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'Rethinking Biology offers many useful perspectives on a range of topics: why neuroscience and brain imaging threaten to create a reductive view of self and behaviour every bit as misleading as the genetic one, why adaptationism needs taming in evolutionary narratives …'Public Understanding of ScienceBiologists always need to grapple with integrating two explanatory approaches. On the one hand, there is necessarily an effort to drill down to the lowest possible level to explain what is happening in whatever is being studied. That involves looking at how higher-level processes arise from lower level ones. On the other hand, there is a need to consider how the broader context influences bottom-up processes; that involves looking at how the whole influences the parts. Neither approach is satisfactory on its own. There is always a need to integrate the consideration of how parts influence wholes with how wholes influence parts.This book arises from a concern that in the public dissemination of biology the need to integrate these different perspectives is not coming across well. In popularisations, simplistic micro explanations always seem to arouse most interest and to capture the headlines. That risks distorting and simplifying the complexity of biological processes, and can mislead people. In this book we are urging a concerted attempt to come to grips with the interactive complexity of biology, and to find ways of conveying it to the public accessibly and effectively.We are particularly concerned with how biology is communicated to the public. Too often, what comes over to the public is a crude, out-of-date, simplistic, mono-causal, reductionist biology. Why so? Why is biology so misrepresented? Who is responsible? It is partly the media, of course, but we suggest that biologists themselves are often partly responsible. When it comes to communication with the public, they tend to over-simplify in a way that distorts.Related Link(s)
This book presents a new way of thinking about the history of science and technology, one that offers a grand narrative of human history in which knowledge serves as a critical factor of cultural evolution. Jürgen Renn examines the role of knowledge in global transformations going back to the dawn of civilization while providing vital perspectives on the complex challenges confronting us today in the Anthropocene, the present geological epoch shaped by humankind. Covering topics ranging from evolution of writing to the profound transformations wrought by modern science, The Evolution of Knowledge offers an entirely new framework for understanding structural changes in systems of knowledge and a bold, innovative approach to the history and philosophy of science.
This book brings together selected papers from scientists, theologians and philosophers who took part in the 2021 conference of the European Society for the Study of Science and Theology based in Madrid, Spain. The contributions constitute a cutting-edge resource for considering questions from interdisciplinary perspectives, covering both the crucial role played by images and models in our thinking and also the limitations which are inherent in these linguistic devices. Questions addressed include: Can this use of images and models generate a creative pluralism, enabling us to think outside the disciplinary silos which are a feature of academic discourse? Can they enable fruitful, synergistic, interdisciplinary conversations? This book will appeal to students and academics alike, particularly those working in the fields of philosophy, theology, ethics and the history of science.
"In this accessible guide, science educator Michael J. Reiss and philosopher Michael Ruse argue that organicism-rather than mechanism-is the best way to understand the nature of life, and detail the resulting implications for biology, philosophy, education, and policy"--
'This outstanding book... deserves to be very widely read. I hope it makes a major contribution to how school biology is taught.' —Dr Michael J. Reiss, Professor of Science Education, University of London 'This is a book that all teachers, not just biology teachers should read.' —Ben Strathearn-Burrows, Head of Biology, Emanuel School What you'll find inside: —A vision for an integrated and meaningful biology education. —A framework for teaching for meaning-making, which cuts planning time. —Ways of creating a unified narrative across disparate topics. —A taxonomy of understanding that unlocks problem-solving with minimal workload. —Tried and tested examples from mixed-attainment biology classrooms. Introduction I've been motivated to discover what biology is to us as humans. What it means to understand biology, and how I could make it meaningful for my students. I've read as much as I could and reflected, I've discussed and listened, I've taught and observed. While it doesn't cover all aspects of biology education, this book is about sharing what I've learnt on my journey of synthesising and trialling ideas with my secondary-school mixed-attainment biology classes. 'Not only is this book likely to change how you teach biology but also how you perceive yourself within the living world.' —Dr Alex Sinclair, Institute of Education, St Mary's University, Twickenham Chapter 1: Meaningful biology relates principally to organisms: This sets the scene for the whole book. It brings together many threads to define what I see as most meaningful to secondary biology students. And therefore what we could do about it when designing our lessons & curricula and thinking about how students progress through their biology education. Planning for meaning-making has vastly enhanced interest and motivation to learn in my classroom. Chapters 2 & 3: Teaching for meaning using variation theory: Next I introduce a powerful—relatively unknown and often misunderstood—pedagogical theory. Variation theory. In these chapters I set out to show how useful it is—and easy to use—in the secondary biology classroom, with many examples. Chapter 4: How to integrate organisms, ecology & evolution: Now I pull together the previous chapters to present a new framework for teaching for meaning-making that cuts planning time & focuses on biology. 'An excellent text demanding we think not just about what we teach but also why and how.’ —Dr Paul Ganderton, Consultant and researcher Chapter 5: Concepts of the organism that unite a biology course: Here I discuss two concepts that I think can unify all the topics on the curriculum. 1. Seeing biology through thermodynamic systems lens and, 2. Seeing biology through an ecological-evolutionary lens via the concept of life strategies. I lay out the reasons why and discuss how I've introduced these ideas with students. Chapter 6: Teaching systems thinking to help students see interconnectedness: This chapter is dedicated to systems thinking. Firstly I show how stock and flow diagrams are very useful for the biology classroom and give examples. Next, I introduce a new taxonomy of understanding biological systems. Chapter 7: Establishing a thinking classroom: This chapter is focused on the whys and hows of embedding the taxonomy into my biology curricula. I give examples of how I use it and examples of my students answers from lower and upper secondary courses. Chapter 8: Navigating classroom and biological complexity: This chapter rounds up the book by considering the complexity of our subject and the classroom. ‘Biology Made Real comes with an education health warning—be prepared to have your beliefs challenged.' —Dr Alex Sinclair
This edited volume presents the current state of the art of genetics education and the challenges it holds for teaching as well as for learning. It addresses topics such as how genetics should be taught in order to provide students with a wide and connected view of the field. It gives in-depth aspects that should be considered for teaching genetics and the effect on the student’s understanding. This book provides novel ideas for biology teachers, curriculum developers and researchers on how to confront the presented challenges in a way that may enable them to advance genetics education in the 21st century. It reviews the complexity of teaching and learning genetics, largely overlooked by biology textbooks and classroom instruction. It composes a crucial component of scientific literacy.
Versión en castellano del libro "Biology Made Real". Traducido por IA y editado por el autor. Introducción Siempre me ha motivado entender qué es la biología para nosotros como humanos. Qué significa entender la biología y cómo puedo hacer que tenga sentido para mis alumnos. He leído todo lo que he podido y he reflexionado, he discutido y escuchado, he enseñado y observado. Este libro trata de compartir lo que he aprendido con mis clases de biología de secundaria. «No sólo es probable que este libro cambie tu forma de enseñar biología, sino también tu percepción de ti mismo dentro del mundo vivo.» —Dr. Alex Sinclair, Instituto de Educación, Universidad de St Mary, Twickenham. Lo que encontrarás: —Una visión de una educación de biología integrada y significativa. —Un marco de enseñanza que se centra en la construcción de significado y reduce el tiempo de planificación. —Formas de crear una narrativa que unifica temas dispares. —Una taxonomía de la comprensión que permite la resolución de problemas con una carga de trabajo mínima. —Ejemplos probados en el aula. Capítulo 1: La biología significativa se refiere principalmente a los organismos: Este capítulo sienta las bases de todo el libro. Reúne muchos hilos para definir lo que considero más significativo para los estudiantes de biología de secundaria. Y, por tanto, lo que podemos hacer al respecto a la hora de diseñar nuestras clases y planes de estudio y de pensar en cómo progresan los estudiantes en su formación en biología. La planificación de la construcción de significados ha aumentado enormemente el interés y la motivación por aprender en mi clase. Capítulos 2 y 3: La construcción de significado mediante la teoría de la variación: A continuación presento una poderosa teoría pedagógica, relativamente desconocida y a menudo mal entendida. La teoría de la variación. En estos capítulos me propongo demostrar lo útil que es—y lo fácil que resulta utilizarla—en el aula de biología de secundaria, con muchos ejemplos. Capítulo 4: Cómo integrar organismos, ecología y evolución: Ahora reúno los capítulos anteriores para presentar un nuevo marco de enseñanza para la construcción de significado que reduce el tiempo de planificación y se centra en la biología. Capítulo 5: Conceptos del organismo que unen un curso de biología: Aquí discuto dos conceptos que creo que pueden unificar todos los temas del plan de estudios. 1. Ver la biología a través de los sistemas termodinámicos y 2. Ver la biología a través de la evolución ecológica mediante el concepto de estrategias vitales. Expongo las razones y hablo de cómo he presentado estas ideas a los alumnos. Capítulo 6: Enseñar el pensamiento sistémico para ayudar a los alumnos a ver la interconexión: Muestro cómo los diagramas de existencias de flujo son muy útiles para el aula de biología y doy ejemplos. A continuación, presento una nueva taxonomía para entender los sistemas biológicos que permite la resolución de problemas en biología. Capítulo 7: Establecer una cultura de pensamiento: Este capítulo se centra en los cómos y los porqués de la integración de la taxonomía en los planes de estudio de biología. Doy ejemplos de cómo la utilizo y ejemplos de las respuestas de mis alumnos de cursos de secundaria. Capítulo 8: Navegar por el aula y la complejidad biológica: Este capítulo concluye el libro considerando la complejidad de nuestra asignatura y del aula.
Rethinking Evolution links Darwin's early insights to the molecular realm inside living cells. This updated evolutionary synthesis provides an accessible explanation for biological complexity that cuts through the confusion surrounding evolutionary theory in a practical way.In addition to a wide-ranging survey of proposed updates to the modern synthesis, this title provides extraordinary new insights including emergent evolutionary potential and the generative phenotype. Drawing on well-characterized empirical facts, Rethinking Evolution transcends classical Darwinian natural selection while retaining those core principles that have stood the test of time.The updated synthesis brings a broad spectrum of specialized research together to provide a more plausible naturalistic explanation for biological evolution than ever before. Perspectives ranging from the role of energy in the origin of life to the networks of protein-DNA interactions that govern multicellular development are woven together in a robust conceptual fabric consistent with 21st century cutting-edge research.Inspired in part by the surprising ways that DNA sequences change — such as his early discovery of a fundamental mispairing mechanism by which DNA sequences expand — and drawing on a career's worth of experience both as a research scientist as well as a biology and chemistry tutor — the author provides an engaging account that is essential reading — both for the public awareness and understanding of the science of evolution and for students and professionals in the biomedical sciences.Related Link(s)
The body is crucial to religious life, but there has been little practical attention given to how to make a helpful reality of this fact. Strong forms of philosophical dualism have been widely abandoned by post-war theologians in favour of a more integrated view of human nature, but guidance on the role of the body in Christian spirituality remains fragmentary. Focusing particularly on drawing out practical implications for religious life and ministry, this book surveys the many ways in which the body plays an important role in religious and spiritual life, drawing on scientific research, theology and philosophy.
Does biology help explain why women, on average, earn less money than men? Is there any evolutionary basis for the scarcity of female CEOs in Fortune 500 companies? According to Kingsley Browne, the answer may be yes. Biology at Work brings an evolutionary perspective to bear on issues of women in the workplace: the "glass ceiling," the "gender gap" in pay, sexual harassment, and occupational segregation. While acknowledging the role of discrimination and sexist socialization, Browne suggests that until we factor real biological differences between men and women into the equation, the explanation remains incomplete. Browne looks at behavioral differences between men and women as products of different evolutionary pressures facing them throughout human history. Womens biological investment in their offspring has led them to be on average more nurturing and risk averse, and to value relationships over competition. Men have been biologically rewarded, over human history, for displays of strength and skill, risk taking, and status acquisition. These behavioral differences have numerous workplace consequences. Not surprisingly, sex differences in the drive for status lead to sex differences in the achievement of status. Browne argues that decision makers should recognize that policies based on the assumption of a single androgynous human nature are unlikely to be successful. Simply removing barriers to inequality will not achieve equality, as women and men typically value different things in the workplace and will make different workplace choices based on their different preferences. Rather than simply putting forward the "nature" side of the debate, Browne suggests that dichotomies such as nature/nurture have impeded our understanding of the origins of human behavior. Through evolutionary biology we can understand not only how natural selection has created predispositions toward certain types of behavior but also how the social environment interacts with these predispositions to produce observed behavioral patterns.