Biomimicry is the conscious emulation of nature’s models and processes to solve human problems. Nature is a source of solutions that are elegant, highly evolved, energy-efficient, and sustainable. The first recorded use of the term biomimicry appeared in 1988 in a publication by Janine Benyus, a scientist from the University of Washington in Seattle. Biomimicry is a form of biomimetics, which is imitating life.
In the book Biomimicry: Innovation Inspired by Nature, Janine Benyus describes how she began her research into biomimicry after learning about the plight of the spotted owl in the Pacific Northwest.
Biomimicry is the practice of learning from nature to create sustainable solutions for the future. Rather than using synthetic chemicals to solve problems and build things, people are now looking to nature for answers.
Biomimicry is the use of green technology to improve the environment. The idea behind biomimicry is to mimic nature. This means using what we can learn from natural processes and applying them to our products and technology.
Biomimicry: Fields Of Application And Perspectives
Biomimicry is a recent field of science that describes the application of biological designs and processes to human-made technologies. Biomimicry utilizes the rich heritage of nature and the deep-rooted wisdom of all species on earth to solve a human-made problem.
What makes biomimicry particularly valuable is the fact that the natural world has already solved the vast majority of the problems that face us today. By learning from nature, and by transforming our systems, products, and technologies into more sustainable versions of themselves, biomimicry can be part of the solution to the world’s most pressing crises, including global warming, food shortage, and water shortage.
The idea of taking nature as a source of inspiration for the development of products, processes, technologies and services dates back to the very beginnings of human civilization. Way back in the year 1802, naturalist and founder of the French school of Romanticism,
Jean-Baptiste Lamarck wrote: “Nature is the best of inventors, the most skillful of artists; she never works by jumps and starts, never retraces her steps, never uses two tools when one will do, never loses a fragment when it can be saved, never wastes anything, never leaves a tool without its use, or a fruit without its seed.”
The Norms Of Biomimicry For Companies And Businesses
There are many things that different companies are working on. They are trying to make their operations more sustainable. This means that they will be better for the environment. There are many different ways to do this. Biomimicry is one of the ways that companies are doing this.
Biomimicry is the process of modelling and emulating life processes, structures and functions to solve complex human problems. While the word itself has been around since the early 1980s, it has only recently become part of the mainstream consciousness.
One of the reasons for this is the continued rise in relevance of sustainable energy, and the need to find new ways to address environmental issues and development.
Companies and businesses have a lot to learn from nature. One of the most recent examples is how Patagonia, the outdoor clothing company, has used biomimicry to make their gear more sustainable and efficient.
Patagonia is an example of a company that wants to do more than just exploit nature and cause harm to the environment. They want to learn from nature and then use those insights to do their best to better the world.
Examples of biomimicry
When we look at the incredible array of animals, plants, and other life forms on Earth, we see a diverse and complex world—one that offers us countless lessons on design and function we can use in the artificial world we’ve created. Biomimicry, or “biomimetics,” is the practice of looking to nature for inspiration and insight on how to make things more sustainable and efficient, from better solar panels to clothing that mimics a gecko’s ability to climb sheer surfaces.
Biomimicry is all about learning from nature and using the insight to create technical solutions for human problems. It has been defined as: ‘the imitation of the models, systems, and elements of nature for the purpose of solving complex human problems.
Biomimicry tends to be a catchall term for a number of different disciplines and practices, including biomimetic architecture, biomimetic engineering, biomimetic materials science, biomimetic robotics, biomimicry landscaping and biomimicry painting.
Use Biomimicry to Make Better Products (and Companies)
What is Biomimicry? The term is (apparently) a play on the word “mimicry”—a kind of animal behavior in which animals, like insects, copy other animals or plants in order to blend in with their environment.
Biomimicry applies the same concept to human technology, using nature as a model in order to make better products and companies. It’s about how to make things better by understanding how living things work, and how to apply that knowledge to solve human problems.
Imagine your company is a venomous spider that lives in a desert. That company’s products are the spider’s poison and its silk. Now imagine that your company’s products have a deadly flaw that can be traced back to a design flaw in the spider’s poison.
That flaw was the result of a change in the spider’s silk that was supposed to help the spider capture prey. The flaw in your company’s product was the result of a change in the product’s design that was supposed to help the product compete against similar products from other companies.
Scientists have been looking at nature and using it for inspiration since the beginning of time. Take the wind turbine, for example, which uses the mechanics of a windmill to harness the power of the wind. The main blade and the sails are all designed to capture wind and use it to rotate a shaft, which powers a generator. Now, researchers at the Lawrence Berkeley National Laboratory and Sandia National Laboratories are taking one of nature’s most efficient designs—the tiny hairs on a gecko’s toes—and using it to build a new kind of tiny motor. (The engineer in me got all excited when I read this. Things in nature are so efficient, and I love the idea of mimicking these designs to build new and interesting things!)