk's “causal theory of ethics” is designed to provide moral psychology with an ethical theory that can be used without creating tension between its scientific practice and the conceptual vocabulary of philosophical ethics. His account aims both to redirect moral psychology toward more socially realistic questions about human life and to introduce philosophers to a new form of ethical naturalism—a way of thinking about how to use different fields of scientific research to answer some of the traditional questions that are at the heart of ethics.
What do Alexi Kovalev, Ted Irvine, and Mike Rogers all have in common? They all wore number 27 for the New York Rangers. Current team captain Ryan McDonagh joined their ranks when he became a Ranger in 2010. Since the Rangers first adopted uniform numbers in 1926, the team has handed out only 83 numbers to more than 1,000 players. That’s a lot of overlap. It also makes for a lot of good stories. New York Rangers by the Numbers tells those stories for every Ranger since ’26, from Clarence Abel to Mats Zuccarello. This book lists the players alphabetically and by number; these biographies help trace the history of one of hockey’s oldest and most beloved teams in a new way. For Rangers fans, anyone who ever wore the uniform is like family. New York Rangers by the Numbers reintroduces readers to some of their long-lost ancestors, even those they think they already know.
One of the greatest unmet challenges in conservation biology is the genetic management of fragmented populations of threatened animal and plant species. More than a million small, isolated, population fragments of threatened species are likely suffering inbreeding depression and loss of evolutionary potential, resulting in elevated extinction risks. Although these effects can often be reversed by re-establishing gene flow between population fragments, managers very rarely do this. On the contrary, genetic methods are used mainly to document genetic differentiation among populations, with most studies concluding that genetically differentiated populations should be managed separately, thereby isolating them yet further and dooming many to eventual extinction! Many small population fragments are going extinct principally for genetic reasons. Although the rapidly advancing field of molecular genetics is continually providing new tools to measure the extent of population fragmentation and its genetic consequences, adequate guidance on how to use these data for effective conservation is still lacking. This accessible, authoritative text is aimed at senior undergraduate and graduate students interested in conservation biology, conservation genetics, and wildlife management. It will also be of particular relevance to conservation practitioners and natural resource managers, as well as a broader academic audience of conservation biologists and evolutionary ecologists.
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