The aim of biophilic design is to create buildings and spaces that enable harmonious, naturally enjoyable experiences for their users by promoting the affinity of human beings for the natural world that surrounds us. The discipline offers numerous benefits for physical and mental well-being, as well as having a positive environmental impact thanks to enhanced sustainability performance.
Biophilic design encompasses a broad range of concepts and a variety of methods for nurturing the relationship between people and nature by bringing natural features into the built environment, with a number of guiding principles for architects and designers seeking to use it in their work. This article is intended as an introduction to the topic for anyone who is planning to create public spaces that incorporate biophilic design elements, with considerations to keep in mind and some examples to help you reflect on how it can be used in practice.
What is biophilic design?
Humans evolved in the natural environment, not a human-engineered one, which is why we have a natural inclination towards nature. A wide range of studies have explored how we are programmed to respond to natural stimuli and how exposure to nature, especially when repeated, positively impacts our health and well-being. The idea behind biophilia – that humans have an innate affinity for nature – is not a new one, but the term itself was first introduced by Erich Fromm in his 1973 bookThe anatomy of human destructivenessand then popularized in 1984 by Edward O. Wilson inBiophilia, which expanded on the subject and introduced the concept of biophilic design in architecture.
Sadly, the natural world is often seen purely as a resource for building our artificial one rather than an arena with which we should share a harmonious two-way interaction. The modern world places many obstacles in the way of our ability to engage with nature – a key culprit being the built environment, where we spend the vast majority of our time indoors, sheltered from the nature all around us. According to Calabrese and Kellert inThe practice of biophilic design(2015), this results in “inadequate contact with natural light, ventilation, materials, vegetation, views, natural shapes and forms”. Biophilic design seeks to redress this balance by introducing natural elements and synergistic relationships into the environments where we live out our everyday lives – in and surrounded by buildings.
The six elements of biophilic design
A key proponent of biophilic design, the late Stephen Kellert, wrote extensively on humanity’s relationship with nature. InBiophilic design: the theory, science, and practice of bringing buildings to life(2008), Kellert set outsix fundamental elements of biophilic design:
- Environmental features
As an element of biophilic design, environmental features relates to characteristics of the natural world found in the built environment.
- Natural shapes and forms
The element of natural shapes and forms includes representations and simulations of the natural world in buildings, both internally and externally.
- Natural patterns and processes
This element focuses on how the built environment is enhanced by incorporating properties found in nature into it.
- Light and space
There are many ways that light and space, the use of which is a crucial element of biophilic design, can be incorporated into a space.
- Place-based relationships
People have a strong sense of connection with places, and the element of place-based relationships refers to a linking of culture with ecology.
- Evolved human-nature relationships
This element pays particular attention to fundamental aspects of our relationship with nature and how they can be reflected in the built environment.
What are the principles behind biophilic design?
Before we give you some practical guidance on using biophilic design in public spaces and examine some examples of how this has been done by others, let’s look at the concept behind the practice. By seeing humans as biological organisms, biophilic design seeks to create a naturally healthy habitat of buildings and landscapes, within the modern built environment, that benefits our health, fitness and well-being. According to Kellert and Calabrese, this can be achieved by applying the following five underlying principles.
Biophilic design:
- requires repeated and sustained engagement with nature
- focuses on human adaptations to the natural world that over evolutionary time have advanced people’s health, fitness and wellbeing
- encourages an emotional attachment to particular settings and places
- promotes positive interactions between people and nature that encourage an expanded sense of relationship and responsibility for the human and natural communities
- encourages mutual reinforcing, interconnected, and integrated architectural solutions.
Why is biophilic design beneficial?
The central aim of biophilic design is to create harmony between humans and nature within the built environment. This benefits humans by providing a habitat that naturally encourages healthier behavior and supports their physical and mental health, and the environment by creating natural spaces with strong sustainability performance alongside features and systems that operate by natural principles.
There are numerous ways to implement this, including shapes and forms that naturally appeal to the eye and create relaxation, ergonomically designed furniture and fittings, systems and functions that are activated, powered or enhanced by weather conditions, and the integration of local materials and cultural traditions into the living environment.
Kellert and Calabrese list biophilic design’s main benefits for human health:
Physical health benefits:
- Enhanced physical fitness
- Lower blood pressure
- Increased comfort and satisfaction
- Fewer illness symptoms
- Improved overall health
Mental health benefits:
- Increased satisfaction and motivation
- Less stress and anxiety
- Improved problem solving and creativity
Positive behavioral changes:
- Better coping and mastery skills
- Enhanced attention and concentration
- Improved social interaction
- Less hostility and aggression
How is biophilic design implemented in practice?
The benefits described above will be maximized by applying the philosophy of biophilic design through a broad ecosystem-focused approach rather than implementing individual elements or strategies in a piecemeal or ad-hoc way. According to Kellert and Calabrese, biophilic design should “promote ecologically interrelated design solutions at multiple scales from distinct interior spaces, the building as a whole, the surrounding landscape, to the urban and bio-regional scale.” Beyond the simple application of tools or methods, this requires a shift of mindset that includes a commitment to taking “responsibility for the care and sustainability of the natural world”.
How biophilic design is implemented within a given building project will depend on a number of factors, such as the starting point and size of the project, the intended use of the building or landscape, costs and available budget and other economic, logistical and regulatory factors. As a starting point, Kellert and Calabrese describe three kinds of experiences that can be created through the application of various biophilic design strategies, which should be integrated in ways that reinforce and support each other holistically. Each of these experiences are, in turn, comprised of a number of attributes:
1. Direct experience of nature
This refers to direct contact with natural features in the built environment.
Attributes:light, air, water, plants, animals, weather, natural landscapes and ecosystems, fire.
2. Indirect experience of nature
Here, we are talking about contact with representations or images of nature, or with natural patterns or processes.
Attributes:images of nature, natural materials, natural colors, simulating natural light and air, naturalistic shapes and forms, evoking nature, information richness, age, change and the patina of time, natural geometries, biomimicry
3. Experience of space and place
Space and place relates to spatial features found in nature that can benefit health and wellbeing when brought into the built environment.
Attributes:prospect and refuge, organized complexity, integration of parts to wholes, transitional spaces, mobility and wayfinding, cultural and ecological attachment to place
What are the particular considerations for implementing biophilic design in public spaces?
While the design principles and elements of biophilic design apply universally, there are certain features of public spaces that differentiate their design and build from private projects. Here are some questions to keep in mind related to public spaces:
- Heavier footfall:how can biophilic design principles be used to direct the flow of people in a way that is naturally both pleasant and efficient?
- Heavier usage:how can designs and materials be used to protect the durability of buildings, furniture and fittings in the built environment and limit negative health consequences of busy public areas like stress and anxiety?
- Larger spaces:how can natural resources and forms be adopted to create functional, large-scale buildings and landscapes?
- Noisier environment:how can biophilic principles help to limit the creation and transmission of noise, create a more natural soundscape and provide areas for escaping from excessive noise?
- Less security:with access to public areas not restricted in the same way as private establishments and residences, how can biophilic elements help to naturally regulate who enters and leaves and create an environment where security can be more easily managed?
- Function of the space:which biophilic design strategies can be used to promote the intended use of the public space and ensure it is fit for its purpose? If the building will be predominantly used by particular groups, how can it naturally support their needs and preferences?
Some examples of biophilic design in public spaces
Perhaps you like the idea of using biophilic design in your own projects but don’t know where to start? To give you some context, here are a few examples of public spaces that have successfully been enhanced using some of the principles and elements outlined in this article.
The Jewel: incorporating nature into the built environment
Since adopting its “Garden City” motto in the ‘60s, Singapore has been frequently heralded as a demonstration of how introducing plants into architectural designs can enhance a busy urban environment. One of the city’s most iconic examples of biophilic architecture isThe Jewelat Changi Airport, where forest layers surround an impressive central water feature known as the Rain Vortex, which is the world’s tallest indoor waterfall. As the connecting point for the airport’s three terminals, The Jewel was created as a destination in its own right, with several natural attractions keeping travelers occupied during their journeys.
1 Hotels: a complete biophilic experience
With numerous locations across North America, and more coming soon in Europe and Australia, 1 Hotels is a hotel chain with a difference. The hotels intentionally prioritize biophilic design to promote sustainability and create a unique wellness experience for guests, helping them to feel naturally grounded and at ease during their stay. Some of the features they use to do this include natural shapes and forms that blur the lines between the building and its surrounding natural environment, furniture made with reclaimed materials, responsibly sourced foods in the restaurant and plenty of plants both inside and out.
Green Your Laneway: biophilic street design
TheGreen Your Lanewayprogram was launched Melbourne, Australia in 2015 to encourage the transformation of several of the city’s streets through community-owned projects. The main activity was centered around establishing vegetable gardens and greening the selected streets using window boxes, climbing plants, hanging baskets and miniature rain gardens, with the aim of improving biodiversity in the area and offering habitats for wildlife. Other environmental benefits included filtering air pollution, diverting stormwater and managing temperatures during hot periods, saving energy and resources. The project also improved residents’ well-being and experience of using the streets while transforming them from simple routeways into places where they could actually enjoy spending time.
Hopefully, reading this article has given you some useful background information on how biophilic design can be used, and seeing the examples has inspired you to explore ways to incorporate it into your next building project. Remember that as a natural building material, thermo-wood from Thermory is an ideal resource with many benefits to offer in terms of health and well-being. If you’d like to learn more about the six elements described briefly here, check out ourmore detailed article on the six elements of biophilic design.