As biological science rapidly generates new knowledge and novel approaches to address increasingly complex and integrative questions, biology educators face the challenge of teaching the next generation of biologists and citizens the skills and knowledge to enable them to keep pace with a dynamic field. Fundamentally, biology is the science of…

In our theoretical and conceptual article, we propose that the application of Niklas Luhmann's sociological systems theory as a difference-theoretical approach to the opening of science unveils an openness paradox. We describe and discuss the general concept of open science as currently proposed by UNESCO and posit that only by accepting the…

This paper, the second in a series of three, explores the representation of Earth System Science (ESS) in the Australian Curriculum (ACARA, 2018a)) through the Cross Curriculum Priority area of Sustainability and the Australian Curriculum: Science (F-12), with a focus on F-10. Part I (in Teaching Science, 68.1) overviewed the current…

Living in a Delta, amidst water, land and air, means living and engaging with complex concerns. To address these concerns the Rotterdam Arts and Sciences Lab (RASL) has developed an education- and research program for Higher Education in which the (alpha-, beta-, and gamma-) sciences and the arts are combined to engage with with all of the scales,…

Systems thinking encompasses a set of skills for understanding, analyzing, and working with systems consisting of multiple interconnected elements and exhibiting emergent properties. Such systems are all around us, and helping students to develop such skills is central to equipping them to tackle professional and societal challenges. While the…

Chemistry plays an important role in developing scientific theories to describe, explain, and predict the physical world and to produce useful products for improving quality of life throughout history. To arouse student awareness of the value and importance of learning chemistry and becoming chemistry literate, we propose an application of systems…

This article draws primarily on a policy discussion hosted by the New Zealand Association of Research in Education's (NZARE) Science Special Interest Group at the 2016 national conference, arguing that an ecosystem view of science education is a useful metaphor when considering both what is being done to implement the vision for science education…

Systems thinking, interdisciplinary research projects, and creative problem solving are ways to frame modern chemistry curricula to inspire the next generation of scientists, engineers, teachers, and citizens to use their skills and education to create a sustainable future. By integrating planetary boundaries, green chemistry, and the UN…

A summer workshop was offered to inner-city high school students to explore the sustainability of their consumer choices using a systems thinking model. Students learned about related environmental or health issues due to the manufacturing, use, or disposal of common household products. Then, in the laboratory, they performed experiments to…

As a newcomer, the philosophical basis of systems biology seems intuitive and appealing, the underlying philosophy being that the whole of a living system cannot be completely understood by the study of its individual parts. Yet answers to the questions "What is systems biology?" and "What constitutes a systems biology approach in…

Scholars representing the field of systems science were asked to identify what they considered to be the most exciting and imaginative work currently being done in their field, as well as how that work might change our understanding. The scholars included Alexander Christakis, Debora Hammond, Michael Jackson, Alexander Laszlo, Ian Mitroff, Dave…

Beginning with a reference to living in a time of both uncertainty and opportunity, this article presents a discussion of key areas where shared understanding is needed if we are to successfully realize the design and use of high quality, valid assessments of science. The key areas discussed are: (1) assessment purpose and use, (2) the nature of…

In an era of global competition and a technology-based economy, it is increasingly important that college students graduate with a solid foundation of knowledge and understanding of science and mathematics. They must be able to use their scientific knowledge on their jobs and in their role as citizens of a society where complex policy and resource…

Policymakers and educators are increasingly expressing concerns that the U.S. is lagging behind other countries in educating the next generation of mathematicians and scientists. In response, the federal government, private foundations, and many "institutions of higher education" (IHEs) are encouraging STEM (science, technology,…

It is not enough for students to acquire knowledge about how food is produced and processed; they must also come to understand the biological and environmental contexts in which food production, processing, and transportation take place. Through diagramming, students begin to understand that our food system has a series of interacting parts and…