It is clear that the climate is changing and ecosystems are becoming severely degraded. Humans must mitigate the causes of, and adapt to, climate change and the loss of biodiversity, as the impacts of these changes become more apparent and demand urgent responses. These pressures, combined with rapid global urbanisation and population growth mean that new ways of designing, retrofitting and living in cities are critically needed. Incorporating an understanding of how the living world works and what ecosystems do into architectural and urban design is a step towards the creation and evolution of cities that are radically more sustainable and potentially regenerative. Can cities produce their own food, energy, and water? Can they be designed to regulate climate, provide habitat, cycle nutrients, and purify water, air and soil? This book examines and defines the field of biomimicry for sustainable built environment design and goes on to translate ecological knowledge into practical methodologies for architectural and urban design that can proactively respond to climate change and biodiversity loss. These methods are tested and exemplified through a series of case studies of existing cities in a variety of climates. Regenerative Urban Design and Ecosystem Biomimicry will be of great interest to students, professionals and researchers of architecture, urban design, ecology, and environmental studies, as well as those interested in the interdisciplinary study of sustainability, ecology and urbanism.

Principles for Evaluating Building Materials in Sustainable Construction: Healthy and Sustainable Materials for the Built Environment provides a comprehensive overview of the issues associated with the selection of materials for sustainable construction, proposing a holistic and integrated approach. The book evaluates the issues involved in choosing materials from an ecosystem services perspective, from the design stage to the impact of materials on the health of building users. The three main sections of the book discuss building materials in relation to ecosystem services, the implications of materials choice at the design stage, and the impact of materials on building users and their health. The final section focuses on specific case studies that illustrate the richness of solutions that existed before the rise of contemporary construction and that are consistent with a sustainable approach to creating built environments. These are followed by modern examples which apply some, if not all, of the principles discussed in the first three sections of the book.

The notion of ecology has become central to contemporary design discourse. This reflects contemporary concerns for our planet and a new understanding of the primary entanglement of the human species with the rest of the world. The use of the term 'ecology' with design tends to refer to how to integrate ecologies into design and cities and be understood in a biologically-scientific and technical sense. In practice, this scientific-technical knowledge tends to be only loosely employed. The notion of ecology is also often used metaphorically in relation to the social use of space and cities. This book argues that what it calls the 'biological' and 'social' senses of ecology are both important and require distinctly different types of knowledge and practice. It proposes that science needs to be taken much more seriously in 'biological ecologies', and that 'social ecologies' can now be understood non-metaphorically as assemblages. Furthermore, this book argues that design practice itself can be understood much more rigorously, productively and relevantly if understood ecologically. The plural term 'ecologies design' refers to these three types of ecological design. This book is unique in bringing these three perspectives on ecological design together in one place. It is significant in proposing that a strong sense of ecologies design practice will only follow from the interconnection of these three types of practice. Ecologies Design brings together leading international experts and relevant case studies in the form of edited research essays, case studies and project work. It provides an overarching critique of current ecologically-oriented approaches and offers evidence and exploration of emerging and effective methods, techniques and concepts. It will be of great interest to academics, professionals and students in the built environment disciplines.

The notion of ecology has become central to contemporary design discourse. This reflects contemporary concerns for our planet and a new understanding of the primary entanglement of the human species with the rest of the world. The use of the term 'ecology' with design tends to refer to how to integrate ecologies into design and cities and be understood in a biologically-scientific and technical sense. In practice, this scientific-technical knowledge tends to be only loosely employed. The notion of ecology is also often used metaphorically in relation to the social use of space and cities. This book argues that what it calls the 'biological' and 'social' senses of ecology are both important and require distinctly different types of knowledge and practice. It proposes that science needs to be taken much more seriously in 'biological ecologies', and that 'social ecologies' can now be understood non-metaphorically as assemblages. Furthermore, this book argues that design practice itself can be understood much more rigorously, productively and relevantly if understood ecologically. The plural term 'ecologies design' refers to these three types of ecological design. This book is unique in bringing these three perspectives on ecological design together in one place. It is significant in proposing that a strong sense of ecologies design practice will only follow from the interconnection of these three types of practice. Ecologies Design brings together leading international experts and relevant case studies in the form of edited research essays, case studies and project work. It provides an overarching critique of current ecologically-oriented approaches and offers evidence and exploration of emerging and effective methods, techniques and concepts. It will be of great interest to academics, professionals and students in the built environment disciplines.

It is clear that the climate is changing and ecosystems are becoming severely degraded. Humans must mitigate the causes of, and adapt to, climate change and the loss of biodiversity, as the impacts of these changes become more apparent and demand urgent responses. These pressures, combined with rapid global urbanisation and population growth mean that new ways of designing, retrofitting and living in cities are critically needed. Incorporating an understanding of how the living world works and what ecosystems do into architectural and urban design is a step towards the creation and evolution of cities that are radically more sustainable and potentially regenerative. Can cities produce their own food, energy, and water? Can they be designed to regulate climate, provide habitat, cycle nutrients, and purify water, air and soil? This book examines and defines the field of biomimicry for sustainable built environment design and goes on to translate ecological knowledge into practical methodologies for architectural and urban design that can proactively respond to climate change and biodiversity loss. These methods are tested and exemplified through a series of case studies of existing cities in a variety of climates. Regenerative Urban Design and Ecosystem Biomimicry will be of great interest to students, professionals and researchers of architecture, urban design, ecology, and environmental studies, as well as those interested in the interdisciplinary study of sustainability, ecology and urbanism.